ML22193A247
| ML22193A247 | |
| Person / Time | |
|---|---|
| Site: | 07000925 |
| Issue date: | 01/01/2021 |
| From: | Maisler J Environmental Properties Management |
| To: | Office of Nuclear Material Safety and Safeguards |
| Shared Package | |
| ML22193A284 | List: |
| References | |
| RPP-001, Rev 4 | |
| Download: ML22193A247 (198) | |
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Page i Review and Aoorovals Prepared: Jay Maisler Signature:
Date:
Jay Maisler, CHP Digitally signed by Jay Maisler, CHP Date: 2021.03.01 13:56 26-05'00' Reviewed by Todd Brautigam Signature:
Date:
Todd S Brautigam Digitally signed by T1 t>dd S Brautigam Date: 2021.03.01 14:1 ~2:24 -05'00' Reviewed by Quality Assurance Coordinator: Chuck Beatty Signature:
Date:
Charles Beatty Jr.
Digitally signed by Charles Be atty Jr.
Date: 2021.03.01 15:13:32 -05 00' Aooroved by Radiation Safety Officer: Jay Maisler, CHP Signature:
Date:
Jay Maisler, CHP Digitally signed by Jay \\t\\aisler, CHP Date: 2021.03.01 15:28 30-05'00' Approved by Trustee Project Manager: Jeff Lux Signature:
Date:
Jeff Lux Digitally signed by Jeff Lu1<
Date: 2021.03.01 16:06:17 -06'00' Approved by Administrator, Cimarron Environmental Response Trust: Bill Halliburton Signature:
Date:
Bill Halliburton Digitally signed by Bill ~ alliburton Date: 2021.03.01 17:23: 17 -06'00' Verify version is current prior to use
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Cimarron Environmental Response Trust envi ronmenta I properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Page ii NOTE The content of Revision 4 to the Radiation Protection Plan (RPP) includes provisions that apply to activities proposed in the Decommissioning Plan (DP) that is under review by the U.S. Nuclear Regulatory (NRC. This RPP is incorporated as Appendix O of that DP. Upon approval by the NRC, this RPP will be revised to incorporate any changes required by the NRC staff agreed to during the review process, as documented in a Safety Evaluation Report.
RPP provisions that cannot be implemented without NRC approval are identified in GRAY HIGHLIGHTED TEXT. Other changes in Rev. 4 have been reviewed in accordance with license condition 27(e) of SNM-928 by the ALARA Committee and determined that they may be implemented as they do not:
Conflict with the ALARA principle or decommissioning process.
Conflict with requirements specifically stated in the license or impair the Cimarron Environmental Response Trust's ability to meet all applicable NRC regulations.
Cause degradation in safety or environmental commitments addressed in the NRC-approved RPP and/or DP or have a significant adverse effect on the quality of the work, the remediation objectives, or health and safety.
Conflict with the conclusions analyzed in the Environmental Assessment, dated July 29,1999, and Safety Evaluation Report, dated August 20,1999.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Page iii Summary of Changes Revisions to this document will be identified, and revisions or addenda will be issued as needed.
The end user is responsible to verify that any hard copy being used is the current revision. A current version of the RPP is maintained on the Cimarron SharePoint site. A hard copy is available at the Site office. A summary description of each revision or addenda will be noted in the following table.
Revision Number Date Comments Rev. 0 April 11, 2011 Original Rev. 1 Feb.3,2012 Revision 1 to the Cimarron RPP contains numerous administrative changes and editorial changes.
Specific changes are identified in a separate 27(e) evaluation and attached markup of changes from RPP Rev. 0.
Rev. 2 Feb.24,2014 Revision 2 to the RPP includes clarifications addressing groundwater processing and editorial changes. Specific changes are identified in a separate 27(e) evaluation and attached markup of changes from Rev. 1.
Rev. 3 April 15, 2016 Revision 3 provides changes to support the proposed Decommissioning Plan and includes editorial changes. Clarifications were added to address how radiological controls for routine activities are handled when an Activity Plan is not required or used. Specific changes are identified in a separate 27(e) evaluation and attached markup of changes from Rev. 2.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Page iv Revision Number Date Comments Rev. 3.1 Dec. 31, 2018 Revision 3.1 is an interim revision This is an interim revision pending approval of draft Revision 4 by the NRC. Accordingly, it is labeled Revision 3.1. This revision to the RPP incorporates changes identified during the submittal of the Cimarron Facility Decommissioning Plan, Rev. 1, that the ALARA Committee determined can be implemented prior to NRC approval of the Decommissioning Plan. This revision also addresses and clarifies issues discussed with the NRC staff during the November 2018 inspection at the Site.
Rev. 3.2 Sep. 15,2019 Includes editorial corrections. Corrected error in Section 8.2 that implied personnel access logs were required for entry into areas posted solely as Radioactive Materials Areas. Corrected typographical area regarding Radioactive Materials Area in Table 8.1 and Section 10.2.
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Pagev Revision Number Date Comments Rev. 4 March 1, 2021 Added signature blocks to Reviews and Approvals page to identify preparer and technical reviewer.
Changed language on verification of the current version of the RPP in accordance with Site practices in Summary of Changes and footers.
Includes changes made to conform with the Cimarron Site Decommissioning Plan under review by the NRC for approval Added a Note on the cover page to indicate that certain changes identified within the RPP cannot be implemented until NRC approves the Decommissioning Plan.
After NRC approval, Rev. 5 to the RPP will be issued to reflect NRC approved RPP language.
Other changes have been to clarify Site implementation of the RPP or to make editorial corrections and clarifications. Specific changes approved for implementation are identified in a separate 27(e) evaluation and attached markup of changes from Rev. 3.2.
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Cimarron Environmental Response Trust envi ronmenta I properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Page vi TABLE OF CONTENTS
1.0 INTRODUCTION
................................................................................................ 1-1 1.1 Purpose.......................................................................................................................... 1-1 1.2 Scope............................................................................................................................. 1-1 2.0 TRAINING REQUIREMENTS AND POLICY..................................................... 2-1 2.1 Section Overview.......................................................................................................... 2-1 2.2 Responsibilities............................................................................................................. 2-1 2.3 Training Requirements.................................................................................................. 2-1 2.3.1 Radiological Orientation........................................................................................ 2-2 2.3.2 General Worker Radiological Training................................................................. 2-3 2.3.3 Radiation Worker Training.................................................................................... 2-4 2.3.4 Training Delivery................................................................................................... 2-6 2.3.5 Training Frequency............................................................................................... 2-7 2.4 Refresher Training........................................................................................................ 2-7 2.5 Training Records........................................................................................................... 2-8 3.0 ADMINISTRATION AND RESPONSIBILITIES................................................. 3-1 3.1 Section Overview.......................................................................................................... 3-1 3.2 Radiation Protection Organization................................................................................ 3-1 3.3 Policies.......................................................................................................................... 3-4 3.3.l Stop Work Authority.............................................................................................. 3-4 Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Page vii 3.3.2 Reporting Safety Concerns and Regulatory Violations......................................... 3-4 3.4 Radiation Protection Program Document Hierarchy.................................................... 3-5 3.5 Procedure Development................................................................................................ 3-5 3.6 Procedure Review, Approval, and Control................................................................... 3-6
- 3. 7 Desk Instructions.......................................................................................................... 3-6 3.8 Notifications and Reports............................................................................................. 3-7 3.8. l Required Notices and Postings.............................................................................. 3-7 3.9 RSO Designees and Task Qualification........................................................................ 3-8 3.9.l Education............................................................................................................... 3-8 3.9.2 Health Physics Experience..................................................................................... 3-8 3.9.3 Specialized Knowledge.......................................................................................... 3-8 3.9.4 Expiration of Task Qualifications.......................................................................... 3-9 4.0 ALARA PROGRAM........................................................................................... 4-1 4.1 Section Overview.......................................................................................................... 4-1 4.2 ALARAPolicy.............................................................................................................. 4-1 4.3 ALARA Committee...................................................................................................... 4-1 4.3.1 ALARA Committee Responsibilities....................................................................4-1 4.3.2 Annual ALARA Committee Report...................................................................... 4-2 4.3.3 ALARA Committee Membership.......................................................................... 4-3 4.3.4 ALARA Committee Meetings............................................................................... 4-4 Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Page viii
5.0 ASSESSMENT
S................................................................................................ 5-1 5.1 Section Overview.......................................................................................................... 5-1 5.2 Audits............................................................................................................................ 5-1 5.3 Surveillances................................................................................................................. 5-2 5.4 Records......................................................................................................................... 5-2 6.0 PERSONNEL MONITORING............................................................................. 6-1 6.1 Individual Monitoring of Occupational Dose............................................................... 6-1 6.2 Occupational Dose Limits............................................................................................. 6-3 6.2.1 Occupational Dose Limits for Adults (10 CFR 20.1201)...................................... 6-3 6.2.2 Occupational Dose Limits to Minors (10 CFR 20.1207)....................................... 6-4 6.2.3 Occupational Dose Limits to Embryo/Fetus (10 CFR 20.1208)............................ 6-4 6.3 Dose Limits for Individual Members of the Public (10 CFR 20.1301)........................ 6-4 6.4 Determination of Prior Occupational Exposure............................................................ 6-4 6.5 Personnel Monitoring for External Radiation............................................................... 6-5 6.6 Internal Exposure Monitoring....................................................................................... 6-6 6.7 Declared Pregnant Woman Exposure Policy................................................................ 6-8 6.8 Summation oflnternal and External Dose.................................................................... 6-8 6.9 ALARA Dose Goals..................................................................................................... 6-9 6.10 Personnel Exposure Reports......................................................................................... 6-9 6.11 Dosimetry Records...................................................................................................... 6-10 Verify version is current prior to use
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Page ix 7.0 RADIATION PROTECTION INSTRUMENTATION........................................... 7-1 7.1 Calibration..................................................................................................................... 7-1 7.2 Operation and Response Tests...................................................................................... 7-2 7.3 Maintenance and Repair............................................................................................... 7-2 7.4 Quality Control/Quality Assurance............................................................................... 7-2 7.5 Radiation Protection Instrumentation Inventory........................................................... 7-3 8.0 ACCESS CONTROL.......................................................................................... 8-1 8.1 Section Overview.......................................................................................................... 8-1 8.2 Restricted Area Access Controls.................................................................................. 8-2 8.3 Posting and Labeling Requirements............................................................................. 8-2 9.0 RADIOLOGICAL WORK CONTROLS.............................................................. 9-1 9.1 Section Overview.......................................................................................................... 9-1 9.2 Activity Plan Requirements.......................................................................................... 9-1 9.2.1 Activity Plan Approval/Closeout........................................................................... 9-2 9.2.2 Activity Plan Training............................................................................................ 9-2 9.2.3 Record Keeping..................................................................................................... 9-2 9.3 Receipt of Potentially Contaminated Tools, Equipment, Parts, and Material.............. 9-3 10.0 RADIATION PROTECTION SURVEYS........................................................... 10-1 10.1 General Requirements................................................................................................. 10-1 10.2 Routine Surveys.......................................................................................................... 10-2 Verify version is current prior to use
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Cimarron Environmental Response Trust environmental properties management, LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Pagex 10.3 Job Coverage Surveys................................................................................................. 10-3 10.4 Investigative Surveys.................................................................................................. 10-3 10.5 Final Status Surveys.................................................................................................... 10-4 10.6 Personnel Contamination Monitoring......................................................................... 10-4 10.7 Area Radiation Monitoring......................................................................................... 10-4 10.8 Air Monitoring........................................................................................................... 10-4 10.9 Survey Training......................................................................................................... 10-7 10.10 Survey Documentation................................................................................................ 10-8 11.0 RADIOACTIVE MATERIALS CONTROL........................................................ 11-1 11.1 Section Overview........................................................................................................ 11-1 11.2 Material Control and Accountability.......................................................................... 11-1 11.3 Receipt, Labeling, and Storage of Radioactive Material............................................ 11-5 11.4 Shipment and Transfer of Radioactive Material......................................................... 11-6 11.5 Controls for Radioactive Sources............................................................................... 11-6 11.6 Theft or Loss of Radioactive Material........................................................................ 11-7 12.0 CONTAMINATION CONTROL........................................................................ 12-1 12.1 Section Overview........................................................................................................ 12-1 12.2 Contaminated Buildings and Equipment.................................................................... 12-1 12.3 Contaminated Personnel............................................................................................. 12-2 12.4 Spill of Radioactive Material...................................................................................... 12-2 Verify version is current prior to use
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Cimarron Environmental Response Trust envi ronmenta I Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Page xi 12.5 Contamination Control During Groundwater Processing........................................... 12-2 13.0 RELEASE for unrestricted use OF MATERIALS.......................................... 13-1 13.1 Section Overview........................................................................................................ 13-1 13.2 Survey Instrumentation............................................................................................... 13-1 13.3 Release Surveys ofMaterials...................................................................................... 13-1 13.3.l Surfaces of Buildings, Equipment, and Outdoor Areas....................................... 13-2 13.3.2 Soils...................................................................................................................... 13-2 13.3.3 Exposure Rates..................................................................................................... 13-3 14.0 RESPIRATORY PROTECTION....................................................................... 14-1 14.1 Section Overview........................................................................................................ 14-1 14.2 Respiratory Protection Program.................................................................................. 14-2 15.0 ENVIRONMENTAL MONITORING.................................................................. 15-1 15.1 Section Overview........................................................................................................ 15-1 15.2 Surface and Groundwater Monitoring........................................................................ 15-2 15.2.1 Quality Control in Sampling................................................................................ 15-2 15.2.2 Reporting.............................................................................................. *................ 15-2 15.3 Direct Radiation.......................................................................................................... 15-3 Verify version is current prior to use
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Cimarron Environmental Response Trust envi ronmentat properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Page xii 16.0 DEFINITIONS................................................................................................... 16-1 17.0 REFERENCES................................................................................................. 17-1 APPENDIX A.............................................................................................................. A-1 APPENDIX B.............................................................................................................. B-1 Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 1.0 Page 1-1
1.0 INTRODUCTION
1.1 Purpose This Radiation Protection Plan (RPP) establishes radiation protection requirements implemented at the Cimarron Site to achieve compliance with applicable regulatory requirements and License SNM-928. As provided in the Cimarron Site Decommissioning Plan, the RPP will be implemented during decommissioning (extraction and treatment of uranium-impacted groundwater).
1.2 Scope The RPP applies to all radiological operations, routine and emergency, at the Cimarron Site. The RPP applies to the following personnel when present at the Cimarron Site:
Licensee employees Contractors and their employees Visitors Verify version is current prior to use
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Cimarron Environmental Response Trust envi ronmenta I Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 2.0 Page 2-1 2.0 TRAINING REQUIREMENTS AND POLICY 2.1 Section Overview This section describes radiation safety training requirements for individuals who enter a Restricted Area (RA), handle radioactive material, or work in the vicinity of radioactive material at the Site.
2.2 Responsibilities The RSO is responsible for the radiation safety training program which includes:
Approving radiation safety training materials Approving personnel performing radiation safety training Performing radiation safety training Verifying that those individuals who require radiation safety training receive appropriate training 2.3 Training Requirements Radiation safety training requirements are tiered to provide an appropriate level of training based on the potential for radiation exposure of an individual at the Cimarron Site. Individuals who visit or work at the Site but do not require unescorted access to RAs or Radioactive Material Areas must complete Radiological Orientation. In addition to Radiological Orientation, General Worker Radiological Training is required for individuals requiring unescorted access to RAs or Radioactive Material Areas whose duties do not involve working with or handling radioactive material. Radiation Worker Training is required for individuals who handle or work directly with radioactive materials.
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 2.0 Page 2-2 The Licensee shall not assume that radiation safety training has been adequately covered by prior employment or academic training.
Inspectors and representatives of the NRC and the Oklahoma Department of Environmental Quality, Land Protection Division, Radiation Management Section are exempt from radiation safety training. Site-specific information may be provided to agency personnel if deemed necessary by the RSO.
A prospective evaluation of radiological conditions and potential doses to workers for the groundwater treatment process will be performed. Based on the results of this evaluation, the RSO will determine the need for individual monitoring, and General Worker Radiological Training (Subsection 2.3.2) or Radiation Worker Training (Subsection 2.3.3) for workers accessing RAs, and the boundaries of any required RA(s).
2.3.1 Radiological Orientation Radiological Orientation is required for visitors and individuals visiting or working at the Cimarron Site but not permitted to enter RAs or Radioactive Material Areas. Individuals who complete Radiological Orientation will be granted escorted (i.e., under direct supervision of a Qualified Escort) access to RAs and Radioactive Material Areas but working with or handling radioactive materials is not permitted. Entry into Contaminated Areas, Airborne Radioactive Material Areas, or areas requiring either bioassay or respiratory protection is not permitted. Activities these individuals undertake may include, but is not limited to general office work, housekeeping, and tours and inspections of the property.
Information required for Radiological Orientation may be presented in a classroom setting or provided as a "read-and-sign" document. A test is not required for Verify version is current prior to use
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 2.0 Page 2-3 Radiological Orientation. Documentation will be maintained for all individuals completing Radiological Orientation. The following topics will be addressed:
Radioactive materials that are present at the Site NRC Form 3, "Notice to Employees" Information regarding radiation safety requirements for work to be performed (e.g., groundwater sampling, well installation, groundwater processing, packaging and shipping for disposal, etc.)
Site access and egress (typically covered in Site Safety & Health Orientation);
Response to emergency conditions (including weather, fires, personnel injuries)
(typically covered in Site Safety & Health Orientation);
Site industrial safety requirements (typically covered in Site Safety & Health Orientation)
Refresher training for Radiological Orientation shall be conducted annually (within 12 months).
2.3.2 General Worker Radiological Training General Worker Radiological Training is required for workers who are granted unescorted access to RAs Radioactive Material Areas but who are not permitted:
Work with or handle radioactive material.
Enter Contaminated Areas or Airborne Radioactive Material Areas.
Enter areas where bioassay or respiratory protection is required.
Information required for General Worker Radiological Training may be presented in a classroom or virtual classroom setting or provided as a "read-and-sign" document.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 2.0 Page 2-4 Documentation will be maintained for all individuals completing General Worker Radiological Training. General Worker Radiological Training will include:
Information covered in Radiological Orientation described above; Information regarding the principles and practices of radiation protection; Information regarding the purpose and functions of protective and monitoring devices that will be used, as applicable; Information regarding protection available for the embryo/fetus, as applicable.
General Worker Radiological Training will include a test to verify an adequate understanding of the training. Each test shall have a minimum passing grade of 80%. If an individual does not pass the test, the test may be administered a second time. If the candidate fails the test a second time, the candidate must repeat the entire General Worker Radiological Training course before he/she can take another test.
A candidate who does not achieve a minimum of 80% on the General Worker Radiological Training test will not be granted unescorted access to any RA or Radioactive Material Area.
Refresher training for General Worker Radiological Training shall be conducted annually (within 12 months) and does not require re-testing.
2.3.3 Radiation Worker Training Radiation Worker Training is required for individuals who in the course of employment are likely to receive an occupational dose to radiation greater than 100 mrem (1 millisievert) in a year or whose duties require them to work in an RA, Radioactive Material Area, Contaminated Area, Airborne Radioactive Material Area, or routinely Verify version is current prior to use
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Cimarron Environmental Response Trust environmental properties management, LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 2.0 Page 2-5 work with or handle radioactive material, or use respiratory protection equipment (for radiation protection). Such workers may include groundwater processing operators and their supervision, health physics technicians, and environmental sampling personnel.
Radiation Worker training will include:
Information covered in General Worker Radiological Training described above; Radioactivity measurements, monitoring techniques, and usage of monitoring instrumentation; Basic calculations involved in using and measuring radioactivity; Types of radiation, range and effects; Regulatory and Site-specific dose limits to the general public and occupationally exposed persons; Storage, transfer, or use ofradiation and/or radioactive material; Biological effects of radiation; Health protection problems associated with exposure to radiation and/or radioactive material; Precautions or procedures to minimize exposure; Purposes and functions of protective devices employed; Applicable NRC regulations and license requirements for the protection of personnel from exposure to radiation and/or radioactive material including responsibility to observe regulatory and license requirements to the extent within the worker's control; Workers' responsibility to report promptly to the Licensee any condition which may lead to or cause a violation of Commission regulations and licenses or unnecessary exposure to radiation and/or radioactive material; Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 2.0 Page 2-6 Appropriate response to warnings made in the event of any unusual occurrence or malfunction that may involve exposure to radiation and/or radioactive material; Radiation exposure reports which workers may request pursuant to 10 CFR 19.13.
Initial Radiation Worker Training will include a test to verify an adequate understanding of the training. Each test shall have a minimum passing grade of 80%. Each test question answered incorrectly shall be reviewed with the test participant and noted on test. If an individual does not pass the test, the test may be administered a second time. If the candidate fails the test a second time, the candidate must repeat the entire Radiation Worker Training course before he/she can take another test.
A candidate who does not achieve a minimum of 80% on the Radiation Worker training test will not be permitted to perform work in an RA or to handle radioactive material until such time as the Radiation Worker training and test is successfully completed. The individual may continue unescorted access to RAs or Radioactive Material Areas if they successfully completed General Worker Radiological Training.
2.3.4 Training Delivery Any of the following techniques, or combination thereof, may be used for radiation safety training:
Classroom training Audiovisual media Reading assignments (Self Study)
Computer-based or on-Line training (Internet)
On-the-job training (OJT) under the presence of an individual trained in the specific activity being observed; Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 2.0 Page 2-7 Demonstrations Drills Discussions 2.3.5 Training Frequency Initial Radiation Worker Training shall be conducted before working an RA, Radioactive Material Area, Contaminated Area, Airborne Radioactive Material Area, or routinely in working with or handling radioactive material.
A training update for Radiological Orientation, General Worker Radiological Training, or Radiation Worker Training shall be provided, as appropriate, whenever there is a significant change in duties, regulations, or terms of the license.
Refresher for Radiation Worker Training shall be conducted annually (within 12 months) and does not require re-testing.
2.4 Refresher Training Refresher training for Radiological Orientation, General Worker Radiological Training, and Radiation Worker may be satisfied by the RSO or designee issuing required reading that is formally acknowledged by the individual in an email or signed acknowledgement form. Other methods for conducting refresher training may be required by the RSO based upon lessons learned throughout the year.
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Cimarron Environmental Response Trust environmental properties rnanagement, LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 2.0 Page 2-8 2.5 Training Records Training records shall include the following documentation:
Rosters of individuals attending Radiological Orientation briefings.
Rosters of individuals attending General Worker Radiological Training.
Rosters of individuals completing Radiation Worker Training.
Completed General Worker Radiological Training graded tests.
Completed Radiation Worker Training graded tests.
Documentation of completion of refresher for General Worker Radiological Training.
Documentation of completion of refresher for Radiation Worker Training.
Records for all individuals shall be maintained in accordance with the Quality Assurance Program Plan (QAPP).
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Cimarron Environmental Response Trust envi ran mental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 3.0 Page 3-1 3.0 ADMINISTRATION AND RESPONSIBILITIES 3.1 Section Overview This section describes the radiation protection organization and responsibilities of those individuals implementing the RPP.
Administration of the radiation protection program requires coordination among the following individuals:
Trust Administrator Trustee Project Manager (Trustee PM)
RSO Quality Assurance Coordinator (QAC)
Task Specific Project Managers (PMs)
Activity Leaders Individual Workers ALARA Committee 3.2 Radiation Protection Organization The radiation protection organizational structure for the Cimarron Site is shown in Figure 3-1.
Trust Administrator - The Trust Administrator has expertise in management and has managerial and financial responsibility for the decommissioning of the Cimarron Site. The Trust Administrator is a permanent member of the Site ALARA Committee.
Trustee PM - The Trustee PM is responsible for overseeing the construction and operation of decommissioning systems, the implementation of radiation safety, industrial health and safety, Verify version is current prior to use
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Cimarron Environmental Response Trust envi ronmenta I Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 3.0 Page 3-2 quality assurance, and environmental compliance programs. The Trustee PM is responsible for ensuring that all personnel performing decommissioning activities, or working in radiation protection, health and safety, quality assurance, or environmental compliance functions receive training and have the skills and experience required to perform those functions. The Trustee PM, having expertise in decommissioning and responsibility for implementing decommissioning changes, is a permanent member of the ALARA Committee.
RSO (Jay Maisler) -The RSO is responsible for maintenance and implementation of the radiation protection program. The RSO is also responsible for review and revision of the RPP and procedures, radiation exposure monitoring, dose reporting, the radiological instrument program, and all levels of radiation safety training. The RSO is responsible for ensuring that all activities comply with license requirements, chair the ALARA Committee, and manage the health physics staff. The RSO is given specific authority to implement and manage the Licensee's radiation protection program, either directly or through qualified individuals who are designated in writing as having authority to exercise specific functions. All radiation protection personnel have stop work authority.
The responsibility for the implementation and review of the Material Control and Accountability (MC&A) program is assigned to the RSO for the Cimarron Site. The RSO establishes training programs for individuals who implement activities in accordance with MC&A procedures and designates specific individuals are qualified to implement those activities.
QAC -The QAC is responsible for the maintenance and implementation of the quality assurance program. The QAC performs or schedules periodic and/or ad hoc audits and observations of all decommissioning and program management functions. All quality assurance personnel have stop work authority. The QAC is also responsible to perform periodic evaluations of the effectiveness of the quality assurance program and to ensure that all personnel performing Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 3.0 Page 3-3 quality-critical tasks have received the appropriate level of training on the Site-specific quality assurance program. The QAC attends the Site ALARA Committee.
PMs - PMs are responsible for the preparation of plans, procurement of services and materials, and the execution of decommissioning projects. PMs ensure that all personnel working on projects have received all the training needed and are qualified to perform the tasks for which they are responsible to perform. PMs are responsible for monitoring the schedule, cost, and quality of the project work.
Activity Leader and Front-Line Supervisor-Activity Leaders (ALs) are the front-line supervisors over non-routine work performed at the Cimarron Site. ALs are responsible for the preparation of activity plans and procurement of services and materials for non-routine activities.
Front-line supervisory personnel are responsible for procurement of services and materials and the performance of decommissioning operations for routine operations. ALs and front-line supervisors ensure that all personnel working on projects are familiar with the activity plan under which the work is being performed, and that they have received all the training needed and are qualified to perform the tasks for which they are responsible to perform. ALs and front-line supervisors are responsible for monitoring the schedule, cost, and quality of the project work.
Individual Worker - Each worker is responsible for their own protection and the protection of their co-workers. Workers should know how NRC requirements relate to their work and should follow them. If a worker observes violations of the requirements or has a safety concern, they should report them as discussed in section 3.3.2 of this Plan. Workers are provided training related to their responsibilities in Radiological Orientation, General Worker Radiological Training, and Radiation Worker Training.
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 3.0 Page 3-4 ALARA Committee - The ALARA Committee is responsible for ensuring that ALARA policy and regulatory compliance are integrated into Site work activities as appropriate. The Committee reviews and approves ALARA goals for the Cimarron Site and the effectiveness of the ALARA program in meeting these goals. The Committee also reviews plans for new Site activities to ensure that ALARA principles have been considered, reviews the radiation protection program annually to ensure regulatory compliance and incorporate any necessary changes, and evaluates and approves changes to the DP or the RPP in accordance with License Condition 27(e).
3.3 Policies 3.3.1 Stop Work Authority All Site personnel have the authority to stop work:
- If radiological health and safety of workers is compromised
- If radiological health and safety of the general public is compromised
- If radiological regulatory non-compliance may occur (includes NRC regulations, license conditions, and radiation protection procedures) 3.3.2 Reporting Safety Concerns and Regulatory Violations All workers at the Site have the right to report safety concerns and observations of potential regulatory or license violations. Individuals are encouraged to contact the RSO first if they have a radiation safety concern or observe a potential regulatory or license violation. This is not a requirement.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 3.0 Page 3-5 Individuals who are not satisfied with the response to an expressed concern have the right to contact the NRC for resolution. See NRC Form 3, "Notice to Employees." No penalty or retribution will result to an individual who contacts the NRC.
3.4 Radiation Protection Program Document Hierarchy The order of precedence in regulating the Cimarron Site is:
- 1. Federal radiation protection regulations (10 CFR)
- 2. License SNM-928, including the RPP which is incorporated into the license via a license condition
- 3. Radiation protection program procedures 3.5 Procedure Development Radiation protection procedures have been developed to provide consistent, effective performance of radiation protection activities. Radiation protection procedures include, but are not limited to, the sampling and analysis of influents and effluents to monitor the accumulation of special nuclear material in resins, the sampling of loaded resin and biomass for waste characterization, and the sampling, analysis, handling, storage, manifesting, transportation, and disposal of low-level radioactive waste.
Radiation protection procedures shall be developed in accordance with the QAPP.
Radiation protection procedures shall comply with regulatory requirements, license conditions, and the RPP.
Radiation protection procedures may incorporate or reference applicable technical guidance documents ( e.g., NRC Regulatory Guides and NUREGs, National Council on Radiation Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 3.0 Page 3-6 Protection and Measurements (NCRP) guidance, International Council on Radiation Protection (ICRP) guidance, American National Standards Institute (ANSI) documents, etc.).
3.6 Procedure Review, Approval, and Control Radiation protection procedures shall undergo technical verification and review to ensure compliance with regulatory requirements, applicable licenses and permits, and the RPP, as well as conformance, to the extent practicable, with applicable industry standard practices.
Radiation protection procedure review shall assess compatibility with all other Licensee plans, manuals, and procedures.
Radiation protection procedure review shall ensure that the procedure can be performed as written.
All radiation protection procedures shall be reviewed and approved by the RSO.
All radiation protection procedures shall by reviewed by the QAC or designee for conformance with quality assurance program requirements.
All radiation protection procedures shall be controlled in accordance with the QAPP.
3.7 Desk Instructions Desk Instructions may be developed and implemented to provide guidance on radiation protection program implementation or to clarify program implementation expectations from the RSO. Desk Instructions serve as a reference guide on specific topics that help the user implement various aspects of the RPP. Desk Instructions may be written to provide instructions for performing routine or special radiological surveys, qualify or requalify individuals to perform radiological surveys, or identify RSO designees.. Desk Instructions are issued by the RSO or Verify version is current prior to use
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 3.0 Page 3-7 designee and expire 12 months after approval. Desk Instructions may be renewed at additional 12-month increments. All Desk Instructions shall be controlled in accordance with the QAPP.
3.8 Notifications and Reports Notifications and reports shall be made in accordance with the requirements of 10 CFR 19, 10 CFR 20 and 10 CFR 70. Detailed instructions for regulatory requirements related to notifications and reports are provided in radiation protection procedure, RP-05, "Radiation Protection Reports and Assessments."
3.8.1 Required Notices and Postings The RSO responsible for ensuring the following postings and reports available to employees and contractors working at the Site. In some cases, where the volume of pages associated with a required posting or report is impractical to physically post, notice informing workers where the information is available or how it can be obtained may be posted:
Current NRC Form 3, "Notice to Employees" 10 CFR 19 and 10 CFR 20 regulations A copy of SNM-928 and documents incorporated by license, reference, and amendments to the license.
Operating procedures applicable to licensed activities.
Any notice of violation involving radiological working conditions, proposed imposition of civil penalty, or order issued by the NRC, and any response from the Trust.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 3.0 Page 3-8 3.9 RSO Designees and Task Qualification Prior to designating an individual, the RSO should consider the following:
3.9.1 Education The designated individual should have a Bachelors' degree in the physical sciences, industrial hygiene or engineering from an accredited college or university or an equivalent combination of training and relevant experience in radiological protection.
Two years of relevant experience are considered equivalent to 1 year of academic study.
3.9.2 Health Physics Experience The designated individual should have at least 1 year of work experience in applied health physics, industrial hygiene or similar work relevant to radiological hazards associated with site remediation. This experience should involve actually working with radiation detection and measurement equipment, not simply administrative or "desk" work.
3.9.3 Specialized Knowledge The designated individual should have a thorough knowledge of the proper application and use of all health physics equipment used for the radionuclides present at the Site, the chemical and analytical procedures used for radiological sampling and monitoring, and methodologies used to calculate personnel exposure to the radionuclides present at the Site. The individual must have the appropriate specialized knowledge to perform the designated responsibility.
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Cimarron Environmental Response Trust envi ronmenta I Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 3.0 Page 3-9 Designated individuals may be qualified to perform specific tasks approved by the RSO. A modified "systematic approach to training" is employed to qualify individuals on specific tasks.
Task qualifications must be documented and include the following:
Verification that the selected individual has sufficient experience (e.g., related technical experience, such as environmental remediation, industrial hygiene, use of scientific instruments, etc.), education (including physical science and math), and prior training (related to the specific task, which may include electronic equipment use and handling, computer applications, etc.).
Leaming objectives based on the procedural requirements to perform the task.
On-the-job training including performance terminal objectives that the individual must satisfy through performance, simulation, or discussion. Each performance terminal objective should include the behavior being evaluated (e.g., task being performed),
conditions associated with the task, standards that must be met (e.g., applicable procedures), and the steps necessary to perform the specific task.
3.9.4 Expiration of Task Qualifications.
Task qualifications are typically valid for 12 months and may be extended with refresher training and RSO or designee approval.
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Cimarron Environmental Response Trust envi ronmenta I Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 3.0 Page 3-10 Figure 3-1 The Cimarron Environmental Response Trust Organization I
Radiation Safety Officer (RSO)
I Radiation Safe,ty Personnel Direct Report Accountability -
Trust Administrator II Trustee Project Manager II I
I I
Activity Leads/
Quality Assurance Front-Line Project Manager Coordinator (QAC)
Supervisors Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 4.0 Page 4-1 4.0 ALARA PROGRAM 4.1 Section Overview This section describes the philosophy, requirements, and responsibilities of the Cimarron Site As Low As Reasonably Achievable {ALARA) program.
4.2 ALARA Policy The Cimarron Site radiation protection program uses, to the extent practicable, procedures and engineering controls based upon sound radiation protection principles to achieve occupational doses and dose to members of the public that are ALARA. The Licensee is committed to providing resources such as personnel, training programs, engineering controls, monitoring devices, activity planning, etc. to achieve the goals of the ALARA principle.
Radiation Protection Procedure, RP-10, "ALARA Program," is the implementing procedure for the ALARA program. In addition, the Licensee encourages individuals working at the Site to provide input regarding improvements that would minimize dose and improve the safety and efficiency of activities.
4.3 ALARA Committee At a minimum, the ALARA Committee meets once each calendar quarter.
4.3.1 ALARA Committee Responsibilities The responsibilities of the ALARA Committee include:
Ensuring that ALARA policy and regulatory compliance are integrated into all Site work activities as appropriate Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 4.0 Page 4-2 Reviewing and approving ALARA goals for the Cimarron Site (if individual monitoring is required)
Reviewing the effectiveness of the ALARA Program (if individual monitoring is required)
Reviewing plans for new activities to ensure that ALARA principles have been considered Reviewing liquid effluent discharges to address the need to incorporate ALARA principles Annual review of the RPP to ensure regulatory compliance and to incorporate any necessary changes Evaluate and approve changes to the DP or the RPP in accordance with License Condition 27(e) 4.3.2 Annual ALARA Committee Report The ALARA Committee ensures that a formal annual report is submitted to the NRC that includes:
A description of all changes, tests, and experiments made or conducted pursuant to License Condition 27(e), including a summary of the safety and environmental evaluation of each action.
Any DP or RPP pages revised pursuant to License Condition 27(e).
A formal report shall also be submitted to the NRC annually if no changes, tests or experiments were approved by the ALARA Committee.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 4.0 Page 4-3 4.3.3 ALARA Committee Membership License Condition 27(e) states:
"The ALARA Committee shall consist of a minimum of three individuals, one of whom shall be designated as the ALARA Committee chairman. Of these three designees, one shall have expertise in management and shall have managerial and financial responsibility for the decommissioning of the site; one shall have expertise in decommissioning and shall be responsible for site decommissioning, and one shall be the site Radiation Safety Officer or equivalent and shall ensure conformance to radiation safety and environmental requirements. The designee with managerial and financial responsibility shall be employed by the Licensee's Trustee. The designee for decommissioning of the site and the Radiation Safety Officer or equivalent, shall be retained by the Trustee. Except for the representative of management, ALARA Committee members may be consultants."
In accordance with this License Condition, the ALARA Committee shall consist of a minimum of three individuals:
The Trust Administrator is a permanent (voting) member who has managerial and financial responsibility for the decommissioning of the Site.
The Trustee PM is a permanent (voting) member who is responsible for Site decommissioning and groundwater remediation.
The RSO is a permanent (voting) member of the ALARA Committee who ensures conformance to radiation safety and environmental requirements.
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 4.0 Page 4-4 The Licensee is authorized to make certain changes to the NRC-approved DP and RPP without NRC's approval, if these changes are consistent with the ALARA principle and the decommissioning process. The criteria for approval of these changes are stipulated in License Condition 27(e) and require ALARA Committee approval. Formal approval of such changes shall require a majority of the voting members and documented in minutes from the ALARA Committee meeting where these changes were approved.
Additional may be nominated and approved by the three voting members identified in License Condition 27(e)3. These members shall be identified in radiation protection procedure RP-11, "ALARA Committee Reviews and Evaluations." Non-voting members may be included, as appropriate, to address technical issues such as quality assurance, decommissioning activities, health physics, hydrogeology, etc. The QAC routinely attends ALARA Committee meetings to monitor Committee activities and report on QAPP issues. Others may periodically be appointed to the Committee including, PMs and Activity Leaders involved with radiological work activities.
4.3.4 ALARA Committee Meetings ALARA Committee meetings will include reports on the following aspects of decommissioning work:
Radiological exposures Compliance with license possession limits Compliance with Material Control & Accountability requirements Compliance with OPDES Discharge Permit limits Active Activity Plans Quality control/quality assurance performance issues Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 4.0 Page 4-5 Chemical concerns Health and safety performance and issues Radiological waste characterization and disposal Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 5.0 Page 5-1
5.0 ASSESSMENT
S 5.1 Section Overview Audits and/or surveillances provide a review of decommissioning and radiation protection activities to evaluate compliance with regulatory requirements, license conditions, the RPP and, radiation protection procedures. Audits and/or surveillances identify unsatisfactory performance and/or weaknesses in procedures, training, or work practices. The results of all audits and surveillances are reviewed by the ALARA Committee.
5.2 Audits 10 CFR 20.1101 ( c) requires that a licensee shall, at least annually, review the radiation protection program content and implementation. To satisfy this requirement, an annual audit is performed by the QAC and/or other individuals appointed by the Trustee PM. The audit is based upon various NRC guidance documents including Appendix H, NUREG-1556, Vol. 7, which provides sample audit forms to assist licensees in meeting this requirement.
Periodic audits (review of documentation and records), the ALARA Committee review of the RPP and an annual audit modeled on NRC's sample audit form are used to meet this requirement. Periodic audits are conducted, as required, under the QAPP. Audits shall be documented, as well as program changes resulting from audit findings or observations.
Corrective action for non-conformances and incidents is implemented through the "Notice of Deficiency" reporting process. The Notice of Deficiency is used to report conditions adverse to safety, and to report accidents that occur. Notices of Deficiency document stop-work actions initiated by anyone working at the Site, deficiencies in procured items or services, documents, procedure content, or adherence to procedures in the performance of work. Notices of Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 5.0 Page 5-2 Deficiency document failure to comply with specified requirements. The adoption of this single reporting mechanism simplifies deficiency reporting and integrates the resolution of issues that impact quality at the Site.
This process provides for the prompt identification of conditions adverse to quality, determination of their cause, and resolution of the specific conditions adverse to quality. A log of deficiencies and corrective actions is maintained to permit trending analysis if appropriate.
The trend analysis can be used to identify timely corrective actions to prevent recurring problems and improve performance. Deficiency reporting and the corrective action process are controlled by a single pro~edure under the QAPP.
5.3 Surveillances Surveillances are observations of activities being performed. Surveillances of Site activities are done by, or under the direction of, the QAC and/or the RSO. The goal of surveillances is to determine whether or not an activity is being performed in accordance with applicable procedures, plans, accepted industry standards, etc. Surveillances shall be documented, as well as program changes resulting from findings or observations made during surveillances.
Surveillances are conducted once each calendar quarter at a minimum.
5.4 Records Records of audits and surveillances are maintained in accordance with the QAPP.
Audit and surveillance records shall include the following information:
The date(s) the audit/surveillance was conducted.
Name of person(s) conducting the audit/surveillance.
Audit/surveillance findings, corrective actions, and follow-up.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 6.0 Page 6-1 6.0 PERSONNEL MONITORING 6.1 Individual Monitoring of Occupational Dose NRC regulation 10 CFR 20.1502 requires the licensee to monitor occupational exposures from both licensed and unlicensed radiation sources. Monitoring is required of any adult likely to receive, in 1 year from sources external to the body, a dose in excess of 10 percent of the Occupational Dose Limits for Adults and/or who are likely to receive, in 1 year, an intake in excess of 10 percent of the applicable annual limit on intake (ALI) in Table 1, Columns 1 and 2, of Appendix B to 10 CFR 20.1001-20.2402. Monitoring for minors is required when they are likely to receive, in 1 year, from radiation sources external to the body, a deep dose equivalent (DDE) in excess of0.l rem, a lens dose equivalent in excess of0.15 rem, or a shallow dose equivalent to the skin or the extremities in excess of 0.5 rem and/or likely to receive, in 1 year, a committed effective dose equivalent (CEDE) in excess of 0.1 rem. Monitoring of declared pregnant women is required when they are likely to receive during the entire pregnancy, from radiation sources external to the body, a DDE in excess of 0.1 rem and/or likely to receive during the entire pregnancy, a CEDE in excess of 0.1 rem.
Personnel monitoring has not been performed at the Site since 2006 because there was no potential to receive a dose that would require monitoring under 10 CFR 20.1502. During the design of groundwater extraction and treatment systems, new work activities, such as groundwater processing, were evaluated to determine if they may result in exposure requiring personnel monitoring. The threshold dose for personnel monitoring will not be approached; accordingly, monitoring of workers is not required for external or internal occupational dose.
Area radiation monitoring was established (Section 10.5) to confirm the results of this Verify version is current prior to use
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 6.0 Page 6-2 evaluation. Air sampling during spent ion exchange resin handling activities will be performed as discussed in Section 6.6, below, and Section 11.1 of the Decommissioning Plan.
Two calculations were performed to determine the potential radiological conditions that may be encountered when the groundwater treatment system is operational. One calculation was performed to determine the potential intake from the groundwater processing operations. The other calculation was performed to determine potential external dose rates from spent resin vessels.
Potential intakes from airborne exposure to uranium while handling spent resins are documented in Appendix A (EPM028-CALC-001, Potential Intake Calculation).
Appendix A also provides the potential intake calculation for oral ingestion of uranium, airborne exposure to Tc-99, and oral ingestion ofTc-99. A sensitivity analysis to estimate potential intakes through inhalation ofU-235 progeny (Th-231 and Pa-231) and U-238 progeny (Th-234 and Pa-234). These calculations demonstrate that the potential intakes ofradioactive materials are very low. The contamination control program described in this RPP is designed to ensure workers are not exposed to airborne radioactive material.
The air sampling program described in the RPP is based on the results of these analyses and will be used to confirm conclusion of the calculations.
Appendix B (EPM0l 7-CALC-001, Dose Rate Near Uranium Treatment Train) provides the results of external dose rate calculations from spent resin vessels. Dose rates less than 0.3 mrem/hour were considered in the development of the radiation dose monitoring program described throughout this RPP.
These calculations were based on the 60% design of the groundwater treatment system. The potential intake calculation supported the decision that internal monitoring (e.g., bioassay) and respiratory programs were not needed at the Site. This calculation also informed the development Verify version is current prior to use
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 6.0 Page 6-3 of the air sampling program described in Section 10.7. The dose rate calculation supported the decision that personnel dosimetry was not required at the Site.
Both calculations will be reviewed at 90% design, updated, if necessary, and reevaluated to determine if the RPP should be updated. In addition, periodically through groundwater processing, these supporting calculations will be reviewed to ensure they reflect operational experience and determine if changes to the RPP are necessary. If additional activities are identified or planned, the radiological consequences of those activities will be evaluated to determine if personnel monitoring for occupational dose is required.
6.2 Occupational Dose Limits NRC Regulation 10 CFR 20.1201 establishes a total effective dose equivalent (TEDE) limit and a total organ dose equivalent (TODE) limit for occupationally exposed adults. The TEDE is the sum of the DDE from external exposures and the CEDE from internal exposures. The TODE is the sum of the DDE and the committed dose equivalent (CDE) to the organ receiving the highest dose. The following annual dose limits apply to all Licensee employees, contractors, and visitors who receive occupational dose at the Cimarron Site.
Occupational dose is defined Section 16 of the RPP.
6.2.1 Occupational Dose Limits for Adults (10 CFR 20.1201)
Whole Body - The more limiting of a TEDE equal to 5 rem or the sum of the DDE and CDE to any individual organ or tissue, other than the lens of the eye, equal to 50 rem.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties rnanagement. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 6.0 Page 6-4 Skin of the whole body or skin of any extremity - A shallow dose equivalent equal to 50 rem.
Lens of the Eye - A lens dose equivalent equal to 15 rem.
6.2.2 Occupational Dose Limits to Minors (10 CFR 20.1207) 10 percent of the corresponding limit for adults.
6.2.3 Occupational Dose Limits to Embryo/Fetus (10 CFR 20.1208)
Dose to the embryo/fetus shall be limited to 500 mrem during the entire time of pregnancy of a declared pregnant woman. Substantial variations in dose rate over the gestation period shall be avoided.
6.3 Dose Limits for Individual Members of the Public (10 CFR 20.1301)
The TEDE received by individual members of the public from licensed operations shall not exceed 100 mrem in a year, exclusive of the dose contributions from background radiation, from any administration the individual has received, from exposure to individuals administered radioactive material and released under 10 CFR 35.75, or from voluntary participation in medical research programs. In addition, the dose in any Unrestricted Area from external sources shall not exceed 2 mrem above background in any one hour. Members of the public are not subject to the individual monitoring, record keeping, and reporting requirements of 10 CFR 20.
6.4 Determination of Prior Occupational Exposure The occupational dose during the current year shall be determined and an attempt shall be made to obtain records of lifetime dose for all personnel who are likely to receive a dose in excess of 10% of the annual dose limit. The prior dose history shall be documented on Form NRC-4, or Verify version is current prior to use
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Cimarron Environmental Response Trust envi ronmenta I Radiation Protection Plan properties management LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 6.0 Page 6-5 equivalent. Forms NRC-4 and NRC-5 and records used in their preparation shall be retained by the Licensee until the regulating agency terminates each pertinent license requiring this record and in accordance with the QAPP.
6.5 Personnel Monitoring for External Radiation As discussed in Section 6.1, individual monitoring for external exposure is not expected to be required during groundwater extraction and processing and related activities. Passive area radiation monitoring using thermo luminescent dosimeters (TLDs) or optically stimulated luminescent dosimeters (OSLDs) will be performed to demonstrate that individuals will not exceed the requirements for individual monitoring provided in the RPP. However, individual monitoring devices will be assigned if any of the following conditions are encountered or expected to be encountered:
Any individual likely to receive, from radiation sources external to the body, a dose in excess of 10 percent of the 10 CFR 20 occupational dose limits in a year.
Any minor likely to receive, in 1 year, from radiation sources external to the body, a DOE in excess of0.1 rem, a lens dose equivalent in excess of0.15 rem, or a shallow dose equivalent to the skin or the extremities that exceeds 0.5 rem.
Any declared pregnant woman likely to receive during the entire pregnancy, from radiation sources external to the body, a DOE that exceeds 0.1 rem.
When external exposure is determined by measurement with an external personal monitoring device, the DOE will be used in place of the effective dose equivalent, unless the effective dose equivalent is determined by a dosimetry method approved by the NRC. Dosimetry devices shall be processed by a laboratory or vendor maintaining accreditation by the National Voluntary Laboratory Accreditation Program (NVLAP).
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 6.0 Page 6-6 If the need to perform external monitoring for workers is identified, RP procedures will be implemented that consider guidance provided in Regulatory Guides 8.4, Rev. 1, 8.28, Rev. 0, and 8.34, Rev.O, as applicable. The following information will be addressed in these procedures:
A description of the individual-monitoring devices that will be provided to workers who meet the criteria in 10 CFR 20.1502(a) and 20.1601 for external exposures.
The type, range, sensitivity, and accuracy of each individual-monitoring device.
Use of extremity and whole body monitors when the external radiation field is non-uniform.
When audible-alarm dosimeters and pocket dosimeters will be provided, and a description of their performance specifications.
How external dose from airborne radioactive material is determined.
The procedure to ensure that surveys necessary to supplement personnel monitoring are performed.
Action levels for workers' external exposure, including the technical bases and actions to be taken when they are exceeded.
6.6 Internal Exposure Monitoring Based on anticipated radiological work involving extraction and treatment of groundwater at the Site, a bioassay program is not warranted. If radiological conditions change or evaluation of the final groundwater processing equipment design indicates that an individual worker could be exposed to 2% of the ALI in a year, then bioassay shall be performed. Bioassay shall be performed whenever a calculated intake of 40 Derived Air Concentration (DAC)-hours could have occurred in any one incident based on air sampling data, accident conditions, equipment failure, external contamination, or other conditions. Bioassay sampling shall also be performed Verify version is current prior to use
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 6.0 Page 6-7 whenever it is likely that an individual may have received an intake of 10 milligrams of uranium in any one week. Bioassay shall be considered upon termination of all Radiation Workers who may have had intakes of radioactive materials. The need for bioassay sampling shall be determined by the RSO/designee. Requirements for the determination of internal exposure are provided in 10 CFR 20.1204.
If the need for internal monitoring is identified, RP procedures will be implemented that consider guidance provided in Regulatory Guides 8.9, Rev. 1, 8.15, Rev. 1, 8.34 Rev. 0, and 8.36, Rev. 0, as applicable. The following information will be addressed in these procedures:
How worker intakes are determined using measurements of quantities of radionuclides excreted from or retained in the human body. Specifically, the procedures will address how frequencies for bioassay measurements for baseline, periodic, special, and termination assays are assigned.
How radioactivity measured in the human body by bioassay techniques are converted into worker intake; and action levels for bioassay samples, actions to be taken when they are exceeded, and their technical bases.
How worker intakes are determined by measurements of the concentrations of airborne radioactive materials in the workplace. Specifically, the procedures will address how airborne concentrations of radioactivity are measured; how airborne concentrations are converted to determine intakes; action levels for a worker's intake based on dose, and actions to be taken when they are exceeded; and action levels for a worker's intake based on chemical toxicity if soluble uranium is present in the work area.
How worker intakes, for an adult, a minor, and a declared-pregnant woman are determined using any combination of the measurements above.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 6.0 Page 6-8 How worker intakes are converted into committed effective dose equivalent (and organ-specific committed dose equivalent), Including how intake of radioactivity by a DPW will be converted into dose to the embryo/fetus.
- 6. 7 Declared Pregnant Woman Exposure Policy Based on recommendations of the NCRP and on regulatory requirements, controls are established for the protection of the embryo/fetus during a declared female workers pregnancy.
These controls shall ensure compliance with regulatory requirements and protect the rights of the female worker.
Declaration of pregnancy is at the discretion of the woman (medical proof is not required). Any woman who does not declare her pregnancy shall be subject to the normal occupational dose limits and shall not be subject to special controls or treatment with respect to work assignments involving exposure to radiation even if she is pregnant. The Licensee shall ensure the dose to the embryo/fetus of a declared pregnant woman does not exceed regulatory limits due to occupational dose during the entire pregnancy.
If internal monitoring for declared pregnant workers is determined to be necessary, procedures for determining dose to the embryo/fetus will be developed and implemented. Dose to the embryo/fetus will be determined based on guidance provided in Regulatory Guide 8.36 and ICRP Publication 88.
6.8 Summation of Internal and External Dose Internal and external doses are summed whenever positive doses are measured. Procedures will be used to document the methodology for the summation of internal and external doses to workers and internal dose contribution from maternal intakes to the embryo/fetus of a declared Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 6.0 Page 6-9 pregnant worker. If internal and external monitoring is performed, RP procedures will be implemented that consider guidance provided in Regulatory Guides 8.7, Rev. 4, 8.34, Rev. 0, and 8.36, Rev. 0, as applicable. The following information will be addressed in these procedures:
How the internal and external monitoring results are used to calculate TODE and TEDE doses to occupational workers.
How internal doses to the embryo/fetus, which is based on the intake of an occupationally exposed, declared-pregnant woman, will be determined.
A description of the monitoring of the intake of a declared-pregnant woman if determined to be necessary.
A description of the program for the preparation, retention and reporting of records for occupational radiation exposures.
6.9 ALARA Dose Goals As discussed in Section 4.3, ALARA dose goals will be set if individual monitoring is required.
Until such time, the annual Administrative Dose Goals for the Site is effectively 100 mrem TEDE. If the Administrative Dose Goals are exceeded without prior authorization, the RSO or designee shall investigate to determine the cause and prepare a written report to document the results of the investigation and any corrective actions taken or planned.
6.10 Personnel Exposure Reports An annual report of the individual radiation dose received shall be sent to each worker who was issued individual dosimetry and/or was subject to the requirements for monitoring as specified in Section 6.1. When requested by an individual, a written exposure report shall be provided to Verify version is current prior to use
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Cimarron Environmental Response Trust envi ronmenta I properties management, LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 6.0 Page 6-10 each such individual within 30 days of the request or within 30 days of exposure determination, whichever is later.
Internal and external doses shall be summed whenever positive doses are measured. The dose to the lens of the eye, skin, and extremities are not included in the summation. Intakes through wounds or skin absorption shall be evaluated and, to the extent practical, accounted for in summation of internal and external doses independent of intakes by ingestion or inhalation.
6.11 Dosimetry Records Records of individual monitoring shall be kept in accordance with 10 CFR 20.2106 and the QAPP. These records shall be updated at least annually for any radiation monitoring data collected. All radiation exposure records shall use the units curie, rem, rad, or multiples thereof.
Records of doses received by individuals for whom monitoring was required pursuant to 10 CFR 20.1502, and records received during planned special exposures, accidents, and emergency conditions shall be maintained. These records must include the following, when applicable" The DDE to the whole body, lens dose equivalent, shallow-dose equivalent to the skin, and shallow dose-equivalent to the extremities; The estimated intake ofradionuclides (10 CFR 20.1202);
The CEDE assigned to the intake of radionuclides; The specific information used to assess the CEDE pursuant to 10 CFR 20.1204(a) and (c), when required by 10 CFR 1502; The TEDE when required by 10 CFR 20.1202; and The total of the DDE and the committed dose to the organ receiving that highest total dose.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 6.0 Page 6-11 Procedure RP-19, "Dosimetry Records," provides for the preparation, retention, and reporting of records of occupational dose. This procedure addresses: recordkeeping frequency ( 10 CFR 20.2106(b), recordkeeping format (10 CFR 20.2106(c), privacy protection (10 CFR 20.2106(d).
RP-19 provides instructions for maintaining records of embryo/fetus with those of the mother, including the declaration of pregnancy (10 CFR 20.2106(+/-).
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 7.0 Page 7-1 7.0 RADIATION PROTECTION INSTRUMENTATION 7.1 Calibration Calibration of radiation monitoring, counting, and air sampling instruments shall be performed in accordance with the manufacturers' recommendation unless otherwise approved by the RSO.
These calibrations shall be consistent with regulatory requirements.
The calibration frequency for portable radiation monitoring instruments and portable air sampling equipment shall be at least every 12 months. Benchtop smear/sample instrumentation shall be calibrated at least annually.
Calibration of radiation protection instruments is performed by an approved vendor except for air samplers. Air sampler flow rate indicators are calibrated in accordance with manufacturer's recommendation using a reference air flow calibrator ( calibrated annually by an approved vendor). The air sampler flow rate indicator is adjusted as necessary to ensure reported values are correctly stated and valid under the actual operating conditions of the air sampler. Detailed instructions for air sampler calibrations are provided in procedures.
Instruments used to perform release surveys must be calibrated using National Institute of Science and Technology (NIST) traceable, or equivalent, standards for energies and geometries similar to material being released. The energy dependence of the instruments to alpha, beta, and gamma radiation, as applicable, shall be known and documented.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 7.0 Page 7-2 7.2 Operation and Response Tests Operation and response tests of radiation monitoring, counting, and air sampling instruments, shall only be performed by personnel trained in the use of the instrument and following approved procedures. At a minimum, on a daily basis, prior to use, each radiation protection instrument shall be subject to the following:
The instrument and detector are in good physical condition.
Verification of current calibration.
Checking the battery, if applicable, and replacing the battery, if necessary.
Source check.
Background determination.
Detailed instructions for each radiation protection instrument on operation and response tests are provided in radiation protection procedures.
7.3 Maintenance and Repair Individuals authorized by the RSO may perform routine maintenance and limited field repairs, such as replace batteries, cables, or mylar windows. Other maintenance and repair of radiation protection instrumentation shall be performed by an approved vendor. All maintenance and repair affecting calibration shall be documented.
7.4 Quality Control/Quality Assurance Quality Control (QC) measures for instruments shall be established and maintained to ensure reliability of counting results and sensitivities.
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 7.0 Page 7-3 7.5 Radiation Protection Instrumentation Inventory Table 7-1 provides a list of equipment available to perform radiological surveys at the Site.
Minimum quantities that need to be available when groundwater processing commences are provided for each instrument. The specified quantity may be reduced when an instrument is sent for calibration or repair. The RSO or designee will determine if there is a need to rent or purchase additional instruments when an instrument is being calibrated or repaired.
Radiation protection instrumentation and exempt quantity check sources will be stored in a secure storage area at the Western Area Treatment Facility.
Procedures provide implementing requirements for the program and instructions for using specific instruments, including the following information:
Instrumentation storage, calibration, and maintenance for instruments used in field surveys, including analyses of smears and air samples collected during surveys MDC or MDA ( at the 95 percent confidence level) for each type of radiation to be detected, as appropriate Instrumentation storage, calibration, and maintenance for instruments Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 7.0 Page 7-4 NOTE:
- 1.
The minimum detectable activity (MDA) for portable survey instruments is calculated by the following equation:
Where:
Rt, is background count rate (counts/minute)
Ts is sample count time (minutes)
Tb is background count time (minutes)
Eis instrument efficiency (counts/disintegration)
This equation is equivalent to Eq 3-11 ofNUREG-1507. The surface efficiency is taken into account in the determination of the instrument efficiency. The following surface efficiencies factors are used in the development oftheinstrumentefficiency:
Alpha emitters- 0.25 Beta emitters - 0.5 Gamma emitters - 1.0 A surface efficiency factor is not applied to measurements of wipe sample or air samples.
- 2.
For air sampling, the equation above is adjusted to account for the volume of air sampled. The minimum detectable concentration (MDC) for air sampling is calculated by the following equation:
3 Rb Rb
µCi r+ 3*29 r+r MDC(mL) = s EVC s b
Where:
Rt, is background count rate (counts/minute)
Ts is sample count time (minutes)
Tb is background count time (minutes)
Eis instrument efficiency (counts/disintegration)
Vis Volume of air of air sampled (mL)
C is conversion of µCi to dpm (i.e. 2.22E+06)
For the Ludlum 3030E, the typical minimum detectable activity, for a one-minute count, is 16 dpm for alpha (Th-230) and 60 dpm for beta (Tc-99) or 7.2E-06 µCi and 2.7E-05, respectively. In the case of a four-hour air sam le taken at 56 L m, the al ha MDC is 5.4E-13 Ci/mL and beta MDC is 2.0E-13 Ci/mL.
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Cimarron Environmental Response Trust envi ronmentat Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 7.0 Page 7-5 Table 7-1 Radiation Protection Instrument List Manufacturer Model Probe Min.
Description Quantity Ludlum 12 44-9 2
Instrument Type: Handheld analog ratemeter with a GM pancake-type detector.
Use: Contamination surveys, equipment and materials restricted release, personnel frisking.
Ranges: 0-500 cpm; 0-5,000 cpm; 0-50,000 cpm; 0-500,000 cpm Counting Modes: Ratemeter.
Alarm Set Point: NI A Ludlum 19 NIA 2
Instrument Type: Gamma micro-R meter (0 to 5000 µR/hr).
Use: Low-level gamma dose rate measurements.
Ranges: 0-25 µR/hr; 0-50 µR/hr; 0-250 µR/hr; 0-500 µR/hr; 0-5,000 µR/hr; Counting Modes: Ratemeter.
Alarm Set Point: NI A Ludlum 2360 43-93 3
Instrument Type: Alpha-Beta Ratemeter, Scaler, and Data Logger with a dual phosphor scintillation probe.
Use: Contamination surveys, material and equipment unrestricted and restricted release, personnel frisking.
Ranges: 0-500 cpm; 0-5,000 cpm; 0-50,000 cpm; 0-500,000 cpm Counting Modes: Ratemeter, scaler, data logger.
Alarm Set Point: NI A Ludlum 3030E 43-10-1 I
Instrument Type: Dual channel, scaler-type sample counter with a dual phosphor detector.
Use: Alpha and beta smear counting, air sample analysis.
Ranges:
Counting Modes: Count times are specified by procedure.
Alarm Set Point: NI A Verify version is current prior to use
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 7.0 Page 7-6 Manufacturer Model Probe Min.
Description Quantity Ludlum 2221 44-10 2
Instrument Type: Handheld ratemeter and scaler with an analog display for viewing the count rate with a 2" X 2" Nal(Tl) scintillator.
Use: Walk-over (qualitative) surveys.
Ranges: 0-999,999 counts Counting Modes: cpm and dpm, data logging Alarm Set Point: Not used.
Air Samplinl!: Equipment Manufacturer Model Filter Min.
Description Head Quantity RADEco AVS-28A 2500-42 2
Portable, low volume, continuous flow air sampler with a 47 mm diameter open face filter head Air Flow Rate: 15-100 Lpm Elapsed Time Meter: 99,999 hours0.0116 days <br />0.278 hours <br />0.00165 weeks <br />3.801195e-4 months <br /> and 59 minutes QC for instruments shall be consistent with the manufacturer's instructions and be consistent with regulatory requirements.
Review and evaluation of instrumentation operability shall be performed on an on-going basis by the RSO or designee.
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Cimarron Environmental Response Trust envi ronmenta I Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 8.0 Page 8-1 8.0 ACCESS CONTROL 8.1 Section Overview This section provides the access control requirements for entry into and exit from RAs. Access control is designed to ensure that individuals have appropriate qualifications, training, and authorization for entry. Access control requirements are applicable to personnel, contractors and visitors who enter RAs. RAs are areas within the Site boundary for which access is controlled for the purpose of protecting individuals against undue risk from exposure to radiation and/or radioactive materials.
The tentative designation of Restricted Areas during initial groundwater treatment are provided in the following figures:
Figure 8-1 : Western Area Treatment Facility Figure 8-2: BA#l Treatment Facility (If Phase II is implemented)
NOTE: These figures are annotated versions of drawings taken from the Decommissioning Plan.
Restricted Areas will be periodically reviewed and may be expanded, reduced, or reconfigured based on RSO evaluation of potential exposure to radioactive material. Additional areas may be designated as Restricted Areas if appropriate. The RPP will be updated accordingly.
RAs will be established based on the potential for accumulating radioactive material greater than ten times the 10 CFR 20 Appendix C quantities or requiring posting as Radiation Areas, High Radiation Area, Contaminated Area, or Airborne Radioactivity Areas. No High Radiation Areas are anticipated based on the groundwater treatment facility design. Documentation of RAs and any changes to designated RAs shall be maintained as a decommissioning record.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 8.0 Page 8-2 8.2 Restricted Area Access Controls Only properly trained or escorted personnel shall be permitted inside any RA. Personnel who enter RAs may be required to wear dosimetry. RAs include Radioactive Materials Areas, Radiation Areas, High Radiation Areas, Contaminated Areas, and Airborne Radioactivity Areas.
RAs can be controlled through the use of guards, barriers, fences, signs, gates, or doors.
RA boundaries shall be defined by the use of postings, barriers, walls, tape, ropes, markings, or locked doors. A log of personnel entry and exit to any RA, other than Radioactive Material Areas, at the Site will be maintained by the RSO or designee. A log of personnel entry into areas posted solely as Radioactive Materials Areas is not required.
8.3 Posting and Labeling Requirements Posting of areas within each RA shall be performed in accordance with 10 CFR 20 Subpart J.
Containers of radioactive materials shall be labeled in accordance with 10 CFR 20.1904.
Exceptions to posting requirements found in 10 CFR 20.1903 and exceptions to labeling requirements found in 10 CFR 20.1905 shall be approved by the RSO or designee.
Signs used for posting radiological areas within an RA shall include the wording provided in Table 8-1 when the associated requirements are expected to be encountered or expected to be encountered:
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Cimarron Environmental Response Trust environmental properties management, LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 8.0 Page 8-3 Table 8-1 Radiological Posting Requirements POSTING WORDING REQUIREMENT "CAUTION, RADIATION Accessible area in which radiation levels could result in an individual receiving 5 mrem in one hour 30 cm from the radiation AREA" source or surface that the radiation penetrates.
"CAUTION, HIGH Accessible area in which radiation levels could result in an RADIATION AREA" or "DANGER, HIGH individual receiving 100 mrem in one hour 30 cm from the radiation source or surface that the radiation penetrates.
RADIATION AREA" "CAUTION, AIRBORNE Licensed airborne radioactive materials in a room, enclosure, or RADIOACTIVITY AREA" area exists in concentrations exceeding the DACs specified in or 10 CFR 20 Appendix B, Table I, or when an individual present in "DANGER, AIRBORNE the area without respiratory protective equipment could exceed, RADIOACTIVE during the hours an individual is present in a week, an intake of MATERIALS AREA" 0.6% of the ALI or 12 DAC-hours.
"CAUTION, Accessible area in which removable contamination levels exceed 1,000 dpm/100 cm2 beta/gamma contamination or 1000 dpm/
CONT AMINA TED AREA" 100 cm2 alpha contamination.
"CAUTION, RADIOACTIVE MA TERIAL(S)" or Areas or rooms in which there is used or stored an amount of licensed radioactive material exceeding 10 times the quantity of "DANGER, such material in 10 CFR 20 Appendix C.
RADIOACTIVE MA TERIAL(S)"
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 8.0 Page 8-4 Figure 8-1 Western Area Treatment Facility
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the Weslem Ania Treatment Facility. These are the only
- ,, *~,.h locations Where licensed material will be handled or stored.
The areas shown are the two ion exchange treatment trains,
- ~'-.
_:[',~~: ______,
spent resin prooessing area, and three low level radioacliVe iiifif =
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waste storage areas. Additional areas may be designated as
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restricted areas in accordance with the reqruirements of the RPF' Verify version is current prior to use PHASE 1 CONCEPTUAL DESIGN (i)veOLIA
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WESTeRNAREA TREATMENT FACILITY GENERAL ARRANGEMENT
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 8.0 Page 8-5 Figure 8-2 BA#1 Treatment Facility (This figure is applicable if Phase II of Site decommissioning is undertaken. The BA#l Treatment Facility will not be constructed during Phase I of the DP.)
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_ __ c: _"- Burial Area #1 Tre-atment Facility (Phase II)
TRUEGRIO PRO NOTES-TRUEGRIO PRO PAVING SECTION
=:. Jhe bold red border depicts anticipated restricted area in the Burial Area #1 Treatment Faciliw if it is constructed in PHASE 1 CONCEPTUAL. OESIG Phase II.
(i)veOllA Verify version is current prior to use
-.S'~.?.!'4-BURIAL AREA#
SITE PIAN
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 9.0 Page 9-1 9.0 RADIOLOGICAL WORK CONTROLS 9.1 Section Overview Radiological work within RAs is controlled through two mechanisms: Site procedures and Activity Plans.
Site procedures include quality assurance procedures, radiation protection procedures, sampling and analysis procedures, operations and maintenance procedures, waste management procedures, etc. Site procedures cover routine work or repetitive tasks that may include radiological work. Any necessary radiological controls are included in Site procedures.
Activity Plans cover non-routine work activities and include information on the conditions that exist in the work area and radiological and non-radiological safety requirements. To ensure compliance with the RPP and regulatory requirements, Activity Plans involving radiological work must include the information identified in Section 9.2.
Work within posted High Radiation Areas, Airborne Radioactivity Areas, and Contaminated Areas, or requiring the use of respiratory protection or protective (i.e., anti-contamination) clothing shall be controlled through the use of an Activity Plan unless specifically authorized by the RSO or designee. Workers entering any RA, other than Radioactive Materials Areas, shall sign in daily on the sign-in sheet maintained in the Site Office or at the location of the routine activity.
9.2 Activity Plan Requirements The Activity Plan job description and job location shall be consistent with the activities or task to be performed. The Activity Plan shall identify potential radiological hazards, methods to address Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 9.0 Page 9-2 radiological hazards, and protective equipment needed for the work. Activity Plans shall, as a minimum, include:
A description of the work, Anticipated radiological conditions, Reference to applicable radiation protection procedures, Radiation safety requirements, Required personal protective clothing and equipment, Radiological survey and/or monitoring requirements, Radiation safety training requirements, Special radiation protection sampling requirements.
9.2.1 Activity Plan Approval/Closeout Activity Plan approval and closeout is addressed in the QAPP and implementing procedures.
9.2.2 Activity Plan Training Training and qualifications for individuals working under an Activity Plan are addressed in the QAPP. All Radiation Workers operating under an Activity Plan are required to review and comply with the Activity Plan.
9.2.3 Record Keeping Activity Plan records are maintained in accordance with the QAPP.
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Cimarron Environmental Response Trust environmental properties management, LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 9.0 Page 9-3 9.3 Receipt of Potentially Contaminated Tools, Equipment, Parts, and Material Tools, equipment, parts, and material that have been used at oil and pipeline facilities and sites may be contaminated with naturally occurring radioactive material (NORM) or other radioactive material used as tracers. Qualified individuals shall perform receipt surveys to document the radiological conditions of all tools, equipment, parts and equipment potentially used at oil and pipeline facilities or sites prior to use at the Cimarron Site.
Procurement specifications for tools, equipment, parts, and material previously used at oil and pipeline facilities and sites shall require thorough cleaning of these procured items prior to shipment to the Site.
The Site cannot receive tools, equipment, parts, and material that are potentially contaminated with radioisotopes other than NORM or uranium.
If the receipt survey detects fixed or removable contamination or if dose rates two times background are detected, these items shall be segregated and the RSO and Trustee PM notified.
The RSO and Trustee PM will determine disposition of these items.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 10.0 Page 10-1 10.0 RADIATION PROTECTION SURVEYS 10.1 General Requirements Radiological survey information is used to:
assist in the development of Activity Plans, inform individuals of the radiological conditions/hazards in the area, evaluate the need for area postings, identify needed personnel protective equipment, verify the effectiveness of engineering and administrative controls, ensure personnel exposures to radiation and radioactive materials are maintained
- ALARA, determine the decommissioning status of material, equipment, and/or environmental media, and determine compliance with regulatory and/or license criteria.
Radiation and contamination surveys, air sampling, and sample collection will be performed as appropriate to assess radiological conditions and to establish specific radiological controls for work to be performed. Radiation protection surveys that are required by the license shall be conducted in accordance with specified requirements.
Two types of dose rates measurements may be used. Contact dose rates are used to locate and identify radiation levels detected within 1 cm (0.5 in) from the surface being surveyed. General area dose rates are used to identify radiation levels detected at approximately 30 cm (1 ft) from the surface being surveyed.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 10.0 Page 10-2 Surveys for removable and direct contamination are performed to detect and/or quantify radioactive contaminants. Removable contamination surveys are performed when appropriate to ensure that radioactive contamination has not inadvertently spread.
NRC Regulatory Guide 8.25, "Air Sampling in the Workplace" provides an acceptable method for meeting certain survey and dose assessment requirements of 10 CFR 20. Air samples shall be collected whenever the airborne radioactivity levels are expected to exceed 1 percent of the DAC as listed in Appendix B, Table l "Occupational" of 10 CFR 20.
Breathing zone air sampling shall be performed whenever respiratory protection devices are worn by personnel. If air sample data indicates a measured level greater than 40 DAC-hours in any shift or operation, whichever is shorter in time duration, the RSO or designee shall conduct an investigation and identify corrective actions to that are needed to reduce airborne radioactivity levels. The RSO or designee shall work with the Activity Leader to implement the necessary corrective actions for reducing airborne radioactivity levels.
Air sample collection media shall be appropriate to address the radionuclide mixture(s) present.
The analysis of air samples (including preliminary field screening) shall be performed in a timely and expeditious manner.
10.2 Routine Surveys Routine radiological monitoring shall be performed to ensure that surveys are performed at a frequency that is consistent with the existing and potential hazards and activities planned in the RAs. The following radiation dose rate and contamination survey frequencies ensure area hazards are adequately characterized:
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Cimarron Environmental Response Trust envi ronmenta I Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 10.0 Page 10-3 Weekly, in office space located in areas surrounding or adjacent to RAs, other than Radioactive Materials Areas, where the potential exists for external radiation exposure or contamination spread.
Weekly, in routinely occupied RAs, other than Radioactive Materials Areas.
Monthly, or upon entry, if entries are less frequent than monthly, for Radioactive Materials Areas.
During routine contamination surveys, if contamination levels exceed action levels discussed in Table 12-1, the RSO or designee will determine the cause for the contamination and determine appropriate corrective actions, including decontamination, increasing the frequency of surveys, need for additional engineering or administrative controls, etc.
10.3 Job Coverage Surveys Job-coverage surveys are specified in Activity Plans and routine operations procedures. The types of radiological surveys (i.e., radiation, contamination, airborne radioactivity), frequency (e.g., number of times during a shift, at a specific step in the activity, etc.), and location are determined by the RSO or designee based on the radiological hazards associated with the work to be performed. Special survey requirements may be provided by the RSO or designee, when needed.
10.4 Investigative Surveys Investigative surveys shall be performed as soon as practicable following the discovery or indication of abnormal radiological conditions.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 10.0 Page 10-4 10.5 Final Status Surveys Final status surveys will be required to support license termination. During the post-remediation monitoring period, a final status survey plan will be developed and submitted for approval by the NRC.
10.6 Personnel Contamination Monitoring Personnel shall routinely perform contamination monitoring (frisking) prior to exiting RAs that have the potential for spreading contamination or per Activity Plan or procedural requirement.
At a minimum, hands and feet shall be frisked when exiting these areas. Documentation of routine personnel frisking is maintained in field notes maintained by the HP Technician.
Notification of the RSO or designee is required when personnel contamination in excess of twice the background count rate is detected. RP procedures provide specific instructions approved by the RSO for performing, documenting, and reporting personnel contamination monitoring reports.
10.7 Area Radiation Monitoring The RSO or designee will determine when and where area radiation monitoring is appropriate.
Area radiation monitoring may be performed using either passive devices, such as dosimeters (e.g., thermoluminescent or optically stimulated luminescent) or real-time radiation monitors.
Dosimeters are posted at the Cimarron Site to confirm that no occupational worker is likely to receive 100 mrem DDE in a year.
10.8 Air Monitoring Air monitoring is required whenever airborne radioactivity levels are expected to exceed 1 percent of the DAC as listed in Appendix B, Table 1 "Occupational Values" of 10 CFR 20.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 10.0 Page 10-5 Considering the types of work activities described in the Decommissioning Plan, airborne suspension of licensed radioactive material is not anticipated to generate airborne radioactivity approaching 1 % of a DAC. However, the Decommissioning Plan requires that General Area (GA) air sampling, using either low or high-volume portable air samplers, will be performed throughout the resin unloading and packaging process for at least the first three resin exchanges.
Lapel samplers will be used in conjunction with the GA samplers to demonstrate that GA samplers are representative of the air breathed by workers. Following analysis of the air sampling results from each of these resin exchanges, the RSO will determine the need for and frequency of additional air sampling and types of air sampling to be performed ( e.g., GA or lapel). In addition, the same air sampling regime will be conducted during the first three operations involving loading biomass from the filter press into the cart for disposal. Following analysis of the air sampling results from each of these biomass loading operations, the RSO will determine the need for and frequency of additional air sampling and types of air sampling to be performed (e.g., GA or lapel).
NOTE: A prospective evaluation of potential intake during groundwater processing operations was performed. The calculation supporting this evaluation is provided in Appendix A of the RPP. This calculation was based on the 60% design of the groundwater treatment system and supported the decision that internal monitoring (e.g., bioassay) and respiratory programs would not be needed at the Site. The evaluation also informed the development of the air sampling program described in Section 10.8. The supporting calculation will be reviewed at 90% design, updated, if necessary, and re-evaluated to determine if the RPP should be updated. In addition, periodically through groundwater processing, the supporting calculation will be reviewed to ensure it reflects operational experience and to determine if changes to the RPP are necessary.
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Cimarron Environmental Response Trust envi ronmenta I Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 10.0 Page 10-6 The results of this evaluation indicate that continuous air monitors are not needed as the potential for an individual to be exposed to 40 DAC-hours in week does not exist at the Cimarron Site. Updates to this calculation are reviewed to ensure this conclusion remains applicable.
Selection of air samplers is based on the following criteria:
GA air sampling will be accomplished by using portable air samplers, as discussed, above. Sampling heads will be placed within the breathing zone to ensure that the air sample is representative of the air breathed by the individual worker.
GA air samplers typically sample at a rate of approximately 3-25 liters per minute (1pm)
(less than 1 cubic foot per minute (cfm)) for a low-volume sampler to 19001pm (70 cfm) for a high-volume sampler. Based on the nature of the low enriched uranium encountered, the detection capability of the air sampling equipment and associated radiological analysis ( e.g., sample counting) will be used to determine the total volume of air needed to be collected to ensure that 1 % of the DAC. The enrichment of the uranium will be based on either the actual enrichment being collected on the resin or a conservative basis (i.e. 4%). This calculation will be documented in a Site procedure or technical basis document. As the actual enrichment of recovered uranium in each area changes (i.e., WA or BAI), the 1 % DAC value may be recalculated Minimum collection times will be determined so adequate sensitivities are achieved for a given monitoring period.
The need for air sampling will be prospectively determined based on the final process system design and potential for generation of airborne radioactivity. Due to the chemical and physical nature of the uranium-bearing media ( e.g., water and moist ion exchange resin), minimal, if any airborne radioactivity is expected to be generated. Engineering Verify version is current prior to use
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Cimarron Environmental Response Trust envi ronmenta I Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/ l/2021 Section 10.0 Page 10-7 and physical controls incorporated into the process equipment design will also be considered in determining the need for air monitoring.
The frequency of calibration of the flow meters on the air samplers will be based on manufacturers' recommendations (typically annually).
Specific action levels (i.e., specific projected or actual airborne radioactive material concentration levels) will be developed for assigning respiratory protection, collecting bioassay samples, and stopping work.
Respiratory protection shall be considered if a worker's intake is expected to exceed 40 DAC-hours in a week.
A bioassay program must be implemented for any worker whose intake is expected to exceed 10% ALI or 40 DAC-hours in a week.
Work shall be ceased if air sampling results show greater than 10% DAC is present.
The RSO shall evaluate the situation and provide recommendations for restarting work for the approval of the EPM PM.
Air samples will be counted on-site using existing laboratory bench top scalers ( e.g., Ludlum Model 3030 or similar equipment). MDAs based on various sample count times will be calculated and used to determine the sample volume needed to detect less than 1 % DAC for 4%
enriched uranium. This information will be documented and used to determine the minimum sampling time for GA and lapel air samplers.
10.9 Survey Training Surveys shall be performed by personnel who have been trained commensurate with the type of surveys to be performed. Training will address the following, as applicable:
Appropriate instrumentation to be used, Operational and response checks for survey instrumentation, Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 10.0 Page 10-8 Survey methods, recording of data, Calculations, data evaluation, and Action levels.
10.10 Survey Documentation Radiation, contamination, and airborne radioactivity surveys performed for compliance purposes, or radiation and contamination surveys performed to demonstrate that decommissioning criteria have been met, shall be documented and maintained in accordance with 10 CFR 20, Subpart L and the QAPP.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 11.0 Page 11-1 11.0 RADIOACTIVE MATERIALS CONTROL 11.1 Section Overview This section addresses radioactive material controls employed at the Cimarron Site. This section includes requirements related to the following:
Material Control and Accountability Receipt, Labelling, and Storage of Radioactive Material Shipment and Transfer of Radioactive Material Controls for Radioactive Sources.
Theft or Loss of Radioactive Material 11.2 Material Control and Accountability The potential for a nuclear criticality event during the proposed decommissioning program at the Cimarron Site is extremely unlikely because both the concentration and the enrichment of uranium in material generated during decommissioning are low. Treatment of groundwater to remove the enriched uranium from groundwater will result in a more concentrated form of uranium on the ion-exchange resin. The accumulation of enriched uranium on resin has been evaluated by an analysis to demonstrate nuclear criticality safety.
The RSO is responsible for evaluating proposed changes to the groundwater treatment system and/or process in consultation with an individual with experience in nuclear criticality safety evaluation. The RSO will review and approve any changes made to the groundwater treatment system and will periodically conduct inspections of the system and operations to confirm that process and administrative controls assure that the license possession limits are not exceeded.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 11.0 Page 11-2 All personnel responsible for the operation of the process systems will receive training on the potential for nuclear criticality and the need to comply with the controls established to maintain nuclear criticality safety during treatment and processing operations. The training will address:
Awareness of the significance of exceeding the basic parameters necessary to stay within the Nuclear Criticality Safety analysis which are:
Any measurement of an enrichment >7.33% U-235, Any measurement of the U-235 concentration on the resin >8g/kg, The need to assure that the U-235 concentration in packaged waste containers is
<0.5g U-235 per kg of waste, The need to assure that the process system inventory does not exceed 1,200 grams of U-235, The need to assure that the total Site inventory does not exceed 0.5 effective kilograms of U-235, and Any change in the storage of containers or process equipment that would result in a height >7 feet.
Awareness that any measurement of an enrichment >5% requires downgrading action in accordance with the license possession limits.
Awareness that all individuals are required to implement an immediate "stop work" response if any of the above listed parameters are violated.
These necessary controls are addressed in the Material Control and Accountability procedures. If any of these parameters are exceeded, the Nuclear Criticality Safety analysis has been invalidated and it would be necessary to stop processing operations until either the analysis is redone and/or the situation corrected that led to the exceedance.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 11.0 Page 11-3 Administrative controls are implemented in Material Control and Accountability procedures to ensure that the SNM inventory complies with the following requirements:
Uranium mass determinations will be based on analytical measurements using the ICP-MS (EPA 200.8) method to report the U-235 and U-238 mass concentrations.
The enrichment values will be calculated using analytical measurements ofU-235 and U-238. The enrichment of the uranium is calculated (ignoring the U-234 mass contribution) by:
E = Mu-235 / (Mu-235 + Mu-23s)
Where:
E = the Uranium enrichment level in wt.% U-235 Mi = the mass of the isotope in micrograms isotope per liter or gram of sample SNM mass contents of process lines transporting and influent tanks storing groundwater will be conservatively estimated based on reasonable concentrations and enrichments of the uranium. These components will contain minor quantities of SNM. These conservatively established mass values may be re-evaluated and revised as appropriate if information is obtained that the difference in calculated mass ofU-235 is significant to the mass inventory value.
The SNM contents of resin vessels will be established based on the total flow of groundwater through the vessel and the difference between the input and output uranium concentrations of the flow. The enrichment of the SNM will be initially based on conservatively established values until analytical results provide actual enrichment values. The following points describe in greater detail the process for establishing the total U-235 inventory for the resin material:
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 11.0 Page 11-4 During the initial system startup phase the sample analysis tum-around time will be reduced to obtain data on an expedited basis Water samples for each treatment train will be taken from the influent and the effluent from each of the lead, lag and polish vessels The enrichment of the uranium for each train will initially be the assumed values presented in Appendix O of the DP and will be revised when analytical results are obtained from samples of processed resin The mass ofU-235 added to each vessel will be calculated based on the total flow of water processed through the vessel for each time-period between sampling events times the difference between the influent and effluent water concentration for that vessel. The total inventory of the vessel is the sum of all mass determinations over the entire period the vessel has been in the treatment process The total U-235 inventory of the resin material is the sum of the U-235 contained in:
o all the resin vessels in all three treatment systems o vessels containing spent resin if any are being stored while awaiting the blending process o resin in the blending equipment o packages of processed resin that have not been transferred to storage Once a vessel has been emptied of resin the inventory value for that vessel will be set to zero The minimum quantity of absorbent material to be blended with the resin to yield a fissile exempt, dry resin mixture will be calculated based on assumed enrichment and the uranium mass derived from process measurements (with safety factor)
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 11.0 Page 11-5 The resin from the lead vessel changeout will be blended with the absorbent and loaded into waste packages The sampling of the prepared resin waste will be performed in accordance with an approved sampling procedure Initially the SNM content of packages of waste will be based on process measurements. Upon receipt and validation of analytical data the SNM content of the packaged waste material will be finalized, the container inventory log updated, and the packages will be relocated to the "Ready-to-Ship" area of the Secure Storage Facility Waste containers which are awaiting final analytical data will be stored in an "In-Process" area within the Secure Storage Facility Once a package of waste has been determined to meet the transportation and waste disposal requirements, the SNM contents of the package will be removed from the "Mass Inventory Log" and the package and SNM contents will be entered on the "Container Inventory Log."
When a package is shipped to disposal the package and SNM contents will be removed from the "Container Inventory Log."
11.3 Receipt, Labeling, and Storage of Radioactive Material All radioactive materials shall be received in accordance with radioactive material license possession limits and 10 CFR 70.19. The individual responsible for radioactive material receipt shall ensure that all surveys required by 10 CFR 20.1906 are performed and review shipment paperwork to ensure compliance with 49 CFR.
Each container of radioactive material shall be labeled as required by 10 CFR 20.1904.
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 11.0 Page 11-6 Radioactive material shall be secured against unauthorized access or removal. Radioactive material storage areas shall be posted and controlled using appropriate barriers and radiological postings.
11.4 Shipment and Transfer of Radioactive Material Radioactive Materials shipments shall comply with NRC (10 CFR) and U.S. Department of Transportation (49 CFR) regulations. Low-level radioactive waste shipments transferred for disposal shall be accompanied by a shipment manifest prepared in accordance with 10 CFR 20.2006. Radioactive material shall only be transferred to authorized individuals in accordance with the appropriate regulations in 10 CFR 20, and 10 CFR 70.
11.5 Controls for Radioactive Sources The RSO shall approve all requisitions for radioactive sources and ensure that source inventories are performed on a quarterly basis. Radioactive sources shall be tested for leakage and/or contamination upon receipt and on a quarterly basis, except that any licensed sealed source is exempt from leak tests if the source contains less than 0.1 microcuries of plutonium or uranium, 100 microcuries of beta and/or gamma emitting radioactive material or 10 microcuries of other alpha emitting radioactive material. Leak testing and inventory of Exempt Quantity radioactive sources is not required; however, these sources should be stored in a secure area to prevent unauthorized removal or access.
Unless specifically authorized by the RSO, electroplated sources are not smear tested for leakage to prevent removal of radioactive material from the electroplating.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 11.0 Page 11-7 The RSO shall approve locations for storage of radioactive sources. Radioactive source storage areas shall be secured against unauthorized removal or access of licensed radioactive material and posted per 10 CFR 20.1902.
11.6 Theft or Loss of Radioactive Material Any individual who discovers that radioactive material is lost, stolen, or missing shall immediately notify the RSO. The RSO shall evaluate the physical and radiological characteristics of the missing material and the potential hazards to workers and the general public, initiate an investigation to locate the material, and perform a root cause evaluation of the incident. The RSO shall determine the need for notifications to regulatory authorities and make notifications as necessary per 10 CFR 20.2201.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 12.0 Page 12-1 12.0 CONTAMINATION CONTROL 12.1 Section Overview The purpose of contamination control is to prevent and/or minimize the spread of radioactive contamination to individuals, areas, and equipment. Control of radioactive surface contamination prevents or minimizes possible inhalation or ingestion of radioactive material by personnel, skin dose from small particles of radioactivity, and the spread to or build-up of radioactive material in the facility or environment from decommissioning operations. Controls to prevent the spread of contamination shall be proposed by the Activity Leaders and approved by the RSO or designee prior to implementation.
12.2 Contaminated Buildings and Equipment Radioactive contamination of buildings and equipment located within an RA shall be maintained below the removable contamination limit of 1,000 dprn/100 cm2 alpha. In addition, Contaminated Area controls, including posting, shall be implemented whenever removable contamination in an Unrestricted Area exceeds 1,000 dprn/100 cm2 alpha or 1,000 dpm}l00 cm2 beta-gamma. The Site incorporates the ALARA philosophy when selecting decontamination methods and practices.
As a general rule, decontamination is performed by working from areas of low contamination to areas of high contamination if possible. Decontamination materials should be limited to the minimum required for the task. All decontamination materials shall be collected, monitored, and properly dispositioned. Table 12-1 provides a summary of contamination action levels and associated actions to be taken.
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 12.0 Page 12-2 12.3 Contaminated Personnel Decontamination of personnel shall be performed under the guidance of health physics personnel and shall incorporate good health physics practices and ALARA principles. An individual whose skin or personal clothing is found contaminated above background shall not exit an RA without prior approval of the RSO. Appropriate surveys and monitoring shall be performed to evaluate dose to the individual resulting from contamination.
12.4 Spill of Radioactive Material A spill of radioactive material requires immediate actions which include:
Stop the spill Warn other personnel Isolate the area Minimize radiation exposure Secure the area and stand guard (until otherwise direct by health physics personnel)
Supplementary actions should include the performance of radiological surveys in immediate and adjacent areas, including downwind.
12.5 Contamination Control During Groundwater Processing Contamination control during groundwater processing involves both process operations and activities necessary to supply groundwater to the processing facility. This section of the RPP is intended to implement contamination control commitments identified in the DP. Other contaminated materials that will be handled, including the filtered suspended solids and biodenitrification system waste, will have lower concentrations and are covered by the discussion of the resin material.
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 12.0 Page 12-3 Subsurface soil will be brough to the surface during installation of injection and extraction trenches, monitoring wells, trenches for piping and utilities, etc. These soils have been previously released from license controls. Surveys shall be performed during these activities to determine if soil contamination is encountered. Survey requirements will be consistent with RP procedures and limits specified in associated Activity Plans to ensure compliance with license conditions.
Low-enriched uranium will be processed through ion exchange resins that will concentrate the uranium in the resins. The concentration of uranium on these resins represents a source of potential contamination. The following contamination controls ensure that contamination is contained and not spread throughout the processing facilities or across the Site.
Influent piping contains low concentrations of uranium with little potential for generating contamination. Routine monitoring is performed during operations to ensure that contamination is controlled and not being spread at well heads where the groundwater is extracted. Connections to the water treatment systems are inspected and monitored to identify and repair leaks.
Engineering controls are included in the design of the groundwater treatment system to contain contamination during ground water processing. Double walled tanks are used to contain the influent groundwater awaiting processing. Ion exchange resins are contained in stainless steel vessels. Spent resins are processed through a wet process that ensures airborne radioactivity is not generated. The spent resin is processed in an enclosed system. Spent resin is packaged as discussed in the DP. Procedures for contamination monitoring and air sampling are provided to demonstrate the effectiveness of these engineering controls.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 12.0 Page 12-4 Engineering controls are incorporated in the design to eliminate or minimize the potential for drips and leaks during sampling, resin vessel changeout, and spent resin processing.
Protective clothing shall be prescribed for maintenance activities involving potential exposure to spent resins.
Effluent from treatment systems must contain uranium at concentrations below drinking water standards, as demonstrated by discharge sampling requirements specified in the discharge permit issued by the Oklahoma Department of Environmental Quality. Leaks or unintentional releases of effluent do not constitute contamination control concerns.
The QAPP requires that only appropriately trained workers (Section 2.3) are permitted access to Contaminated Areas. Work performed in Contamination Areas will be performed in accordance with procedures that require measures incorporated into the design to prevent or contain drips, leaks, etc. are correctly implemented.
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Cimarron Environmental Response Trust environmental properties management, LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 12.0 Locationffype of Contamination Unrestricted Area.:..
Removable Contamination Unrestricted Area - Fixed Contamination Restricted Area -
Removable Contamination Page 12-5 Table 12-1 Contamination Action Levels Contamination Action Actions to be Taken Level 1,000 dpm/100 cm2
- 1. Post area/restrict beta/gamma or access.
1,000 dpm/100 cm2 alpha
- 2. Investigate for spread and determine personnel affected.
- 3. Decontaminate the area and de-post, as appropriate.
- 4. Determine corrective actions to prevent recurrence, if necessarv.
1,000 dpm/100 cm2
- 1. Post area/restrict beta/gamma or access.
1,000 dpm/100 cm2 alpha
- 2. Investigate cause and corrective actions.
- 3. Determine whether to decontaminate or implement controls to prevent spreading contamination.
1,000 dpm/100 cm2 I. Post area, if not beta/gamma or already posted.
1,000 dpm/100 cm2 alpha
- 2. Determine source of contamination, if area was not posted and actions necessary to prevent further contamination spread.
- 3. Decontaminate, if aooropriate.
Verify version is current prior to use Radiological Monitoring RSO or designee determines the need for increased frequency of contamination surveys.
RSO or designee determines the need for increased frequency of contamination surveys.
RSO or designee determines the need for increased frequency of contamination surveys.
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Cimarron Environmental Response Trust envi ronmenta I Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 12.0 Page 12-6 Location/Type of Contamination Action Actions to be Taken Radiological Monitoring Contamination Level Restricted Area - Fixed 1,000 dpm/100 cm2
- 1. Post area, if not RSO or designee Contamination beta/gamma or posted.
determines the need for 1,000 dpm/100 cm2 alpha
- 2. Determine the source increased frequency of of contamination and contamination swveys.
necessary actions to prevent further contamination spread.
- 3. Decontaminate, if annronriate.
Release of materials for See Section 13.3
- 1. Decontaminate or See Section 13.3 unrestricted use dispose of as radioactive waste.
Personnel/clothing Detectable contamination
- 1. Decontaminate
- 1. See Section 12.3 contamination
( e.g. 2 times background) personnel in accordance regarding personnel on clothing or skin with Section 12.3.
contamination
- 2. Decontaminate or monitoring.
discard contaminated
- 2. RSO or designee personal clothing if authorizes release of unrestricted release personal clothing, if criteria cannot be satisfied annronriate.
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Cimarron Environmental Response Trust environmental properties management, LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 13.0 Page 13-1 13.0 RELEASE FOR UNRESTRICTED USE OF MATERIALS 13.1 Section Overview Site personnel are authorized to release tools, equipment, parts, and materials for umestricted use provided that radiation levels and surface contamination levels do not exceed the limits in Condition 27(c) of the license. Such surveys will be performed and documented by qualified individuals.
Tools, equipment, parts, and material that do not come into contact with subsurface soil or groundwater containing radioactive material above the umestricted release criteria do not require surveys prior to release from the Site.
13.2 Survey Instrumentation Instruments used to perform surveys for release for umestricted use must be calibrated using NIST traceable, or equivalent, standards for energies and geometries similar to material being released. The energy dependence of the instruments to alpha, beta, and gamma radiation, as applicable, shall be known and documented.
13.3 Release Surveys of Materials As provided in License Condition 27( c ), the Site uses the umestricted release criteria listed in the August 1987 "Guidelines for Decontamination of Facilities and Equipment Prior to Release for Umestricted Use or Termination of License for Byproduct, Source or Special Nuclear Material" for surfaces of buildings and equipment, and the October 23, 1981, BTP "Disposal or Onsite Storage of Thorium or Uranium Wastes from Past Operations," for soils or soil-like material.
The specific values are listed in paragraphs 13.3.1, 13.3.2, and 13.3.3.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 13.0 Page 13-2 Release surveys will consist of direct (fixed+ removable) and removable (smears) contamination monitoring. The Site is authorized to release materials provided that the direct and removable levels do not exceed the limits stated in the Trust license and summarized below. Such surveys will be performed and documented by qualified individuals.
Survey plans may be developed for the release of property or equipment associated with non-routine activities. Such survey plans will include the methods used to estimate uncertainty bounds for each type of instrument measurement.
13.3.1 Surfaces of Buildings, Equipment, and Outdoor Areas 5,000 dpm alpha/100 cm2 averaged over 1 m2 (direct) 5,000 dpm beta-gamma/100 cm2 averaged over 1 m2 (direct) 15,000 dpm alpha/100 cm2 maximum over 1 m2 (direct) 15,000 dpm beta-gamma/100 cm2 maximum over 1 m2 (direct) 1,000 dpm alpha/100 cm2 averaged over 1 m2 (removable) 1,000 dpm beta-gamma/100 cm2 averaged over 1 m2 (removable) 13.3.2 Soils Natural Uranium - 10 pCi/g total uranium Enriched Uranium - 30 pCi/g total uranium Depleted Uranium - 35 pCi/g total uranium Natural Thorium - 10 pCi/g total thorium Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 13.0 Page 13-3 13.3.3 Exposure Rates Surface of buildings and equipment 5 µR/hr - above background at 1 meter Soils 10 µR/hr - average above background at 1 meter 20 µR/hr - maximum above background at 1 meter Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 14.0 Page 14-1 14.0 RESPIRATORY PROTECTION 14.1 Section Overview The need for a respiratory protection for radiological work is not envisioned at the Cimarron Site. Work activities that could potentially expose workers to airborne radioactive material have been evaluated to determine the potential intakes during groundwater treatment and spent resin processing. The evaluation employed the methods discussed in Regulatory Guide 8.25, Rev. 1, "Air Sampling in the Workplace" and NUREG-1400, "Air Sampling in the Workplace." If processes or operations change, then a re-evaluation of potential intakes shall be performed to determine the potential intake that could result from these changes. If the potential intake determined from this evaluation is 2% ALI or greater, the RSO will perform an ALARA evaluation when it is not practical to apply engineering controls or procedures that demonstrates that he use of respiratory protection equipment is ALARA. If the ALARA evaluation demonstrates that use of respiratory protection equipment is ALARA, then the RSO will implement the respiratory protection program described in this section.
Respiratory protection measures shall be employed when necessary to protect workers from airborne hazards. Groundwater treatment results in the generation of moist treatment media with little potential to generate airborne radioactivity. However, if future conditions change and the RSO or designee determines, through review of field conditions or anticipated work functions, that respiratory protection is required, procedures and controls will be instituted in accordance with the requirements found in 10 CFR 20, Subpart H, "Respiratory Protection and Controls to Restrict Internal Exposure in Restricted Areas" for radiological hazards and the 29 CFR 1910.134 for non-radiological hazards. Section 14.2 provides specific requirements for the respiratory protection program, if needed.
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 14.0 Page 14-2 If a respiratory protection program is determined to be necessary, the program will be based on guidance provided in Regulatory Guide 8.15, Rev. 1, "Acceptable Programs for Respiratory Protection," and NUREG/CR-0041, Rev. 1, "Manual of Respiratory Protection Against Airborne Radioactive Material."
14.2 Respiratory Protection Program Respiratory protection will be required if work activities could potentially expose workers to 40 or more DAC-hours in a week. Respiratory protection will also be required for any areas where airborne radioactive material concentrations are expected to exceed 1 DAC. If either of these trigger levels are encountered, as required by 10 CFR 20.1703( c ), the respiratory protection program will include:
Air sampling sufficient to identify the potential hazard, permit proper equipment selection, and estimate doses; Surveys and bioassays, as necessary, to evaluate actual intakes; Testing of respirators for operability (user seal check for face sealing devices and functional check for others) immediately prior to each use; Written procedures regarding-Monitoring, including air sampling and bioassays; Supervision and training of respirator users; Fit testing; Respirator selection; Breathing air quality; Inventory and control; Verify version is current prior to use
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 14.0 Page 14-3 Storage, issuance, maintenance, repair, testing, and quality assurance of respiratory protection equipment; Recordkeeping; and Limitations on periods of respirator use and relief from respirator use; Determination by a physician that the individual user is medically fit to use respiratory protection equipment:
Before the initial fitting of a face sealing respirator; Before the first field use of non-face sealing respirators, and Either every 12 months thereafter, or periodically at a frequency determined by a physician.
Fit testing, with fit factor > 10 times the APF for negative pressure devices, and a fit factor> 500 for any positive pressure, continuous flow, and pressure-demand devices, before the first field use of tight fitting, face-sealing respirators and periodically thereafter at a frequency not to exceed 1 year. Fit testing must be performed with the facepiece operating in the negative pressure mode.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 15.0 Page 15-1 15.0 ENVIRONMENTAL MONITORING 15.1 Section Overview Environmental monitoring shall be performed at various locations to monitor the migration of licensed material from former (now decommissioned) sources through environmental media.
Final surveys have demonstrated that buildings and soils have been decommissioned. Licensed material exceeds decommissioning criteria in groundwater in three areas: Burial Area # 1, the Western Upland Area, and the Western Alluvial Area. The Licensee shall maintain an environmental monitoring program in these three areas until superseded by a groundwater remediation work plan.
Effluent from the groundwater treatment process will be monitored to demonstrate that the concentrations of uranium complies with discharge permit limits and underground injection permits. Monitoring will be performed in accordance with permit requirements and the Sampling and Analysis Plan. The Sampling and Analysis Plan will address how background and baseline concentrations of radionuclides in environmental media have been established through appropriate sampling and analysis. The Sampling and Analysis Plan will include the following information:
A description of known or expected concentrations of radionuclides in effluents; A description of the physical and chemical characteristics of radionuclides in effluents; A summary or diagram of all effluent locations; Justification that samples are representative of actual releases; A summary of the sample collection and analysis procedures, including the minimum detectable concentrations of radionuclides;
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 15.0 Page 15-2 A summary of sample collection frequencies; and A description of environmental monitoring recording and reporting procedures.
Direct radiation from groundwater processing operations is monitored in the vicinity of the Western Area Treatment Facility and Burial Area #1 Treatment Facility as discussed in Section 15.3.
15.2 Surface and Groundwater Monitoring Surface and groundwater samples are collected annually and are analyzed for fluoride, nitrates/nitrites, gross alpha radioactivity, gross beta radioactivity, and uranium isotopes. The locations identified in Table 15-1 shall be sampled on an annual basis.
Upon approval of Decommissioning Plan, the in-process groundwater monitoring plan described in Section 8.7 of the Decommissioning Plan will replace the environmental monitoring program described in the preceding paragraph.
15.2.1 Quality Control in Sampling Sample collection, preservation, shipping, and analysis shall be conducted in accordance with the Site-specific Sampling and Analysis Plan and associated procedures. Data review, reporting, and management will be conducted in accordance with Quality Assurance Implementing Procedure, QAIP-17.1, "Data Management Procedure."
15.2.2 Reporting Environmental monitoring results shall be reported to NRC within 30 days of the completion of data review.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 15.0 Page 15-3 15.3 Direct Radiation Dosimeters were deployed on October 1, 2019. These dosimeters collected background dose in the vicinity of the Western Area Treatment Facility and Burial Area #1 Treatment facility prior to construction of these facilities. These dosimeters are used to establish the baseline of background radiation levels prior to commencing decommissioning activities. Additionally, one dosimeter was deployed along the haul path between the facilities. Once decommissioning activities commence, these dosimeters will be used to determine radiation levels outside the RA from groundwater processing activities. Figures 15-1 and 15-2 depict dosimeter locations.
Table 15-2 provides a verbal description of the dosimeter locations. Dosimeters are changed on a quarterly basis.
NOTE: Dosimeter locations may be reevaluated during construction of these facilities and adjusted, if necessary, by the RSO. The rationale for any location adjustments shall be documented. Additionally, dosimeter locations will be periodically evaluated during decommissioning activities to determine if locations need to be adjusted or removed.
Justification for changes shall be documented and approved by the RSO.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 15.0 Page 15-4 Table 15-1 Surface and Groundwater Monitoring Locations BURIAL AREA #1 WESTERN UPLAND AREA 1314 1351 TMW-08 1352 TMW-09 1354 TMW-13 1356 02W06 02W08 02W09 WESTERN ALLUVIAL AREA 02W16 MWWA03 02W17 MWWA09 02W27 T-62 02W28 T-64 02W32 T-70R 02W35 T-76 02W42 T-77 02W43 T-79 02W44 T-82 SURFACE WATER 1201 Cimarron River Upstream 1202 Cimarron River Downstream
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 15.0 Page 15-5 Table 15-2 Environmental Dosimeter Locations Location Description Designation Western Area Treatment Facility WATF-01 Northwest comer of Treatment Building.
WATF-02 Northeast comer of Treatment Building.
WATF-03 Eastern fence line in line with the northern wall of the Treatment Building.
WATF-04 Eastern fence line approximately center of the Secure Storage Facility.
WATF-05 Northwest comer of the Secure Storage Facility.
WATF-06 To the southeast of the Treatment Building along the eastern fence line where the fence runs to the southwest.
WATF-07 Southeast comer of Treatment Building.
WATF-08 South fence line at Treatment Building mid-point.
WATF-09 Southwest comer of Treatment Building.
WATF-10 Point directly west of the southwest comer of the Treatment Building on the western fence line.
WATF-11 Point directly west of the centerline of the Treatment Building on the western fence line.
Burial Area #1 Treatment Facility BAlTF-01 Northwest comer offence line around BA #1 Treatment Facility.
BAlTF-02 Northeast comer offence line around BA #1 Treatment Facility.
BAlTF-03 East fence line of BA# Treatment Facility at centerline of Uranium IX Treatment Skid.
BAlTF-04 Southeast comer offence line around BA #1 Treatment Facility.
BAlTF-05 Southwest comer offence line around BA #1 Treatment Facility.
BAlTF-06 West fence line of BA# Treatment Facility at centerline of Uranium IX Treatment Skid.
Roadway (Haul Path)
ROAD-01 Approximately half the distance between the WA TF and the BA l TF; on the side of the road.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 15.0 Page 15-7 Figure 15-2 Burial Area #1 Treatment Facility
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 16.0 Page 16-1 16.0 DEFINITIONS Absorbed Dose: Energy imparted by ionizing radiation per unit mass of irradiated material. The units of absorbed dose are the rad and the gray (Gy). 1 Gy = 100 rad.
Adult: An individual 18 or more years of age.
Airborne Radioactive Material or Airborne Radioactivity: Radioactive material dispersed in the air in the form of dusts, fumes, particulates, mists, vapors, or gases.
Airborne Radioactive Material Area or Airborne Radioactivity Area: A room, enclosure, or area in which airborne radioactive materials, composed wholly or partly of licensed material, exists in concentrations:
( 1) in excess of the derived air concentrations (DAC) specified in appendix B of 10 CFR 20.1001 - 20.2401, or (2) to such a degree that an individual present in the area without respiratory protection equipment could exceed, during the hours an individual is present in a week, an intake of 0.6% of the Annual Limit on Intake (ALI) or 12 DAC hours.
ALARA: An acronym for "As Low As is Reasonably Achievable". ALARA means making every reasonable effort to maintain exposures to radiation as far below the dose limits in 10 CFR 20 as is practical consistent with the purpose for which the licensed activity is undertaken, taking into account the state of technology, the economics of improvements in relation to state of technology, the economics of improvements in relation to benefits to the public health and safety, and other societal and socioeconomic considerations, and in relation to utilization of nuclear energy and licensed materials in the public interest.
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 16.0 Page 16-2 ALARA Committee: The Cimarron Site ALARA Committee that has responsibility for overall coordination of the ALARA Program. The Committee is composed of members as described in Section 4.0 of this RPP and meets on a regular basis (typically, quarterly) to review the status of the ALARA Program and to approve changes to the RPP and DP.
Alpha Particle: A positively charged particle ejected spontaneously from the nuclei of some radioactive elements. It is identical to a helium nucleus that has a mass number of 4 and an electrostatic charge of +2, i.e. two protons and two neutrons.
Annual Limit on Intake (ALI): The derived limit for the amount of radioactive material taken into the body of an adult worker by inhalation or ingestion in a year. ALI is the smaller value of intake of a given radionuclide in a year by the reference man that would result in a committed effective dose equivalent of 5 rems (0.05 Sv) or a committed dose equivalent of 50 rems (0.5 Sv) to any individual organ or tissue. (ALI values for intake by ingestion and by inhalation of selected radionuclides are given in Table 1, Columns 1 and 2, of appendix B to 10 CFR 20.l 001 thru 20.2401).
Audit: An audit is an evidence gathering process. Audit evidence is used to evaluate how well audit criteria (procedures, requirements, policies) are being met. Audit evidence is used to determine how well policies are being implemented, how well procedures are being applied, and how well requirements are being met.
Atomic Number (Symbol Z): The number of protons in the nucleus of an atom.
Background:
Ambient signal response recorded by measurement instruments that is independent of radioactivity contributed by the radionuclide being measured in the person or sample.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 16.0 Page 16-3 Background Radiation: Radiation from cosmic sources; naturally occurring radioactive material, including radon (except as a decay product of source or special nuclear material); and global fallout as it exists in the environment from the testing of nuclear explosive devices or from past nuclear accidents such as Chernobyl that contribute to background radiation and are not under the control of the Licensee. "Background radiation" does not include radiation from source, byproduct, or special nuclear materials regulated by the NRC.
Becquerel (Bq): The term used to describe one disintegration per second (dps).
Beta Particle: Beta particles are emitted by the nucleus of an atom to attain stability. Beta particles are usually negatively charged, and are emitted from the nucleus of atoms with an excess of neutrons and serve to reduce the number of neutrons in the nucleus. Some beta particles are positively charged. These positively charged beta particles, known as positrons, are emitted from a nucleus and result in an increase in the number of neutrons in the nucleus.
Negatively charged beta particles and positively charged positrons have a mass equal to 1/1837 that of a proton. Beta particles are easily stopped by a thin sheet of metal or plastic.
Bioassay (radiobioassay): The determination of kinds, quantities or concentrations and, in some cases, the locations ofradioactive material in the human body, whether by direct measurement or by analysis and evaluation of materials excreted or removed from the human body.
Breathing Zone: The breathing zone is that region adjacent to a worker's mouth and nostrils from which air is drawn into the lungs while he/she is performing assigned work.
Breathing Zone Air Sample: Air which is drawn through or into the sample media and is a fair representation of the workers "Breathing Zone."
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 16.0 Page 16-4 Byproduct material:
(1)
Any radioactive material (except special nuclear material) yielded in, or made radioactive by, exposure to the radiation incident to the process of producing or using special nuclear material; (2)
The tailings or wastes produced by the extraction or concentration of uranium or thorium from ore processed primarily for its source material content, including discrete surface wastes resulting from uranium solution extraction processes. Underground ore bodies depleted by these solution extraction operations do not constitute "byproduct material" within this definition; (3)
(i)
Any discrete source of radium-226 that is produced, extracted, or converted after extraction, before, on, or after August 8, 2005, for use for a commercial, medical, or research activity; or (ii)
Any material that-(A)
Has been made radioactive by use of a particle accelerator; and (B)
Is produced, extracted, or converted after extraction, before, on, or after August 8, 2005, for use for a commercial, medical, or research activity; and (4)
Any discrete source of naturally occurring radioactive material, other than source material, that-(i)
The NRC, in consultation with the Administrator of the Environmental Protection Agency, the Secretary of Energy, the Secretary of Homeland Security, and the head of any other appropriate Federal agency, determines would pose a threat similar to the threat posed by a discrete source of radium-226 to the public health and safety or the common defense and security; and
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 16.0 Page 16-5 (ii)
Before, on, or after August 8, 2005, is extracted or converted after extraction for use in a commercial, medical, or research activity.
Calendar Quarter(s): First quarter-January 1 through March 31 Second quarter - April 1 through June 30 Third quarter - July 1 through September 30 Fourth quarter-October 1 through December 31 Calendar Year: From January 1 through December 31.
Calibrate: To adjust and/or determine:
( 1)
The response or reading of an instrument relative to a series of conventionally true values; or (2)
The strength of a radiation source relative to a standard or conventionally true value.
Committed Dose Equivalent (CDE) (HT, so): Means the dose equivalent to organs or tissues of reference (T) that will be received from intake of radioactive material by an individual during the 50 year period following the intake.
Committed Effective Dose Equivalent (CEDE) (HE,so): The sum of the products of the weighting factors applicable to each of the body organs or tissues that are irradiated and the committed dose equivalent to these organs or tissues (HE, so = :ETWT, so).
Contact Dose Rate: A radiation dose rate as measured with the detector or instrument case within 1/2 inch of the surface being measured.
Contamination, Radioactive: Deposition of radioactive material in any place where it is not desired. Radioactive contamination may be removable (loose) or fixed.
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Cimarron Environmental Response Trust envi ronmenta I Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 16.0 Page 16-6 Contaminated Area: Any area that has radioactive contamination at levels greater than the radioactivity release limits for unrestricted use.
Continuous Air Sampling/Monitoring: A method of sampling used to measure airborne radioactivity levels in routinely occupied areas.
Controlled Area: An area outside of a Restricted Area but inside the Site boundary, where access can be limited by the Licensee for any reason.
Corrective Action(s): Action(s) taken to improve areas of performance or to eliminate causes of adverse trends in performance identified during Audits, Surveillances, and as a response to a Notice of Deficiency.
Counts Per Minute (cpm): The rate of ionizing event occurrence in one minute recorded by a radiation detection instrument designed to count ionizing events caused by radiation.
Curie (Ci): A measure of the amount ofradioactive material present.
One curie equals 37 billion (3.7 E+l0 or 3.7 x 1010) becquerels (dps)or 2.2 trillion (2.2 E+12) radioactive disintegration's per minute (dpm).
A millicurie (mCi) is 2.2 billion (2.2 E+09) dpm A microcurie (µCi) is 2.2 million (2.2 E+06) dpm A nanocurie (nCi) is 2.2 thousand (2.2 E+03) dpm A picocurie (pCi) is 2.2 dpm.
Declared Pregnant Woman: A woman who has voluntarily informed the Licensee, in writing, of her pregnancy and the estimated date of conception. The declaration remains in effect until the declared pregnant woman withdraws the declaration in writing or is no longer pregnant.
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 16.0 Page 16-7 Decontamination: Means the process of removing or reducing the level of contamination on an item or individual.
Deep Dose Equivalent (Hd): The dose equivalent at a tissue depth of 1 cm (1000 mg/cm2)
Applies to external whole body exposure.
Derived Air Concentration (DAC): The concentration of a given radionuclide in air which, if breathed by the reference man for a working year of 2,000 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> under conditions of light work (inhalation rate 1.2 cubic meters of air per hour), results in an intake of one ALI. DAC values are given in Table 1, Column 3, of appendix B to 10 CFR 20.1001-2401.
Derived Air Concentration-hour (DAC-hour): The product of the concentration of radioactive material in air ( expressed as a fraction or multiple of the derived air concentration for each radionuclide) and the time of exposure to that radionuclide, in hours. The Licensee may take 2,000 DAC-hours to represent one ALI, equivalent to a committed effective dose equivalent of 5 rems (0.05 Sv).
Detector: That portion of an instrument system sensitive to and used for the quantification of ionizing radiation.
Direct Contamination Survey: This method measures fixed and removable levels of surface contamination. A direct frisk is performed by scanning the survey location using a count rate meter.
Direct Reading Dosimeter (ORD): A monitoring device consisting of a collection chamber coupled with an optical lens and calibrated scale. DRD's can be used as a device to provide individuals with an immediate estimate of their external gamma radiation exposure.
Discrete Source: A radionuclide that has been processed so that its concentration within a material has been purposely increased for use for commercial, medical, or research activities.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 16.0 Page 16-8 Disintegrations Per Minute (dpm): Refers to the number of nuclear transformations occurring per minute.
Disintegrations Per Second (dps): Refers to the number of nuclear transformations occurring per second.
Dose or Radiation Dose: A generic term that means absorbed dose, dose equivalent, effective dose equivalent, committed dose equivalent, committed effective dose equivalent, or total effective dose equivalent, as applicable to context and as defined in 10 CFR 20. The unit for absorbed dose is the rad. 100 rad = 1 Gy.
Dose Equivalent (HT): Means the product of the absorbed dose in tissue, quality factor, and all other necessary modifying factors at the location of interest. The units for dose equivalent rem.
100 rem = 1 Sv.
Dose Rate: The quantity of absorbed dose delivered per unit of time.
Dosimeter: Any of several types of devices used to measure radiation dose. Common types include TLD, OSL, film, and direct reading dosimeters.
Effective Dose Equivalent (HE): The sum of the products of the dose equivalent to the organ or tissue (HT) and the weighing factors (WT) applicable to each of the body organs or tissues that are irradiated (HE = ~WTHT).
Effluent: Material discharged into the environment from licensed operations.
Embryo/Fetus: The developing human organism from conception until the time of birth.
Exposure: Means being exposed to ionizing radiation or to radioactive material. The unit of exposure is the roentgen.
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Cimarron Environmental Response Trust envi ronmenta I properties management, LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 16.0 Page 16-9 External Dose: That portion of the dose equivalent received from a source of radiation outside the body.
Extremity: Means hand, elbow, arm below the elbow, foot, knee, or leg below the knee.
Frisk: The performance of a direct survey for radioactive contamination.
Gamma Ray (Gamma Radiation): High-energy, short wavelength electromagnetic radiation (a packet of energy) emitted from the nucleus. Gamma radiation frequently accompanies alpha and beta emissions and always accompanies nuclear fission. Gamma rays are very penetrating and are best stopped or shielded against by dense materials, such as lead or uranium. Gamma rays are similar to x-rays, but are usually more energetic.
General Area Dose Rate: A radiation dose rate measured at 30 cm or more from a surface.
Gray (Gy): The SI unit for absorbed dose: 1 Gy = 1 Joule kg -1 = 100 rad.
Groundwater: Water contained in pores or fractures in either the unsaturated or saturated zones below ground level.
In-Vitro Bioassay (indirect): The estimation of radioactivity in the human body based upon:
(1) the measurement ofradioactivity in excreta or other materials taken from the body, and (2) a biological model for the radionuclide movement in body tissues and organs.
In-Vivo Bioassay ( direct): The measurement of radioactivity in the human body using instrumentation which detects radiation emitted from radionuclides in the body.
Individual Monitoring: The assessment of dose equivalent by use of devices designed to be worn by an individual; the assessment of committed effective dose equivalent by bioassay or by
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Cimarron Environmental Response Trust envi ronmenta I properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 16.0 Page 16-10 determination of the time-weighted air concentrations to which an individual has been exposed; or the assessment of dose equivalent by the use of survey data.
Individual Monitoring Devices: Devices designed to be worn by a single individual for the assessment of dose equivalent. Examples include thermoluminescence dosimeters (TLD's),
optically stimulated luminescent (OSL) dosimeters, direct reading dosimeters, and lapel air samplers.
Instrument: A complete system designed to quantify one or more characteristics of ionizing radiation or radioactive material.
Intake: The amount of radioactive material taken into the body by inhalation, absorption through the skin, injection, ingestion, or through wounds.
Internal Dose: That portion of the dose equivalent received from radioactive material taken into the body.
Isotopes: Nuclides having the same number of protons in their nuclei but differing in the number of neutrons. Isotopes have the same atomic number and different mass numbers.
Lens Dose Equivalent (LDE): Dose equivalent due to external exposure to the lens of the eye.
It is taken as the dose equivalent at a tissue depth of 0.3 cm (300 mg/cm2).
Licensed Radioactive Material: Source material, special nuclear material, or byproduct material received, possessed, used, transferred or disposed of under a general or specific license issued by the NRC.
License: Means the radioactive materials license issued by the NRC to the Trust to possess and/or use radioactive materials. Other licenses may be issued to the Trust by other state or federal agencies.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 16.0 Page 16-11 Licensee: The holder of the radioactive materials license (the Trust).
Limits (dose limits): The permissible upper bounds of radiation doses.
Low-Level Radioactive Waste (LLRW): Those low-level radioactive wastes containing source, special nuclear, or by-product material that are acceptable for disposal in a land disposal facility. Low-level waste has the same meaning as in the Low-Level Waste Policy Act; that is, radioactive waste not classified as high-level radioactive waste, transuranic waste, spent nuclear fuel, or by-product material as defined in paragraphs (2), (3), and (4) of the definition of Byproduct material set forth in 10 CFR 20.1003.
Member of the Public: An individual who is not receiving an occupational dose.
Micro: A prefix meaning "one millionth" (1 E-06), as in microcurie.
Milli: A prefix meaning "one thousandth" (1 E-03), as in millirem, millirad, or millicurie.
Minimum Detectable Activity: The smallest concentration of radioactivity in a sample that can be detected with a 5% probability of erroneously detecting radioactivity, when in fact none may be present (Type I error) and also, a 5% probability of not detecting radioactivity, when in fact it is present (Type II error). Often used interchangeably with Minimum Detectable Concentration, since the difference between the two terms is only one of units conversion.
Minor: An individual less than 18 years of age.
Monitoring (Radiation Monitoring): The measurement of radiation levels, concentrations, surface area concentrations, or quantities of radioactive material, and the use of the results of these measurements to evaluate potential exposures and doses.
Nano: A prefix meaning "one billionth" (I E-09), as in nanocurie.
NRC: U.S. Nuclear Regulatory Commission or its duly appointed representatives.
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management. LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 16.0 Page 16-12 Nuclide: Any one of the approximately 1800 isotopes of all the elements, whether radioactive or not. See radionuclide and isotope.
Occupational Dose: The dose received by an individual in the course of employment in which the individual's assigned duties involve exposure to radiation or to radioactive material from licensed and unlicensed sources of radiation, whether in the possession of the Licensee or other person. Occupational dose does not include doses received from background radiation, from any medical administration the individual has received from exposure to individuals administered radioactive material and released under 10 CFR 35.75, from voluntary participation in medical research programs, or as a member of the public.
Occupational Dose Limit: The maximum legally allowable dose to individuals during a specific time period, as defined by 10 CFR 20.
Particulate: Sometimes used to describe alpha and beta radiations, but most often used to mean dust or droplets containing radioactive material.
Pico: A prefix meaning "one trillionth" (1 E-12), as in picocurie.
Planned Special Exposure: An infrequent exposure to radiation, separate from and in addition to the annual dose limits.
Posting: A standardized sign or label which bears the standard trefoil radiation symbol in magenta or purple or black on a yellow background and information concerning a specific radiological hazard.
Protective Clothing: Clothing provided to reduce exposure and prevent the spread of contamination to personnel clothing or the body while performing work with radioactive materials.
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Cimarron Environmental Response Trust envi ronmenta I properties managernent. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 16.0 Page 16-13 Qualification: Certification of the fact that an individual possesses the knowledge, capabilities (e.g., physical) characteristics, or abilities gained through experience, training, or on-the-job training that an individual can perform a required task.
Qualified Escort: An individual that meets the Qualified Escort training requirements set forth in Radiation Protection Procedure RP-14, "Training".
Qualified Individual: An individual who has completed the training and/or testing requirements set forth by procedures or regulations, which in tum grants that individual permission to operate specific equipment or instrumentation, or to perform specific work duties.
Rad: The special unit ofradiation dose. One rad is equal to an absorbed dose of 100 ergs/gram or 0.01 joule/kilogram (0.01 gray).
Radiation (Ionizing Radiation): Alpha particles, beta particles, gamma rays, x-rays, neutrons, high-speed electrons, high-speed protons, and other particles capable of producing ions.
Radiation, as used within the context of the Radiation Protection Program does not include non-ionizing radiation such as radio or microwaves and visible, infrared, or ultraviolet light.
Radiation Area: Defined as any accessible area where the dose equivalent to an individual could exceed 5 millirem (.05 mSv) in any one hour at 30 cm from the radiation source or surface that radiation penetrates.
Radiation Safety Officer (RSO): The individual responsible for development and oversight of radiation protection program policies at the Cimarron Site. This individual shall meet the requirements set forth in NUREG-1757, Section 17.2.3.1.
Radiation Worker: An individual who has access to the Restricted Areas to perform work and has completed the training requirements listed in Radiation Protection Procedure RP-14, "Training".
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Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 16.0 Page 16-14 Radioactive Material ( 49 CFR 173.403): For purposes of transportation, any material containing radionuclides where both the activity concentration and the total activity in the consignment exceed the values specified in the table in 49 CFR 173.436 or values derived according to the instructions in 49 CFR 173.433.
Radioactive Materials Area: Any area or room which is posted and is used to store or contains for use an amount of licensed material exceeding 10 times the quantity of such material as listed in Appendix C to 10 CFR 20.
Radioactivity: Rate of disintegration (transformation) or decay of radioactive material. The units of activity are the curie (Ci) and the becquerel (Bq). Bq = 1 (dps) disintegration per second; Ci = 3.7 x 1010 dps.
Radionuclide: Any one of the radioactive nuclides.
Record: A document that provides evidence of the quality of services performed, demonstrates that actions were performed in accordance with radiation protection procedures, or demonstrates conformance of actions to regulatory requirements.
Reference Man: A hypothetical aggregation of human physical and physiological characteristics arrived at by international consensus. These characteristics may be used by researchers and public health workers to standardize results of experiments and to relate biological insult to a common base.
Rem: The special unit for any of the quantities expressed as dose equivalent. The dose equivalent in rems is equal to the absorbed dose in rads multiplied by the quality factor ( 1 rem =
0.01 sievert).
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Cimarron Environmental Response Trust envi ronmenta I properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 16.0 Page 16-15 Removable Contamination Survey: The method used to measure removable contamination.
Removable survey techniques are:
(1)
Smear Surveys - A smear is obtained by using an absorbent filter disk to wipe with moderate pressure across the area or item to be evaluated. A smear is usually wiped over an area of 100 cm2*
(2)
Wipe Surveys - A wipe is obtained by wiping an absorbent pad or towel over a large area or the entire surface of the item being surveyed.
Respirator: An apparatus used to reduce the individual's intake of airborne radioactive materials.
Restricted Area: An area having access controlled by the Licensee for the purpose of protecting individuals against undue risk from exposure to radiation and radioactive materials.
Restricted Area does not include areas used as residential quarters, but separate rooms in a residential building may be set apart as a Restricted Area.
Sealed Source: Any by-product material that is encased in a capsule designed to prevent leakage or escape of the by-product material.
Shallow Dose Equivalent (SDE): The dose equivalent at a tissue depth of 0.007cm (7 mg/cm2),
averaged over an area of one square centimeter. It applies to external exposure of the skin of the whole body or of an extremity.
Sievert (Sv): The SI unit of any of the quantities expressed as dose equivalent. The dose equivalent in sieverts is equal to the absorbed dose in grays multiplied by the quality factor.
1 Sv = 100 rem.
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 16.0 Page 16-16 Site Boundary: The line beyond which the land or property is not owned, leased, or otherwise controlled by the Licensee.
Skin of the Whole Body: The skin of the whole body, exclusive of skin of the extremities.
Smear: A radiation survey technique which is used to determine levels of removable surface contamination. A medium (typically filter paper) is rubbed over a surface (typically of area 100 cm2), followed by a quantification of the activity on the medium. Also known as a swipe.
Source Material:
(1)
Uranium or thorium or any combination of uranium and thorium in any physical or chemical form; or (2)
Ores that contain, by weight, one-twentieth of 1 percent (0.05 percent), or more, of uranium, thorium, or any combination of uranium and thorium. Source material does not include special nuclear material.
Special Nuclear Material:
(1)
Plutonium, uranium-233, uranium enriched in the isotope 233 or in the isotope 235, and any other material that the Commission, pursuant to the provisions of section 51 of the Act, determines to be special nuclear material, but does not include source material; or (2)
Any material artificially enriched by any of the foregoing but does not include source material.
Stochastic Effects: Health effects that occur randomly and for which the probability of the effect occurring, rather than its severity, is assumed to be a linear function of dose without threshold. Hereditary effects and cancer are examples of stochastic effects.
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 16.0 Page 16-17 Survey: An evaluation of the radiological conditions and potential hazards incident to the production, use, transfer, release, disposal, or presence of radioactive materials or other sources of radiation. When appropriate, such an evaluation includes a physical survey of the location of a source of radiation and measurements or calculations of levels of radiation or concentrations or quantities of radioactive material present.
Thermoluminescent Dosimeter (TLD): An integrating detector where radiation energy is absorbed (trapped) and can be read out later by thermal excitation of the detector.
Total Effective Dose Equivalent (TEDE): The sum of the deep dose equivalent (for external exposures) and the committed effective dose equivalent (for internal exposures).
Total Organ Dose Equivalent (TODE): The sum of the deep dose equivalent and the committed dose equivalent to the organ receiving the highest dose.
Unrestricted Area: Any area to which access is not limited or controlled for purposes of protection of individuals from exposure to radiation and radioactive materials.
Uptake: Quantity of a radionuclide taken up by the systematic circulation (e.g., by injection into the blood, by absorption from compartments in the respiratory or gastrointestinal tracts, or by absorption through the skin or through wounds in the skin).
Uranium (Natural, Depleted and Enriched):
Natural Uranium: Uranium found in nature. Natural uranium contains 0.71 weight percent U-235, 99.3 weight percent U-238, and a trace of U-234.
Depleted Uranium: Uranium in which the U-235 isotope represents less than 0.71 weight percent of the mass of the material. Depleted uranium is less radioactive than natural uramum.
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 16.0 Page 16-18 Enriched Uranium: Uranium in which the U-235 isotope represents greater than 0.71 weight percent of the mass of the material. The alpha emission rate increases from 1.5 E3 dpm per mg at 0. 71 weight percent enrichment to 1.4 E5 dpm per mg at 93%
enrichment.
Visitor: An individual who is not an employee or contractor of the Licensee.
Week: Seven consecutive days starting on Sunday.
Weighting Factor (WT): The proportion ofrisk of stochastic effects resulting from irradiation of the organ or tissue to the total risk of stochastic effects when the whole body is irradiated uniformly.
Whole Body (WB): Means, for purposes of whole body exposure, the head, trunk (including male gonads), arms above the elbow, or legs above the knee.
Year: The period of time beginning on January 1 and ending on December 31 that is used to determine compliance with the NRC.
X-Ray: Penetrating electromagnetic radiation having a wavelength much shorter than that of visible light. X-rays are usually produced by a excitation of the electron field around certain nuclei. In nuclear reactions, it is customary to refer to photons originating in the electron field of the atom as X-rays.
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Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date: 3/1/2021 Section 17.0 Page 17-1 17.0 REFERENCES
- 1.
10 CFR 19, "Notices, Instructions and Reports to Workers; Inspection and Investigations"
- 2.
10 CFR 20, "Standards for Protection Against Radiation"
- 3.
10 CFR 30, "Rules of General Applicability to Domestic Licensing of By-Product Material"
- 4.
10 CFR 61, "Licensing Requirements for Land Disposal of Radioactive Waste"
- 5.
10 CFR 70, "Domestic Licensing of Special Nuclear Material"
- 6.
"Cimarron Facility Decommissioning Plan," Rev. 1
- 7.
EPM0 17-CALC-00 1, "Dose Rate Near Uranium Treatment Train"
- 8.
EPM028-CALC-001, "Potential Intake Calculation"
- 9.
NCRP 87-1987, "Use ofBioassay Procedures for Assessment oflntemal Radionuclide Deposition"
- 10.
NUREG/CR-0041, Rev. 1, "Manual of Respiratory Protection Against Airborne Radioactive Material"
- 11.
NUREG-1400, "Air Sampling in the Workplace" NUREG 1757, "Decommissioning Process for Materials Licensees"
- 12.
NUREG-1507, "Minimum Detectable Concentrations with Typical Radiation Survey Instruments for Various Contaminants and Field Conditions," June 1998
- 13.
NUREG-1556, Vol. 7, "Consolidated Guidance About Materials Licenses, Program-Specific Guidance About Academic, Research and Development, and Other Licenses of Limited Scope Including Gas Chromatographs and X-Ray Fluorescence Analyzers,"
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Cimarron Environmental Response Trust environmental properties rnanagement. LLC Radiation Protection Plan Document No. RPP-001 Rev. 4 Effective date: 3/1/2021 Section 17.0 Page 17-2 Appendix H, "Sample Audit Program," 2018
- 14.
Order Transferring License No. SNM-928 for the Cimarron Site
- 15.
Regulatory Guide 4.15, Rev. 2, "Quality Assurance for Radiological Monitoring Programs (Normal Operations) - Effluent Streams and the Environment"
- 16.
Regulatory Guide 8.4, Rev. 1, "Personnel Monitoring Device - Direct-Reading Pocket Dosimeters"
- 17.
Regulatory Guide 8.9, Rev. 1, "Acceptable Concepts, Models, Equations, and Assumptions for a Bioassay Program"
- 18.
Regulatory Guide 8.15, Rev. 1, "Acceptable Programs for Respiratory Protection"
- 19.
Regulatory Guide 8.25, Rev. 1, "Air Sampling in the Workplace"
- 20.
Regulatory Guide 8.28, Rev. 0, "Audible Alarm Dosimeters"
- 21.
Regulatory Guide 8.34, Rev. 0, "Monitoring Criteria and Methods to Calculate Occupational Radiation Doses"
- 22.
Regulatory Guide 8.36, Rev. 0, "Radiation Dose to the Embryo/Fetus"
- 23.
The Cimarron Environmental Response Trust Special Nuclear Material License (SNM-928)
- 24.
U.S. NRC, "Guidelines for Decontamination of Facilities and Equipment Prior to Release for Unrestricted Use or Termination of License for Byproduct, Source or Special Nuclear Material," August 1987
- 25.
U.S. NRC, "Disposal or Onsite Storage of Thorium or Uranium Wastes from Past Operations," October 1981
~
~
Cimarron Environmental Response Trust environmental Radiation Protection Plan properties management, LLC Document No. RPP-001 Appendix A Rev. 4 Effective date:
Page A-1 APPENDIX A POTENTIAL INTAKE CALCULATION (EPM028-CALC-001)
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Client:
Cimarron Environmental
Title:
Potential Intake Calculation Response Trust Project Identifier:
EPM028 Item Cover Sheet Items Yes No 1
Does this calculation contain any open assumptions, including preliminary LJ
~
information, that require confirmation? (If YES, identify the assumptions.)
2 Does this calculation serve as an "Alternate Calculation"? (If YES, identify the
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design verified calculation.)
Design Verified Calculation No.
3 Does this calculation supersede an existing Calculation? (If YES, identify the IZI LJ design verified calculation.)
Superseded Calculation No. EPM028-CALC-001, Rev. 0 Scope of Revision:
Corrects calculation for determining potential mass intake of uranium through inhalation. Potential intake of Tc-99 through inhalation and ingestion were evaluated. A sensitivity analysis to determine potential intake for thorium and protactium daughters of U-235 and U-238 was peformed. Several editorial changes were made to correct page numbering, equation numbering, and improve clarity of the text.
Revision Impact on Results:
Conclusions related to chemical intakes of uranium do not change. Potential intakes of Tc-99 and uranium daughters are significantly less than 1 % ALI.
Study Calculation LJ Final Calculation ~
Safety-Related u Non-Safety-Related ~
(Print Name and Sign)
Originator: Jay Maisler Jay Maisler, CHP Digitally signed by Jay Maisie,, CHP Date:
12/12/2019 I\\
DAie: 2019;),1,12 09:53:04-05'00' Design Reviewer: A. Joseph Nardi R (JV,:!!_YJ.,~-
Date: l~/1/1'1 Approver: Gerry Williams r,/r/id
~II"
/Digitally signed by Gerald Date:
\\/1/i 1;:im( Williams V
Date: 2019.12.17 09:58:06 -05'00'
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CALCULATION REVISION STATUS REVISION DATE DESCRIPTION 0
3/26/2019 Initial Issue 1
6/20/2019 Corrected mass intake from inhalation and made editorial corrections 2
11/22/2019 Added calculation of potential intake for Tc-99 and sensitivity analysis for potential intakes of U-235 and U-238 progeny with corresponding Attachments.
PAGE REVISION STATUS PAGE NO.
REVISION PAGE NO.
REVISION 1-13 2
APPENDIX/ATTACHMENT REVISION STATUS APPENDIX NO.
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NO.
PAGES NO.
Attachment A 2
2 Attachment B 2
2 Attachment C 2
2
CALCULATION TABLE OF CONTENTS ENERCON Excellence-Every project. Every day.
Section
1.0 Purpose and Scope
TABLE OF CONTENTS 2.0 Summary of Results and Conclusions 3.0 References 4.0 Assumptions 5.0 Design Inputs 6.0 Methodology 7.0 Calculations 8.0 Computer Software List of Attachments CALC NO.
REV.
Attachment A - Potential Intake Calculation Spreadsheet - Uranium Attachment B - Potential Intake Calculation Spreadsheet - Tc-99 Attachment C - Sensitivity Analysis EPM028-CALC-001 2
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4 4
5 6
7 9
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1.0 Purpose and Scope
The purpose of this calculation is to estimate potential intakes of uranium from groundwater processing and resin handling at the Cimarron Site. This calculation also provides an estimated intake of handling spent resin and bio-solids potentially contaminated with Tc-99. The methodology for potential intake and need for air sampling is based on the methodology provided in NUREG-1400 (Ref. 3.1).
As sensitivity analysis was performed to determine the contribution to potential intakes from airborne exposure to thorium and protactinium progeny of U-235 and U-238.
2.0 Summary of Results and Conclusions The highest anticipated potential intake from handling spent resin is less than 0.2% of the annual limit on intake (ALI) for uranium, U-235 progeny, U-238 progeny. The potential intake from handling spent resin and bio-solids is 0.22% of the ALI for Tc-99.
3.0 References 3.1 NUREG-1400, Air Sampling in the Workplace, September 1993.
3.2 49 CFR 173.434, Activity-mass relationships for uranium and natural thorium.
3.3 10 CFR 20, Appendix B, Annual Limits on Intake (ALis) and Derived Air Concentrations (DACs) of Radionuclides for Occupational Exposure; Effluent Concentrations; Concentrations for Release to Sewerage 3.4 Cimarron Radiation Protection Plan, draft Rev. 4 3.5 BA 1 Isotopic Data for Enercon.xlsx, Isotopic abundance of Uranium source provided as an Excel spreadsheet 3.6 Cimarron Facility Decommissioning Plan, Rev. 1 3.7 DOE-STD-1036-2009, Guide to Good Practices for Occupational Radiological Protection in Uranium Facilities, July 2009 4.0 Assumptions 4.1 The specific activity for uranium:
4.1.1 5% enrichment - 2. 7 E-06 Ci/g (Ref. 3.2) 4.1.2 1.5% enrichment - 1.00 E-06 Ci/g (Ref. 3.2) 4.2 The maximum groundwater uranium concentration is assumed to be 5000 pCi/L.
This is conservative based on the highest reported groundwater concentration found in BA1 of less than 3000 µg/L. (Ref. 3.6, Figure 3-4)
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5 of 13 4.3 The average groundwater Tc-99 concentration is assumed to be 586 pCi/L. This is based on information obtained during groundwater samples analyzed in 2018 and 2019.
4.4 The maximum mass of U-235 assumed to be present in the spent resin being processed for disposal is 500 grams. This is higher than the maximum mass estimated in the treatability study. (Ref. 3.6, section 8.3.2) 4.5 The uranium in groundwater is assumed to be soluble.
4.6 Determining "potential intake" for uranium, based on the NUREG-1400 methodology, requires various assumptions. These assumptions are used in the sensitivity analysis:
4.6.1 Total activity processed is based on twelve spent resin bed vessels processed per year.
4.6.2 "Release Fraction," R, is based on "non-volatile powder - 0.01.
4.6.3 "Confinement Factor," C, is equivalent to a well-vented hood - 0.1. This is based on equipment designed to confine resin within the process system.
4.6.4 "Dispersibility," D, is based on the contaminant being moist resin - 0.1 4.7 Determining "potential intake" for Tc-99, based on the NUREG-1400 methodology, requires various assumptions:
- 4. 7.1 Total activity processed is based on groundwater flow of 130 gallons per minute processed for cleanup.
4.7.2 Total volume of groundwater processed in a year assumes continuous processing for a year-365 days, 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> per day.
4.7.3 No credit for "Release Fraction," R, is taken - 1.
- 4. 7.4 No credit for "Confinement Factor," C, is taken - 1.
4.7.5 "Dispersibility," D, is based on the contaminant being moist resin and bio-solids - 0.1 4.8 The ALI and DAC used for inhalation are for U-238, class Y. U-234, U-235, and U-238 have the same value for these ALis and DACs, therefore isotopic distribution is irrelevant to the dosimeteric calculation.
4.9 The solubility class for the Tc-99 ALI is W, the most restrictive inhalation ALI.
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6 of 13 4.10 Isotopic distribution for U-235 progeny and U-238 progeny in the sensitivity analysis only consider isotopes in the decay chain that are in secular equilibrium with their uranium parents; Th-231, Th-234, Pa-234m.
5.0 Design Inputs 5.1 Annual Limit on Intake (ALI) for Inhalation The following properties are taken from Reference 3.3.
U-234, U-235, U-238: 4.00 E-02 µCi (Class Y)
Tc-99: 7.00 E+02 µCi Th-231: 6.00 E+03 µCi Th-234: 2.00 E+02 µCi Pa-234m: 7.00 E+03 µCi (Class Y) 5.2 Derived Air Concentration (DAG) for Inhalation (Uranium)
The following source characteristics are taken from Reference 3.3.
2.00 E-11 µCi/ml 5.3 ALI for Oral Ingestion The following material definitions are taken from Reference 3.3.
1.00 E01 µCi (class D, bone surface) (Uranium) 2.00 E01 µCi (class D) (Uranium) 4.00 E+03 µCi (class D) (Tc-99) 5.4 Resin Vessel Loading The first week's loading of the resin vessel is 3,706 grams of uranium. After the first full loading, the vessel contains 24,055 grams of uranium. These values are taken from Reference 3.5.
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7 of 13 6.0 Methodology 6.1 Oral Intake Consumption The amount of untreated groundwater that would need to be consumed for an individual to have an intake of 2% ALI and 1 ALI was calculated based on Assumption 4.2.
6.2 Spent Resin Loading The total amount of uranium that could be loaded onto a spent resin bed was calculated for 1.5% and 5% enriched uranium. These calculations provided for conservatism in the dose assessment performed.
6.3 NUREG-1400 Methodology NUREG-1400 provides calculational methods to support decisions related to the need to perform air sampling at a facility and determine the potential intake for workers.
The first calculation involves determining if the amount of unsealed radioactive materials handled in a year would indicate the need for performing air sampling.
Following this methodology, the amount uranium on a spent resin bed was determined. Then, as discussed in Assumption 4.6.1, the total amount of uranium handled in a year was determined. Other assumptions (4.6.2, 4.6.3, 4.6.4) were used to calculate "potential intake" from inhalation.
The total activity of Tc-99 handled in a year is determined as discussed in Assumption 4.7. Other assumptions (4.7.3, 4.7.4, 4.7.5) were used to calculate "potential intake" from inhalation.
6.4 Chemical Intake Intake of soluble uranium is limited to 10 mg per week as required by 10 CFR 20.1201(e). Using the "potential intake" from inhalation, the mass that an individual could intake in a year was calculated. Because the limit is based on a weekly limit, consumption of contaminated water would be more limiting than inhalation. Based on Assumption 4.2, the amount of contaminated water that would need to be consumed during a week to ingest 10 mg of soluble uranium was calculated.
6.5 Sensitivity Analysis The sensitivity analysis considers the potential intake from inhalation of U-234, U-235 and its progeny (Th-231 ), and U-238 and its progeny (Th-234, Pa-234m). The
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8 of 13 progeny for U-235 and U-238 are considered to be in secular equilibrium with their respective parent. Acvity distribution percentages is based on 5% enrichment, which provides an upper bound for dosimetric considerations.
7.0 Calculation 7.1 Oral Intake Consumption The oral intake consumption is found using the Equation 7.1.
ALI 10 = z-- X 1E06 max Equation 7. 1 Where lo, in liters, is equal to annual limit on intake (ALI) µCi for U-238 or Tc-99 divided by the activity concentration (pCi/L) in groundwater multiplied by a 106 pCi/µCi.
The results from this calculation for uranium indicate that drinking 40 L of contaminated groundwater at maximum activity would result in an individual intake of 2% ALI; 2000 L would need to be consumed to have an intake of 1 ALI. Consuming groundwater at the site is prohibited.
The results of this calculation for Tc-99 indicate that drinking 1.37 E+05 L of contaminated groundwater would result in an individual intake of 2% ALI; 6.87 E+06 L would need to be consumed to have an intake of 1 ALI. The 2% ALI scenario would require consumption of 377 L per day for an entire year.
7.2 Spent Resin Loading The mass of total uranium in a fully spent resin bed is found using Equation 7.2.
M = 500 g E
Equation 7. 2 Where the total mass of uranium in spent resin vessel, M, equals the mass of U-235 on the spent resin bed (500 grams) divided by the enrichment.
Based on 1.5% enrichment, the uranium mass in one spent resin bed would be 33.3 kg.
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9 of 13 7.3 NUREG-1400 Methodology 7.3.1 Potential Intake for Uranium The total activity in spent resin processed in a year is based on four resin bed exchanges per year. The total activity handled during a year is calculated with Equation 7.3.
Q = SAenrich X M X 4 Equation 7.3 Where Q, the total activity handled in a year (Ci) is equal to the specific activity based on enrichment, SAenrich, Ci/g divided by the total mass of uranium on a fully spent resin bed from Equation 7.2. The activity Q is compared to the ALI for uranium to determine if it exceeds 104 times the ALI. If it does, then air sampling should be considered.
The total activity assuming 1.5% enrichment would exceed 104 times the ALI. Air sampling should be considered and is addressed in the RPP (Ref. 3.4)
Potential intake from inhalation is determined from Equation 7.4 (Ref. 3.1, Equation 1.2).
Ip= Q X RX C X DX 10-6 Equation 7.4 Where Ip is the potential intake from inhalation in µCi, Q is the total activity from Equation 7.3 converted to µCi, R is the release fraction (0.01 for non-volatile powders),
C is the confinement factor (0.1 for well-ventilated hood), and D is dispersibility (0.1 for moist resin). 1 o-6 is an additional factor provided in Ref. 3.1 The potential intake from inhalation for 5% enrichment was more limiting than 1.5%
enrichment. The results for 5% enriched uranium was 2.59 E-05 µCi in a year, which is 0.2% ALI. At 1.5% enrichment, the potential intake was calculated to be 4.00 E-05 µCi in a year or 0.1% ALI.
7.3.2 Potential Intake for Tc-99 The total activity for Tc-99 handled in a year is calculated by multiplying the Tc-99 groundwater concentration (Assumption 4.3) times the amount of groundwater processed in a year (Assumption 4.7.1 times Assumption 4.7.2).
Potential intake from inhalation is determined from Equation 7.4.
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10 of 13 Where Ip is the potential intake from inhalation in µCi, Q is the total activity as discussed converted to µCi, R is the release fraction (no credit is taken, a value of 1 is assigned),
C is the confinement factor (no credit is taken, a value of 1 is assigned), and D is dispersibility (0.1 for moist resin and bio-solids). 1 o-6 is an additional factor provided in Ref. 3.1 The results for Tc-99 was 1.51 E-02 µCi in a year, which is 0.22% ALI.
7.4 Chemical Intake The amount of groundwater that would need to be consumed to have an intake of 10 mg of soluble uranium was determined using Equation 7.5.
10 mg X
3 V - 3000 µg/L lO Equation 7. 5 Where V is the volume consumed in liters. 10 mg is the weekly soluble uranium intake limit (10 CFR 20.1201(e)). 3000 µg/L is the maximum mass concentration of uranium in groundwater at BA 1.
The calculation resulted in a weekly intake exceeding 10 mg soluble uranium if an individual consumed 3.33 L of contaminated water. Consumption of groundwater at the Cimarron site is prohibited.
Chemical intake from inhalation was also calculated and compared to the potential intake from inhalation. Based on the results of the potential intake from inhalation, the potential mass intake would be 4E-2 mg in a year. The permissible weekly intake is 250 times the potential mass intake through inhalation in a year.
7.5 Sensitivity Analysis The sensitivity analysis was performed assuming that:
Th-231 is in secular equilibrium with U-235 (i.e., the activity of U-235 is equal to this progeny).
Th-234 and Pa-234/Pa-234m are in secular equilibrium with U-238 (i.e., the activity of U-238 is equal to each of these progeny).
Total uranium activity was determined for the potential intake calculation. Isotopic activity was determined by calculating the activity fraction for each of the uranium isotopes (U-234, U-235, and U-238) and multiplying by the total uranium activity.
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11 of 13 Activity fractions were calculated using the equations provided in Example 3a of Ref.
3.7:
Enrichment234
- SA234 AF234 = ---------------------------
Enrichment234
- SA234 + Enrichment235
- SA235 + Enrichment238
- SA238 Equation 7. 6 Enrichment23s
- SA23s AF23s =
Ennchment234
- SA234 + Ennchment235
- SA235 + Ennchment238
- SA238 Equation 7. 7 Enrichment238
- SA238 AF23a =
Ennchment234
- SA234 + Ennchment235
- SA235 + Ennchment238
- SA238 Equation 7. 8 Where AF234 is the activity fraction for U-234; AF23s is the activity fraction for U-235; AF23s is the activity fraction for U-238. Enrichment is by percent weight. SA234 is the specific activity of U-234 (2.30 E+08 Bq/g); SA23s is the specific activity of U-235 (79312 Bq/g); SA23s is the specific activity of U-238 (12329 Bq/g).
Enrichment for U-234, based on 5% U-235 enrichment, is calculated by the following equation provided in Example 3a of Ref. 3.7:
0.0055 natural fraction 234U Enrichment234 =
- 5.0
- 1.2
- 0. 72_natural_f raction_ 235 U Equation 7. 9 Enrichment238 = 100 -
Enrichment234 - 5.0 Equation 7. 10 The NUREG-1400 methodology discussed in Section 7.3 was applied for each of the uranium istopes and the U-235 and U-238 progeny. The results of the analysis for each of the isotopes is provided below, as a percentage of ALI:
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- U-234:
0.17% ALI
- U-235:
0.01% ALI
- Th-231:
<0.01% ALI
- U-238:
0.02% ALI
- Th-234:
<0.01% ALI
- Pa-234m: <0.01% ALI
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13 of 13 8.0 Computer Software A Microsoft Excel spreadsheet was used to perform calculations discussed in this calculation.
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Uranium PAGE NO.
1 of 2 Attachment A - Potential Intake Calculation - Uranium EPM028-CALC-001 Assumptions More realistic calculation Specific Activity (5%
2.70E-06 Ci/g SA {1.5%)
1.00E-06 Ci/g enrich.)
Max GW concentration 5000 pCi/L 5.00E-06
µCi/ml Oral Intake ALI l.00E+0l
µCi Consumption for 2% ALI 40.00 L
Consumption for 1 ALI 2000.00 L
Spent resin loading Site limit for U-235 1200 g
Max U235 500 g
Total U assume 5%
2.40E+04 g
U(l.5%)
3.33E+04 g
NUREG-1400 Methodology Total activity per resin 6.48E-02 Ci 6.48E+04
µCi 3.33E-02 Ci 3.33E+04
µCi bed Total activity (Q) (12 7.78E-01 Ci 7.78E+05
µCi 4.00E-01 Ci 4.00E+05
µCi bed/y)
Is Q > 1E+04 ALI?
7.78E+04 YES 4.00E+04 YES
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2of2 Potential Intake (Ip)
Ip= Q x lE-06 x R x C xD Total activity (Q) (12 7.78E+0S
µCi 4.00E+0S
µCi bed/y)
Release Fraction (R) 0.01 Nonvolatile Powder 0.01 Nonvolatile Powder Confinement Factor (C) 0.1 Well-ventilated Glovebox would be 0.1 Well-ventilated hood 0.01 hood Dispersibility (D) 0.1 Moist resin 0.1 Moist resin Potential Intake (Ip) 7.78E-05
µCi 4.00E-05
µCi
%ALI 0.19%
0.10%
Chemical Intake Potential Intake (Ip) 7.78E-05
µCi 4.00E-05
µCi Mass intake per year 2.88E-05 g
2.88E-02 mg 4.00E-05 g
4.00E-02 mg Limit per week 10 mg 10 mg Percentage of weekly 0.3%
0.4%
mass limit Drinking 3000
µg/L 3000
µg/L Volume per week 3.33E+00 L
3.33E+00 L
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1 of2 Attachment B - Potential Intake Calculation -Tc-99 EPM028-CALC-001 Assumptions Groundwater activity 582 pCi/L Groundwater flow 130 gpm Groundwater vol/year 6.83E+07 gallons Covers ion 3.785 L/g NUREG-1400 Methodology Tc-99 Activty /y l.51E+ll pCi 1.51E+05
µCi ALI 7.00E+02
µCi Is Q > 1E+04 ALI?
2.15E+02 NO Potential Intake {Ip)
Ip= Q X lE-06 x Rx C x D Release Fraction (R) 1 No credit taken Confinement Factor (C) 1 No credit taken Dispersibility (D) 0.1 Moist resin and bio-solids Potential Intake {Ip) 1.51E-02
µCi
%ALI 0.22%
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2 of2 Oral Intake Groundwater activity 582 pCi/L Oral ALI 4.00E+03
µCi Consumption for 2% ALI 1.37E+0S L
Consumption for 1 ALI 6.87E+06 L
Consumption per day 3.77E+02 L/day for 365 days/y (2%)
Consumption per day 1.88E+04 L/day for 365 days/y (ALI)
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1 of2 Sensitivity Analysis - 5% enrichment Assumptions 6.48E-02 Ci Total U-activity in one spent resin bed Activity % of U-234 in 87.1%
U-234 Uranium Activity % of U-235 in 3.3%
U-238 Activity% of U-238 in Uranium 5.64E-02 Ci U-234 ALI 4.00E-02
µCi 2.12E-03 Ci U-235 ALI 4.00E-02
µCi 2.12E-03 Ci Th-231 ALI 6.00E+03
µCi 6.26E-03 Ci U-238 ALI 4.00E-02
µCi 6.26E-03 Ci Th-234 ALI 2.00E+02
µCi 6.26E-03 Ci Pa-234m ALI 7.00E+03
µCi U-234 U-235 Th-231 U-238 Th-234 Pa-234m Total activity per resin bed
µCi 5.64E+04 2.12E+03 2.12E+03 6.26E+03 6.26E+03 6.26E+03 Total activity (Q) (12 bed/y)
µCi 6.77E+0S 2.SSE+04 2.SSE+04 7.52E+04 7.52E+04 7.52E+04 Q/ALI l.69E+07 6.37E+0S 4.24E+00 1.88E+06 3.76E+02 1.07E+0l Is Q > 1E+04 ALI?
YES YES NO YES NO NO
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2of2 Potential Intake (Ip= Q x lE-06 x Rx C x D)
Total activity (Q) (12 bed/y)
µCi 6.77E+0S 2.55E+04 2.55E+04 2.55E+04 7.52E+04 7.52E+04 7.52E+04 Nonvolatile Release Fraction (R)
Powder 0.01 0.01 0.01 0.01 0.01 0.01 0.01 Well-ventilated Confinement Factor (C) hood 0.1 0.1 0.1 0.1 0.1 0.1 0.1 Dispersibility (D)
Moist resin 0.1 0.1 0.1 0.1 0.1 0.1 0.1 Potential Intake (Ip)
µCi 6.77E-05 2.SSE-06 2.SSE-06 2.SSE-06 7.52E-06 7.52E-06 7.52E-06 Fraction of ALI l.69E-03 6.37E-05 4.24E-10 1.27E-03 l.88E-04 3.76E-08 l.07E-09 Percent ALI 0.17%
0.01%
0.00%
0.13%
0.02%
0.00%
0.00%
Activity Fraction Determination Enrichment Activity Fraction DOE-STD-1036-2009 Ex. 3a Specific Activity U-234 2.30E+08 Bq/g 0.05%
87.06%
DOE-STD-1036-2009 Ex. 3a U-235 79312 Bq/g 5.00%
3.27%
DOE-STD-1036-2009 Ex. 3a U-238 12329 Bq/g 94.95%
9.67%
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CHECKLIST PAGE NO.
1 of 7 CHECKLIST ITEMS1 YES NO N/A GENERAL REQUIREMENTS
- 1.
If the calculation is being performed to a client procedure, is the procedure being used the latest revision?
Client procedure is not used in this calculation. ENERCON QA procedures used
~
throughout this project.
- 2.
Are the proper forms being used and are they the latest revision? Same format
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matching EPM017-CALC-001 was used for internal consistency
- 3.
Have the appropriate client review forms/checklists been completed?
Client procedure is not used in this calculation. ENERCON QA procedures used
~
throughout this project.
- 4.
Are all pages properly identified with a calculation number, calculation revision and page number consistent with the requirements of the client's procedure?
Client procedure is not used in this calculation. ENERCON QA procedures used
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throughout this project.
- 5.
Is all information legible and reproducible?
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- 6.
Is the calculation presented in a logical and orderly manner?
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- 7.
Is there an existing calculation that should be revised or voided?
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- 8.
Is it possible to alter an existing calculation instead of preparing a new calculation for this situation?
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No current ENERCON calculations exist that are similar to this calculation.
- 9.
If an existing calculation is being used for design inputs, are the key design inputs, assumptions and engineering judgments used in that calculation valid and do they
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apply to the calculation revision being performed.
- 10.
Is the format of the calculation consistent with applicable procedures and expectations?
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11.
Were design input/output documents properly updated to reference this calculation?
No ENERCON design inputs or outputs are affected by this calculation.
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CALC NO.
EPM017-CALC-001 a ENERCON CALCULATION PREPARATION REV.
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CHECKLIST PAGE NO.
2 of 7 CHECKLIST ITEMS1 YES NO N/A
- 12.
Can the calculation logic, methodology and presentation be properly understood
~
without referring back to the originator for clarification?
OBJECTIVE AND SCOPE
- 13.
Does the calculation provide a clear concise statement of the problem and objective of
~
the calculation?
- 14.
Does the calculation provide a clear statement of quality classification?
~
- 15.
Is the reason for performing and the end use of the calculation understood?
~
- 16.
Does the calculation provide the basis for information found in the plant's license basis?
This calculation applies to a remediation site. No work performed in this calculation is
~
applicable to a licensing basis.
- 17.
If so, is this documented in the calculation?
~
- 18.
Does the calculation provide the basis for information found in the plant's design basis
~
documentation?
- 19.
If so, is this documented in the calculation?
~
- 20.
Does the calculation otherwise support information found in the plant's design basis
~
documentation?
- 21.
If so, is this documented in the calculation?
~
- 22.
Has the appropriate design or license basis documentation been revised, or has the
~
change notice or change request documents being prepared for submittal?
DESIGN INPUTS
- 23.
Are design inputs clearly identified?
~
- 24.
Are design inputs retrievable or have they been added as attachments?
~
CALC NO.
EPM017-CALC-001 a.: ENERCON CALCULATION PREPARATION REV.
2 Excellence-Every project. Every day CHECKLIST PAGE NO.
3 of 7 CHECKLIST ITEMS1 YES NO N/A
- 25.
If Attachments are used as design inputs or assumptions are the Attachments traceable and verifiable? MS Excel spreadsheet was used to perform the calculation. All
~
equations are provided in the calculation.
- 26.
Are design inputs clearly distinguished from assumptions?
~
DESIGN INPUTS (Continued)
- 27.
Does the calculation rely on Attachments for design inputs or assumptions? If yes, are
~
the attachments properly referenced in the calculation?
- 28.
Are input sources (including industry codes and standards) appropriately selected and
~
are they consistent with the quality classification and objective of the calculation?
- 29.
Are input sources (including industry codes and standards) consistent with the plant's
~
design and license basis?
- 30.
If applicable, do design inputs adequately address actual plant conditions?
~
- 31.
Are input values reasonable and correctly applied?
~
- 32.
Are design input sources approved?
~
The Cimarron design is currently at 60% completion.
- 33.
Does the calculation reference the latest revision of the design input source?
~
- 34.
Were all applicable plant operating modes considered?
~
ASSUMPTIONS
- 35.
Are assumptions reasonable/appropriate to the objective?
~
- 36.
Is adequate justification/basis for all assumptions provided?
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- 37.
Are any engineering judgments used?
~
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2 E1tcellence-Every project Every day CHECKLIST PAGE NO.
4of7 CHECKLIST ITEMS1 YES NO N/A
- 38.
Are engineering judgments clearly identified as such?
Engineering judgement applied to factors used in potential intake calculation using
~
NUREG-1400 methodology.
- 39.
If engineering judgments are utilized as design inputs, are they reasonable and can they be quantified or substantiated by reference to site or industry standards,
~
engineering principles, physical laws or other appropriate criteria?
METHODOLOGY
- 40.
Is the methodology used in the calculation described or implied in the plant's licensing
~
basis?
41.
If the methodology used differs from that described in the plant's licensing basis, has
~
the appropriate license document change notice been initiated?
- 42.
Is the methodology used consistent with the stated objective?
~
- 43.
Is the methodology used appropriate when considering the quality classification of the
~
calculation and intended use of the results?
BODY OF CALCULATION
- 44.
Are equations used in the calculation consistent with recognized engineering practice
~
and the plant's design and license basis?
- 45.
Is there reasonable justification provided for the use of equations not in common use?
Equations applied in this evaluation are in common use in the industry.
~
- 46.
Are the mathematical operations performed properly and documented in a logical
~
fashion?
- 47.
Is the math performed correctly?
~
- 48.
Have adjustment factors, uncertainties and empirical correlations used in the analysis
~
been correctly applied?
- 49.
Has proper consideration been given to results that may be overly sensitive to very small changes in input?
Results generated by calculations performed in this evaluation are not significantly
~
affected by minor perturbations of variables.
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CHECKLIST PAGE NO.
5 of 7 CHECKLIST ITEMS1 YES NO N/A SOFTWARE/COMPUTER CODES
- 50.
Are computer codes or software languages used in the preparation of the calculation?
t8l 51.
Have the requirements of CSP 3.09 for use of computer codes or software languages, t8l including verification of accuracy and applicability been met?
SOFTWARE/COMPUTER CODES (Continued)
- 52.
Are the codes properly identified along with source vendor, organization, and revision t8l level?
- 53.
Is the computer code applicable for the analysis being performed?
t8l
- 54.
If applicable, does the computer model adequately consider actual plant conditions?
t8l
- 55.
Are the inputs to the computer code clearly identified and consistent with the inputs and t8l assumptions documented in the calculation?
- 56.
Is the computer output clearly identified?
t8l
- 57.
Does the computer output clearly identify the appropriate units?
The output units are not identified in the output document. Tallies have been modified through multipliers and dose response functions. This process has been adequately t8l documented within this calculation.
- 58.
Are the computer outputs reasonable when compared to the inputs and what was expected?
Only basic functions and operations in Microsoft Excel 2013 were applied in this t8l calculation.
- 59.
Was the computer output reviewed for ERROR or WARNING messages that could t8l invalidate the results?
RESULTS AND CONCLUSIONS
- 60.
Is adequate acceptance criteria specified?
No acceptance criteria required for this evaluation.
t8l
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6 of 7 CHECKLIST ITEMS1 YES NO N/A
- 61.
Are the stated acceptance criteria consistent with the purpose of the calculation, and lZJ intended use?
- 62.
Are the stated acceptance criteria consistent with the plant's design basis, applicable lZJ licensing commitments and industry codes, and standards?
- 63.
Do the calculation results and conclusions meet the stated acceptance criteria?
lZJ
- 64.
Are the results represented in the proper units with an appropriate tolerance, if lZJ applicable?
- 65.
Are the calculation results and conclusions reasonable when considered against the lZJ stated inputs and objectives?
- 66.
Is sufficient conservatism applied to the outputs and conclusions?
lZJ
- 67.
Do the calculation results and conclusions affect any other calculations?
No ENERCON calculations are affected by this evaluation.
lZJ
- 68.
If so, have the affected calculations been revised?
lZJ
- 69.
Does the calculation contain any conceptual, unconfirmed or open assumptions lZJ requiring later confirmation?
- 70.
If so, are they properly identified?
lZJ DESIGN REVIEW 71.
Have alternate calculation methods been used to verify calculation results?
lZJ Note:
- 1. Where required, provide clarification/justification for answers to the questions in the space provided below each question. An explanation is required for any questions answered as "No' or "N/A".
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Excellence-Every project Every day.
CHECKLIST PAGE NO.
7 of 7 Originator:
Jay Maisler 12/12/2019 Print Name and Sign Date
~
~
Cimarron Environmental Response Trust environmental properties management. LLC Radiation Protection Plan Document No. RPP-001 Rev.4 Effective date:
Appendix B Page B-1 APPENDIX B DOSE RATE NEAR URANIUM TREATMENT TRAIN (EPM017-CALC-001)
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PAGE NO.
1 of 15 Client:
Cimarron Environmental
Title:
Dose Rate Near Uranium Treatment Train Response Trust Project Identifier:
EPM017 Item Cover Sheet Items Yes No 1
Does this calculation contain any open assumptions, including preliminary LJ
!XI information, that require confirmation? (If YES, identify the assumptions.)
2 Does this calculation serve as an "Alternate Calculation"? (If YES, identify the LJ
!XI design verified calculation.)
Design Verified Calculation No.
3 Does this calculation supersede an existing Calculation? (If YES, identify the LJ
[Z]
design verified calculation.)
Superseded Calculation No.
Scope of Revision:
Initial Issue Revision Impact on Results:
Initial Issue Study Calculation Final Calculation [Z]
Safety-Related LJ Non-Safety-Related [Z]
(Print Name and Sign)
Originator: Caleb Trainor
{_;:g>.,*-*:
Date:
12/21/2015 gt-~
Date:
12/23/2015 Design Reviewer: John Hawkinson Approver: Jay Maisler, CHP rfPt,., : 0.,._
Date:
12/23/2015 CSP 3.03 Revision 1 Attachment A
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REVISION STATUS SHEET PAGE NO.
2 of 15 CALCULATION REVISION STATUS REVISION DATE DESCRIPTION 0
12/21/2015 Initial Issue PAGE REVISION STATUS PAGE NO.
REVISION PAGE NO.
REVISION APPENDIX/ATTACHMENT REVISION STATUS APPENDIX NO.
NO.OF REVISION ATTACHMENT NO.OF REVISION PAGES NO.
NO.
PAGES NO.
CSP 3.03 Revision 1 Attachment B
CALCULATION TABLE OF CONTENTS
.~ ENERCON E.xce/Jence-Every project. Every day.
Section
1.0 Purpose and Scope
TABLE OF CONTENTS 2.0 Summary of Results and Conclusions 3.0 References 4.0 Assumptions 5.0 Design Inputs 6.0 Methodology 7.0 Calculations 8.0 Computer Software List of Attachments MCNP6 Input Email Correspondence MCNP6 Output CALC NO.
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4 4
4 4
6 7
10 15
- of pages 1
2 58
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4 of 15
1.0 Purpose and Scope
The purpose of this calculation is to determine the radiation level surrounding a resin vessel array used to extract uranium contamination from groundwater at the Cimarron Site, hereby referred to as a uranium treatment train. The results of this calculation represent the highest anticipated dose rate an individual would be subject to while in the close vicinity of a uranium treatment train.
2.0 Summary of Results and Conclusions The highest anticipated dose rate in the vicinity of a uranium treatment train is calculated to be 0.024 mrem/hr.
3.0 References 3.1 MCNP6-1.0, Revision 00, MCNP6 Version 1.0 Acceptance Report, November 2014 3.2 LA-CP-13-000634, MCNP6 User's Manual, Version 1.0, May 2013 3.3 MicroShield 6.20 3.4 DTS-WPS-M-3100, AVANTech Drawing, '48" Process Vessel', Rev B, January 10, 2000 3.5 Vessel Use and U235 Accum Calc_DRAFT _ 16Oct15.xlsx, Vessel loading analysis provided as an Excel spreadsheet 3.6 PNNL-15870, Rev. 1, Compendium of Material Composition Data for Radiation Transport Modeling, March 4, 2011 3.7 Email correspondence with Kurian representative (attached) 3.8 BA 1 Isotopic Data for Enercon.xlsx, Isotopic abundance of Uranium source provided as an Excel spreadsheet 3.9 NUREG/BR-0150, Vol. 1, Rev. 4, RTM-96 Response Technical Manual, March 1996 3.10 Introduction to Health Physics, 4th ed., Herman Cember and Thomas E. Johnson, McGraw-Hill, 2009.
4.0 Assumptions 4.1 The resin vessel is approximated as a perfect right circular cylinder, maintaining the actual volume and clad thickness of the vessel. This is a minor simplification made for modeling purposes and is insignificant to the final dose rate.
4.2 The resin vessel is modeled as stainless steel 304. At the time of this calculation, the vessel was known to be composed of stainless steel, but the specific alloy was
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5 of 15 unknown. Stainless steel 304 was chosen as it is a popular alloy for nuclear vessels. The specific alloy of stainless steel has insignificant impact on shielding.
4.3 The mass of uranium assumed to be present in the resin vessels is based off of a draft calculation provided for this study. The calculation is performed in Excel spreadsheet "Vessel Use and U235 Accum Calc_DRAFT _ 16Oct15.xlsx" (Reference 3.5). From this calculation, the largest expected mass accumulation of uranium is 24,055 g of uranium at Burial Area 1 (BA 1) after the first full loading. The theoretical capacity of the resin used for the calculation is 29,589.01 grams.
The vessel loading calculations use an enrichment of 2% by weight. This value was chosen as a conservative bound for the actual 1.66% enrichment in order to remain conservative with respect to materials controls. The resin loading is not dependent on enrichment and the input values used in this calculation are not affected by this assumption.
4.4 The lead vessel is modeled assuming it is completely full to its theoretical capacity, ready to be removed and replaced with the lag vessel. The lag vessel is assumed to accumulate one week's worth of uranium, due to a one week period between sampling intervals. The accumulation in the first week of loading in the lead vessel is used to define one week's worth of accumulation. This is conservative as the uranium loading rate decreases with time; as the concentration of contaminants in the fluid passed through the vessels decreases, the resin removes a lower volume of uranium. The polishing vessel is assumed to provide negligible dose rate contribution due to the significant distance and low accumulation of uranium.
4.5 The uranium is assumed to be evenly distributed through the resin vessel.
4.6 The DOWEX-1 resin is approximated as polystyrene. For shielding purposes, this media is roughly equivalent. The mass of resin used is provided in Reference 3.5.
The resin is assumed to fill the vessel and is homogenized, while maintaining mass, for modeling purposes.
4.7 The shielding provided by the vessel clad and resin are modeled. The shielding which would be provided by the water and additional piping inside the vessel has been omitted. Miscellaneous piping and structures outside the vessels are also omitted. The lack of additional shielding provides a conservative estimate, which results in a higher estimation of dose rate.
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6 of 15 4.8 All alpha and beta particles are shielded by the 3/8 inch stainless steel walls of the resin vessel and do not contribute to the final dose rate.
4.9 The spontaneous fission rate for the uranium isotopes is sufficiently low (3.5 n/s per kg U-234, 0.31 n/s per kg U-235 and 7.0 n/s per kg U-238) that the neutron dose rate can be disregarded.
5.0 Design Inputs 5.1 Resin Vessel Properties The following properties are taken from Reference 3.4.
Vessel Diameter-48 in Volume=54.5 ft3 The following properties are taken from Reference 3. 7.
5.2 Source Characteristics Vessel Clad=3/8 in Vessel Spacing=48 in (96 in on center)
The following source characteristics are taken from Reference 3.5 Media Capacity=39.52 g U/kg Media Mass used=748.7 kg The following isotopic abundances by mass percent are taken from Reference 3.8.
U234= 0.01 U235= 1.66 U23a= 98.33 The following specific activities are taken from Table E-4 of Reference 3.9.
5.3 Material Definitions U234= 6.19 E+03 µCi/g U235= 2.14 E+00 µCi/g U23a= 3.33 E-01 µCi/g The following material definitions are taken from Reference 3.6.
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7 of 15 Table 5.1: Composition of Polystyrene (Density homogenized to 0.485139 glee)
Nuclide Weight Fraction Hydrogen 0.077421 Carbon 0.922579 Table 5.2: Composition of Stainless Steel 304 (Density of 8.0 glee)
Nuclide Weight Fraction Carbon 0.000400 Silicon 0.005000 Phosphorus 0.000230 Sulphur 0.000150 Chromium 0.190000 Manganese 0.010000 Iron 0.701730 Nickel 0.092500 5.4 Resin Vessel Loading The first week's loading of the resin vessel is 3,706 grams of uranium. After the first full loading, the vessel contains 24,055 grams of uranium. These values are taken from Reference 3.5.
6.0 Methodology 6.1 Source Term The activity by isotope is determined using the mass abundance of each isotope from Reference 3.8 and applying the specific activities from Reference 3.9. These activities are entered into MicroShield 6.20 (Reference 3.3) to produce a list of gamma emission energies and activity in photons per second. These energies correspond to the energy bins defined in the MCNP6 (Reference 3.2) source term distribution. The activity in photons per second correspond to the energy distribution probabilities defined in the MCNP6 source term.
6.2 Shielding Evaluation The MCNP6 code is used to model the resin vessel and cylindrical source term inside the vessel. The interior of the vessel is modeled as homogenized polystyrene. Outside of the vessel is comprised of dry air, characteristic of near sea level. Two point detectors used, one located mid height of the vessel, 12 inches (30.48 cm) from the outer surface of the vessel and another located 96 inches
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8 of 15 (283.84 cm) offset laterally. The first detector represents the dose rate contribution from the modeled vessel (the lead vessel), the second detector represents the dose rate contribution from the lag vessel. Figures 6.1 and 6.2 are representative of the MCNP6 input.
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Figure 6.1: Z-plane of Modeled Geometry L
Cross section of z-plane
@ 69.19745cm 0
II Detector F25......... *
(91.43,243.84, 69.19745)
Cylindrical resin vessel centered at (0,0,0).
Inner radius=60.0075cm Outer radius=60.9600cm Outer Clad layer
\\
'"""\\.c.,.1a111d*la*ye*r~llfl-....._
Y=O Detector F 15 (91.43,0,69.19745) l 0
9 of 15
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10 of 15 Figure 6.2: Y-Plane of Modeled Geometry Outer Clad layer Inner Clad later 0
II X Cylindrical resin vessel centered at (0,0,0).
Inner radius=60.0075cm Outer radius=60.9600cm Z=138.3949 z
X Cross section of y-plane @ 0cm Detector F15 (91.43000,0, 69.19745)
Z=O 7.0 Calculation 7.1 Source Development The activity of each isotope is found using the Equation 7.1.
Equation 7. 1
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11 of 15 Where Ai is equal to activity of each isotope, in µCi, Ui is the mass of uranium isotope i, and SAi is equal to the specific activity of uranium isotope i.
The mass of each isotope in a full resin vessel is found using Equation 7.2.
Ulg) = Media capacity (Uk~))* Media mass (kg)* wi Equation 7. 2 Where Wi represents the isotopes abundance by weight percent. Solving for the three isotopes; (U(g))
U234(g) = 39.52 ~
- 748.7 (kg)* 0.0001 = 2.958 g U234
( U(g))
U235(g) = 39.52 ~
- 748.7 (kg)* 0.0166 = 491.177 g U235 (U(g))
U238(g) = 39.52 ~
- 748.7 (kg)* 0.9833 = 29094.873 g U238 Using these values, and the specific activities defined in Design Input 5.2, Equation 7.1 is solved for the three isotopes;
( µCi)
Au = 2.958 (g)
- 6190 -
= 1.83
- 104 µCi 234 g
( µCi)
Au235 = 491.177 (g)
- 2.140 g = 1.05
- 103µCi
( µCi)
Au238 = 29094.873(9)
- 0.333 g = 9.69
- 103 µCi With the activities determined, MicroShield 6.20 is used to define gamma emission energies and emission frequencies. The MicroShield output is listed in Table 7.1.
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12 of 15 Table 7.1: Gamma Emissions from Uranium source Energy (MeV)
Activity (Photons/sec) 0.013 7.112E+07 0.013 3.166E+07 0.013 1.201E+07 0.0532 7.990E+05 0.0664 3.478E+05 0.0727 4.273E+04 0.09 1.060E+06 0.0933 1.732E+06 0.105 8.014E+05 0.1091 5.827E+05 0.12 5.827E+04 0.1214 2.712E+05 0.1408 8.547E+04 0.1438 4.079E+06 0.1633 1.826E+06 0.1827 1.554E+05 0.1857 2.098E+07 0.1904 3.572E+05 0.1949 2.292E+05 0.2021 3.885E+05 0.2053 1.826E+06 0.2214 3.885E+04 7.2 MCNP6 Input Development 7.2.1 Geometry Specifications The only resin vessel modeled is the lead vessel. Since the lead vessel accumulates the most uranium, the area of interest is directly in front of the lead vessel. A detector is placed halfway up the vessel, 12 inches (30.48 cm) from the outer surface of the vessel. To model the dose rate contribution from the lag vessel, a second detector is placed at the same height, offset laterally by 96 inches (283.84 cm). The inner and outer clad layers represent the vessel clad, seperated into two layers for variance reduction purposes.
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13 of 15 The geometry between the modeled vessel and the second detector is equivalent to the geometry between the lag vessel and the dose rate point of interest. The second detector tally will be scaled accordingly to represent the source term which would be present in the lag vessel.
The lead vessel is modeled using two concentric right circular cylinders with a separation of 3/8 inches around the top, sides, and bottom. The dimensions of the interior cylinder are calculated, preserving the defined vessel volume and diameter.
Vol= hi* rrr/
Equation 7. 4 Where; D - (2
- clad) ri=---2---
Solving for hi; Vol= 54.5 ft 3 48 in. -(2 *~in.)
2 23.625 in in3 54.5 ft 3
- 1728 ft3 hi= 3.14159 * (23.625 in) 2 = 53*7362 m The clad thickness is accounted for in the dimensions for the outer cylinder in the following equations.
h0 = hi + 2
- Clad
= 53.7362 in+ 2
- 3/ 8 in= 54.4862 in
= 23.625 in+ 3/ 8 in= 24 in For variance reduction purposes, a third right circular cylinder is included.
This cylinder divides the vessel clad into two equal layers, shown as the "inner clad layer" and "outer clad layer in Figures 6.1 and 6.2. The following excerpt from the MCNP6 input deck shows the cell and surface cards which define the geometry described above.
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14 of 15 Figure 7.1: Cell and Surface Cards from Input Deck c cells 10 2 -0.485139 -100 50 1 10 100 11 1 10110100 30 0 -300 101 40 0 300 c surfaces i mp:J>=l i mp:J>=2 i mp:1)=4 i mp:1)=8 i mp:J)=O 100 RCC 0 0 0.9525 0 0 136.4899 60.0075 10 RCC 0 0 0.47625 0 0 136.96615 60.48375 101 RCC 0 0 0 0 O 138.3949 60.96 102 s 91. 43 0 69.19745 20 103 s 91.43 243.84 69.19745 20 300 RPP -65 100 -65 250 0 150 7.2.2 Source Definition
$Resin (polystyrene) inside vessel Sss 304 layer Sss 304 vessel clad
$Void
$Boundary
$Interior cylinder of resin vessel, Slayer used for variance reducti on Souter cylinder of resin vessel
$Detector 1 void
$Detector 2 void
$Bounding Area The source is defined as a photon source, evenly distributed within a right circular cylinder equivalent to the interior cylinder of the resin vessel. The values in Table 7.1 are used to define the energy and probability of gamma particles in this area. The terms axs, pos, rad, and ext define the vector, base position, radius and height of the source term respectively.
Figure 7.2: Source Definition from Input Deck c source Definition SDEF PAR=P axs=0 0 1 pos=O 0 0 rad=dl ext=d2 erg=d3 cel=l0 Sil 0 60. 0075
$Cylindri cal source located inside inner cylinder SI2 0.9525 137.4424 SI3 L 0.13. 013.013.0532.0664.0727.09.0933.105
.1091.12.1214.1408.1438.1633.1827.1857.1904
.1949.2021.2053.2214
$Discrete energy distribution based on gamma energies from Microshield SP3 7.112e7 3.166e7 1.201e7 7.990e5 3.478e5 4.273e4 1.060e6 1.732e6 8.014e5 5.827e5 5.827e4 2.712e5 8.547e4 4.079e6 1.826e6 1.554e5 2. 098e7 3.572e5 2.292e5 3.885e5 1.826e6 3.885e4 7.2.3 Tally Definitions
$Gamma emission frequency from Microshield Two tallies are used to find the total dose rate. The first tally is located mid height and one foot away from the modeled lead resin vessel. The second tally is located in the equivalent position on the lag resin vessel (not modeled). Using these tallies, the total dose rate is equal to the summation of the first and second tally.
A tally multiplier of 1.504 E+08 is applied to the first tally. This value is equal to the summation of column 2 of Table 7.1 and scales the results to the source strength. A tally multiplier of 2.568 E+07 is applied to the second tally.
This is approximately 15% of the source strength used for the first tally. This tally represents the dose rate contribution of the lag vessel, acting as the primary resin vessel for one week's time per Assumption 4.4. A ratio of 15%
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15 of 15 is equivalent to the ratio of the first weeks vessel loading compared to a fully loaded vessel. The values from Design Input 5.4 are used to determine this ratio.
An MCNP6 dose response function is also applied to all tallies. This function sorts the tallies into energy bins, applies dose conversion factors from ANSI 6.1.1-1977, and sums all the bins. Due to the tally multiplier and dose function, the output of the tallies is in rem per hour. Figure 7.3 shows the tally definitions from the input deck.
Figure 7.3: Tally Definitions from Input Deck c Tally Defi nition
$Point Detector, mid height of vessel, one foot away F15:p 91.43 0 69.19745 10 F25:p 91. 43 243.84 69. 19745 10 C FM15 l.5045072E8 FM25 2. 2567608e7 C
$Point Detector, mid height of vessel, one foot away, 96" offset
$equivalent to dose contribution from lag vessel
$Tally multiplier equivalent to summation of all gamma emission frequencies
$Source scaled to one week of buildup in lag vessel c
ANSI 6.1.1-1977 Gamma Flux to Dose conversi on Factors, using us units c
(rem/ hr)/(photons/ cm2-s) df0 IU 1 IC 20 Sseperates tally into energy bins, appl i es conversion factors and sums 7.3 Dose Rates The estimated dose rates present near the uranium treatment train are presented in Table 7.2.
Table 7.2: Dose Rate Tank Contribution Equivalent Tally Dose Rate (rem/hr)
Lead tank F15 2.392 E-05 Lag tank F25 4.974 E-07 Total Dose Rate 2.442 E-05 (.02442 mrem/hr) 8.0 Computer Software MCNP6 is used for shielding analysis in this calculation. It is verified and validated for use (Reference 3.1 ).
MicroShield 6.20 is used for calculating gamma emission energies and frequencies.
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EPM017-CALC-001 ENERCON Excellence-Every p:oJecr. Every day.
Dose Rate Near Uranium Treatment Train REV.
0 Attachment A MCNP6 Input cinanarron Resin Bed c cells 10 2 -0.485139 -100 50 1 10 100 11 1 101 10 100 30 0 -300 101 40 0 300 c surfaces Dose Estimation imp:J>=l imp:J>=2 imp:J>=4 imp:p,-8 imp:J>=0 100 RCC 0 0 0.9525 0 0 136.4899 60.0075 10 RCC 0 0 0.47625 0 0 136.96615 60.48375 101 RCC 0 0 0 0 0 138.3949 60.96 102 S 91.43 0 69.19745 20 103 s 91.43 243.84 69.19745 20 300 RPP -65 100 -65 250 0 150 c Data Mode P nps 10e6 C c Material Definitions Ml 6000 -0.000400 14000 -0.005000 15000 -0.000230 16000 -0.000150 24000 -0.190000 25000 -0.010000 26000 -0.701730 28000 -0.092500 M2 1000 -0.077421 6000 -0.922579 C
c source Definition SDEF PAR=P axs=0 0 1 pos=O 0 0 rad=dl ext=d2 erg=d3 cel=l0 Sil 0 60.0075 SI2 0.9525 137.4424 SI3 L 0.13.013.013.0532.0664.0727.09.0933.105
.1091.12.1214.1408.1438.1633.1827.1857.1904
.1949.2021.2053.2214 SP3 7.112e7 3.166e7 1.201e7 7.990e5 3.478e5 4.273e4 1.060e6 1.732e6 8.014e5 5.827e5 5.827e4 2.712e5 8.547e4 4.079e6 1.826e6 1.554e5 2.098e7 3.572e5 2.292e5 3.885e5 l.826e6 3.885e4 C
c Tally Definition Fl5:p 91.43 0 69.19745 10 F25:p 91.43 243.84 69.19745 10 C
FM15 1. 5045072E8 FM25 2.2567608e7 C
$Resin (polystyrene)
Sss 304 layer sss 304 vessel clad Svoid
$Boundary PAGE NO.
1 of 1 inside vessel
$Interior cylinder of resin vessel, 3/8" (0. 9525cm) off of floor to accomodate vessel clad
$Layer used for variance reduction Souter cylinder of resin vessel
$Detector 1 void
$Detector 2 void
$Bounding Area Sss 304
$Polystyrene
$cylindrical source located inside inner cylinder
$Discrete energy distribution based on gamma energies from Microshield
$Gamma emission frequency from Microshield
$Point Detector, mid height of vessel, one foot away
$Point Detector, mid height of vessel, one foot away, 96" offset Sequivalent to dose contribution from lag vessel
$Tally multiplier equivalent to summation of all gamma emission frequencies
$Source scaled to one week of buildup in lag vessel c
ANSI 6.1.1-1977 Gamma Flux to oose conversion Factors, using us units c
(rem/hr)/(photons/cm2-s) df0 IU 1 IC 20 Sseperates tally into energy bins, applies conversion factors and sums
I CALC NO.
EPM017-CALC-001 ENERCON Dose Rate Near Uranium REV.
Treatment Train Excellence-Evtry pro1ecr. Every day.
PAGE NO.
Attachment B Email Correspondence Caleb Trainor From:
Sent To:
Cc
Subject:
- Caleb, Ja-Kael Luey <iluey@kurion.com>
Thursday, December 03, 2015 10:38 AM Caleb Trainor Charles Beatty;jlux@envpm.com; Ja-Kael Luey RE: <EXTERNAL> RE: Resin Vessel Dimensions If you are doing dose calculations use the following in lieu of specific information (which may be proprietary from AVANTech but I have not had a chance t o check).
Wall Thickness-3/s* This is the wall thickness for Kurion's standard 36-inch vessel that has a similar working pressure. It is possible the AVANTech wall thickness is thicker so your dose calculation will be bounding. For dose purposes and alpha, not sure if the liner material wm make much of a difference in your cakulation.
Spacing: DWG-Mll0 is the drawing that I thought had the separation distance on it. Looks like t his was not a crit ical element to have on the drawing; however, based on the scale the distance is edge-to-edge as the gap looks to be the same as the ISM Vessel (which is 48-inches).
Ja-Kael From: Caleb Trainor (mailto:ctrainor@enercon.com]
Sent: Thursday, December 03, 201S 7:00 AM To: Ja-Kael Luey <jluey@kurion.com>
Subject:
RE: <EXTERNAL> RE: Resin Vessel Dimensions Thank you for the information, this is much doser to what I need. I am still left w ith a few questions however. Out er diameter is listed but no inner diameter; a liner is also mentioned but again no thickness or material. I assume t he 48n spacing is edge to edge, or 96n on center, correct? It will be easy for me to calculate dose for any other spacing you give me, but a change in spacing is ultimately a crit safety concern, not dose.
From: Ja-Kael Luey (mailto:jluey@kurion.com]
Sent: Wednesday, December 02, 2015 11:22 PM To: Caf.eb Trainor <ctrainor@enercon.com>
Cc: Charles Beatty <cbeatty@enercon.com>; jlux@envpm.com; Ja-Kael Luey <jluey@kurion.com>
Subject:
<EXTERNAL> RE: Resin Vessel Dimensions
- Caleb, Please find attached the drawing that is the basis for the ISM Vessels used in the design. The spacing between the vessels is 48~ from the General Assembly drawing {I can provide the specific reference when I am back in the office Thursday if you do not have the full set). This separation is based on meetings held with Enercon and not a specific-cited document. From a spacing standpoint it would be better if this could be smaller, especially for t he BA Unit since it is fit into an enclosure.
Ja-Kael From: Caleb Trainor (mailto:ctrainor@enercon.com)
Sent: Wednesday, December 02, 2015 6:34 AM 0
1 of 2
ENERCON Excellence-Every project. Every doy.
To: Ja-Kael Luey <jluey@kurion.com>
Dose Rate Near Uranium Treatment Train Cc: Charles Beatty <cbeatty@enercon.com>; jlux@envpm.com
Subject:
Resin Vessel Dimensions CALC NO.
EPM017-CALC-001 REV.
0 PAGE NO.
2 of 2 In support of dose calculations off the resin vessels, I am in need of the vessel dimensions, vessel material, and spacing between the vessels. The design drawings I have so far only detail the piping, and not the vessels. Can you help me get a hold of this information?
Caleb Trainor Emergency Preparedness Engineer (o) (813) 962-1800 ext. 207 ENERCON
CALC NO.
'l ENERCON Dose Rate Near Uranium REV.
Treatment Train Excellence-ivery proJect. Every day.
PAGE NO.
Attachment C MCNP6 Output Code Name & Version = MCNP6, 1.0
_/
_/
_/_/ _/_/
_/ _/ _/
_/
_/
_/
_/
_/_/_/
_/
_/
_/
_/_/_/
_/
_/
_/_/
_/
_! _/ _/
_/ _/_/
_/
_/
_/_/_/
_/
_/_/_/
_/_/_/
_/
_/
_/_/_/
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_/ _/
_/
_/_/
+---------------------+
Copyright 2008. Los Alamos National Security, LLC. All rights reserved.
I This material was produced under U.S. Government contract I
DE-AC52-06NA25396 for Los Alamos National Laboratory, which is operated by Los Alamos National Security, LLC, for the U.S.
I Department of Energy. The Government is granted for itself and others acting on its behalf a paid-up, nonexclusive, irrevocable I worldwide license in this material to reproduce, prepare derivative I works, and perform publicly and display publicly. Beginning five I (5) years after 2008, subject to additional five-year worldwide I
renewals, the Government is granted for itself and others acting on I its behalf a paid-up, nonexclusive, irrevocable worldwide license I in this material to reproduce, prepare derivative works, distribute I copies to the public, perform publicly and display publicly, and to I permit others to do so. NEITHER THE UNITED STATES NOR THE UNITED I STATES DEPARTMENT OF ENERGY, NOR LOS ALAMOS NATIONAL SECURITY, LLC, I NOR ANY OF THEIR EMPLOYEES, MAKES ANY WARRANTY, EXPRESS OR IMPLIED, I OR ASSUMES ANY LEGAL LIABILITY OR RESPONSIBILITY FOR THE ACCURACY, I COMPLETENESS, OR USEFULNESS OF ANY INFORMATION, APPARATUS, PRODUCT, I OR PROCESS DISCLOSED, OR REPRESENTS THAT ITS USE WOULD NOT INFRINGE I PRIVATELY OWNED RIGHTS.
I
+------------------+
EPM017-CALC-001 0
1 of 58
CALC NO.
ENERCON Dose Rate Near Uranium REV.
~ "
Treatment Train Excellence-every project. Every day.
PAGE NO.
1 mcnp version 6 ld=05/08/13 12/15/15 16:46:08 probid = 12/15/15 16:46:08 i=cim.txt o=cim.out tasks 8 warning.
1-2-
3-4-
5-6-
7-8-
9-10-11-12-13-14-15-16-17-18-19-20-21-22-23-24-25-26-27-Physics models disabled.
Cimmarron Resin Bed Dose Estimation C Cells 10 2 -0.485139 -100 50 1 10 100 111-8-10110100 30 0 -300 101 40 0 300 c Surfaces imp:p=1 imp:p=2 imp:p=4 imp:p=8 imp:p=0 100 RCC 0 0 0.9525 0 0 136.4899 60.0075 10 RCC 0 0 0.47625 0 0 136.96615 60.48375 101 RCC 0 0 0 0 0 138.3949 60.96 102 S 91.43 0 69.19745 20 103 S 91.43 243.84 69.19745 20 300 RPP -65 100 -65 250 0 150 c Data Mode P nps 10e6 C
c Material Definitions
$Resin (poly
$SS 304 laye
$SS 304 vess
$Void
$Boundary
$Interior cy
$Layer used
$Outer cylin
$Detector 1
$Detector 2
$Bounding Ar M1 6000 -0.000400 14000 -0.005000 15000 -0.000230
$SS 304 16000 -0.000150 24000 -0.190000 25000 -0.010000 26000 -0.701730 28000 -0.092500 M2 1000 -0.077421 6000 -0.922579
$Polystyrene C
c Source Definition EPM017-CALC-001 0
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CALC NO.
~ ENERCON Dose Rate Near Uranium REV.
Excellence-i very pro1ecr. Every doy.
Treatment Train PAGE NO.
28-29-30-31-32-33-34-35-36-37-38-39-40-41-42-43-44-45-46-47-48-SDEF PAR=P axs=0 0 1 pos=0 0 0 rad=d1 ext=d2 erg=d3 cel=10
$Cylindrical Sl1 0 60.0075 Sl2 0.9525 137.4424 Sl3 L 0.13.013.013.0532.0664.0727.09.0933.105
$Discrete en
.1091.12.1214.1408.1438.1633.1827.1857.1904
.1949.2021.2053.2214 SP3 7.112e7 3.166e7 1.201e7 7.990e5 3.478e5 4.273e41.060e6
$Gamma emiss 1.732e6 8.014e5 5.827e5 5.827e4 2.712e5 8.547e4 4.079e6 1.826e6 1.554e5 2.098e7 3.572e5 2.292e5 3.885e5 1.826e6 3.885e4 C
c Tally Definition F15:p 91.43 0 69.19745 10 F25:p 91.43 243.84 69.19745 10 C
FM15 1.5045072E8 FM25 2.2567608e7 C
$Point Detec
$Point Detec
$equivalent
$Tally multi
$Source seal c ANSI 6.1.1-1977 Gamma Flux to Dose Conversion Factors, using US units c (rem/hr)/(photons/cm2-s) dfO IU 1 IC 20
$Seperates t surface 100.2 and surface 10.2 are the same.
10.2 will be deleted.
surface 101.3 and surface 300.6 are the same.
300.6 will be deleted.
comment.
2 surfaces were deleted for being the same as others.
warning.
1 materials had unnormalized fractions. print table 40.
1 cells print table 60 atom gram photon cell mat density density volume mass pieces importance EPM017-CALC-001 0
3 of 58
CALC NO.
t.>> ENERCON Dose Rate Near Uranium REV.
Excellence-ivery proJect. Every day.
Treatment Train 1
10 2
50 3
11 4
30 5
40 2 4.48803E-02 4.85139E-01 1.54405E+06 7.49079E+05 1 8. 76841 E-02 8.00000E+00 3.00795E+04 2.40636E+05 1 8. 76841 E-02 8.00000E+00 4.15670E+04 3.32536E+05 0 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 0 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 total 1.61570E+06 1.32225E+06 warning. surface 102.0 is not used for anything.
warning. surface 103.0 is not used for anything.
minimum source weight= 1.0000E+00 maximum source weight= 1.0000E+00
- Random Number Generator =
- Random Number Seed
=
- Random Number Multiplier =
- Random Number Adder
=
- Random Number Bits Used =
- Random Number Stride
=
1
- 19073486328125
- 19073486328125
- O*
48
- 152917
- comment. threading will be used when possible in portions of mcnp6.
comment. threading will be used for n/p/e table physics.
comment. threading will generally not be used for model physics.
PAGE NO.
1 1.0000E+00 1 2.0000E+00 1 4.0000E+00 0 8.0000E+00 0 0.0000E+00 4 warning messages so far.
1 cross-section tables print table 100 XSDIR used: C:\\MCNP\\MCNP _DATNxsdir_mcnp6.1 EPM017-CALC-001 0
4of 58
CALC NO.
EPM017-CALC-001 ENERCON Dose Rate Near Uranium REV.
'tr Treatment Train Excellence-ivery ptOJt!Cl. Evt:ry day.
PAGE NO.
table length tables from file xdata/mcplib84 1000.84p 1974 Update of MCPLIB04 Photon Compton Broadening Data For MCNP5 see LA-UR-12-00018 6000.84p 3228 Update of MCPLIB04 Photon Compton Broadening Data For MCNP5 see LA-UR-12-00018 14000.84p 4868 Update of MCPLIB04 Photon Compton Broadening Data For MCNP5 see LA-UR-12-00018 15000.84p 4574 Update of MCPLIB04 Photon Compton Broadening Data For MCNP5 see LA-UR-12-00018 16000.84p 4730 Update of MCPLIB04 Photon Compton Broadening Data For MCNP5 see LA-UR-12-00018 24000.84p 5758 Update of MCPLIB04 Photon Compton Broadening Data For MCNP5 see LA-UR-12-00018 25000.84p 5674 Update of MCPLIB04 Photon Compton Broadening Data For MCNP5 see LA-UR-12-00018 26000.84p 5794 Update of MCPLIB04 Photon Compton Broadening Data For MCNP5 see LA-UR-12-00018 28000.84p 5902 Update of MCPLIB04 Photon Compton Broadening Data For MCNP5 see LA-UR-12-00018 total 42502 maximum photon energy set to 100.0 mev (maximum electron energy) tables from file xdata/el03 1000.03e 2329 6000.03e 2333 14000.03e 2339 15000.03e 2339 16000.03e 2339 24000.03e 2345 25000.03e 2345 26000.03e 2345 28000.03e 2347 1 particles and energy limits 6/6/98 6/6/98 6/6/98 6/6/98 6/6/98 6/6/98 6/6/98 6/6/98 6/6/98 print table 101 particle maximum smallest largest always always cutoff particle table table use table use model 0
5 of 58 01/03/12 01/03/12 01/03/12 01/03/12 01/03/12 01/03/12 01/03/12 01/03/12 01/03/12
CALC NO.
ENERCON Dose Rate Near Uranium REV.
I, Treatment Train Excellence-every pro1ect. Every doy.
PAGE NO.
particle type energy energy maximum maximum below above 2 p photon 1.0000E-03 1.0000E+02 1.0000E+05 1.0000E+05 1.0000E+36 1.0000E+36 3 e electron 1.0000E-03 1.0000E+02 1.0000E+02 1.0000E+02 1.0000E+36 1.0000E+36 warning. material 1 has been set to a conductor.
dump no.
1 on file runtpe nps =
0 coll=
0 ctm =
0.00 nrn=
0 5 warning messages so far.
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 4.2865E-04 2.5000E-01 1.4603E+01 3.0014E-01 3.1687E+01 1.0000E+01 1.0341 E-01 11 29113 det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 14.6727E-042.5000E-01 2.9341E+01 6.9818E-01 3.5255E+01 1.0000E+01 1.0449E-01 11 37886 det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 4.3285E-04 2.5000E-01 2.9375E+01 7.7426E-01 3.5284E+01 1.0000E+01 1.0449E-01 11 37886 det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 7.1396E-04 2.5000E-01 2.9074E+01 3.7427E-01 3.3383E+01 1.0000E+01 1.8570E-01 11 99391 det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 15.0577E-042.5000E-01 7.5862E+01 1.0924E+00 4.4741E+01 1.0000E+01 1.3005E-01 11 202920 det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.2451 E-04 2.5000E-01 1.8136E+01 4.9620E-02 3.6183E+01 1.0000E+01 1.3000E-01 11 266011 det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc EPM017-CALC-001 0
6 of 58 6
117 6
2 36 6
4 67 6
3 45 6
4 79 6
8 111 6
CALC NO.
EPM017-CALC-001 ENERCON Dose Rate Near Uranium REV.
0 I
Treatment Train Exc;ellence-i very pro1ect, Every day.
PAGE NO.
7 of 58 2 7.3518E-05 2.5000E-01 8.4093E+01 8.6295E-02 2.0433E+02 1.0000E+01 1.1394E-01 11 267347 4
66 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 11.6404E-031.0000E+00 2.5645E+02 2.3748E+00 4.8113E+011.0000E+011.7341E-01 10 275363 3
54 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 11.4661E-032.5000E-01 6.2765E+01 5.1569E-01 3.1892E+01 1.0000E+01 1.1387E-01 11 289480 3
65 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 1 4.7999E-04 2.5000E-01 4.1311E+01 1.1433E+00 3.3039E+01 1.0000E+01 9.5904E-02 11 295930 3
60 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 1 5.3206E-03 2.5000E-01 1.4027E+02 7.2495E-02 3.1234E+01 1.0000E+01 1.8570E-01 11 313718 3
41 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 2 7.5842E-05 2.5000E-01 8.3107E+01 1.0047E-02 2.0776E+02 1.0000E+01 1.0709E-01 11 385577 4
71 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 2 1.4009E-04 2.5000E-012.5325E+024.0166E-012.1940E+021.0000E+01 1.7177E-01 11 388463 5
65 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 1 4.8092E-04 2.5000E-01 1.5055E+01 1.2837E-01 3.3098E+01 1.0000E+01 1.1808E-01 11 397905 3
61 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 2 6.9698E-05 5.0000E-01 1.3953E+02 1.3767E+00 2.0052E+02 1.0000E+01 1.3000E-01 50 571314 2
42 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 1 5.6973E-04 2.5000E-01 7.3557E+01 1.4935E+00 3.3967E+01 1.0000E+01 9.3916E-02 11 573255 6
88 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 1 2.9775E-03 2.5000E-01 8.8545E+01 1.9940E-01 3.1134E+01 1.0000E+01 1.0968E-01 11 674671 13 254 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 1 3.4525E-03 2.5000E-01 1.1223E+02 1.9960E-01 3.2548E+01 1.0000E+01 1.3000E-01 11 717579 2
48 6
CALC NO.
EPM017-CALC-001 ENERCON Dose Rate Near Uranium REV.
0 Treatment Train Excellence-ivery proJt!Ct. Every day.
PAGE NO.
8 of 58 det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 6.2456E-04 5.0000E-01 3.2244E+01 1.4263E+00 3.1413E+01 1.0000E+01 1.2246E-01 50 726168 3
45 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 1.6632E-041.0000E+00 2.2685E+02 1.6681E+00 2.0234E+021.0000E+011.4318E-01 10 812481 3
60 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.3368E-04 1.0000E+00 8.8019E+01 2.6691 E+00 4.2655E+01 1.0000E+01 1.3000E-01 10 860193 1
13 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 8.1664E-05 2.5000E-01 1.1185E+02 2.6078E-01 2.0491 E+02 1.0000E+01 1.8570E-01 11 864981 1
21 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.5431E-032.5000E-01 5.5340E+01 2.4316E-01 3.3450E+01 1.0000E+01 1.0500E-01 11 874440 6
101 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.2532E-04 2.5000E-01 1.5099E+01 4.8062E-02 3.3015E+01 1.0000E+01 1.3000E-01 11 911985 1
15 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 14.8100E-042.5000E-01 1.5132E+01 1.3574E-01 3.3059E+01 1.0000E+01 1.3000E-01 11 911985 2
23 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.5455E-03 2.5000E-01 7.6267E+01 5.5582E-01 3.3559E+01 1.0000E+01 9.8397E-02 11 959316 5
95 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 6.8770E-05 2.5000E-01 9.9724E+01 2.981 0E-01 2.0694E+02 1.0000E+01 1.2357E-01 11 991642 2
37 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.9707E-03 2.5000E-01 7.4492E+01 1.5406E-01 3.5907E+01 1.0000E+01 1.4937E-01 11 1035243 4
59 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.1657E-03 2.5000E-01 7.1482E+01 6.2134E-01 3.6204E+01 1.0000E+01 1.4937E-01 11 1035243 5
67 6
CALC NO.
EPM017-CALC-001
" ENERCON Dose Rate Near Uranium REV.
0 I
Treatment Train Excellence-ivery pro1ect. Every day.
PAGE NO.
9 of 58 det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 16.7144E-045.0000E-01 6.2578E+01 1.6644E+00 3.7469E+011.0000E+01 1.4380E-01 50 1078642 5
86 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 9.4945E-05 2.5000E-01 1.7751 E+02 5.5729E-01 2.0641 E+02 1.0000E+01 1.8018E-01 11 1087746 3
65 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 18.7006E-042.5000E-01 2.9759E+01 1.4314E-01 3.4342E+01 1.0000E+011.2527E-01 11 1111829 7
110 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 4.7657E-04 2.5000E-01 2.9136E+01 7.0819E-01 3.4614E+01 1.0000E+01 1.2527E-01 11 1111829 9
129 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.4361 E-03 2.5000E-01 8.6140E+01 2.7980E-01 4.2475E+01 1.0000E+01 1.2024E-01 11 1169084 4
84 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.0758E-04 2.5000E-01 2.4111 E+01 2.5089E-01 3.8349E+01 1.0000E+01 1.1081 E-01 11 1204350 5
99 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 7.1728E-04 5.0000E-01 9.5580E+01 1.9686E+00 3.8483E+01 1.0000E+01 1.4930E-01 50 1232639 3
59 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 7.5601 E-05 5.0000E-01 1.0312E+02 9.9309E-01 2.0052E+02 1.0000E+01 1.3000E-01 50 1318369 1
17 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.6998E-04 2.5000E-01 4.5313E+01 9.8667E-01 3.4341 E+01 1.0000E+01 1.0458E-01 11 1385745 4
88 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 6.6728E-05 1.0000E+00 9.3301 E+01 1.6266E+00 2.0916E+02 1.0000E+01 1.6869E-01 10 1395745 3
70 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.5334E-04 2.5000E-01 1.5005E+01 8.8175E-02 3.1430E+01 1.0000E+01 1.3375E-01 11 1430896 3
46 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc
CALC NO.
EPM017-CALC-001
'l ENERCON Dose Rate Near Uranium REV.
0 Treatment Train Excellence-ivery p101ect. Every day.
PAGE NO.
10 of 58 1 1.0282E-03 5.0000E-01 5.9984E+01 1.4429E+00 3.3116E+01 1.0000E+01 1.3000E-01 50 1572051 6
108 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 6.6336E-05 2.5000E-01 8.0864E+01 1.8158E-01 2.0112E+02 1.0000E+01 1.0217E-01 11 1588704 4
85 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.0668E-04 2.5000E-01 2.5289E+01 5.6608E-01 3.3578E+01 1.0000E+01 1.7126E-01 11 1655950 7
102 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 16.3800E-042.5000E-01 2.5121E+01 3.3871E-01 3.3414E+011.0000E+01 1.7126E-01 11 1655950 8
110 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 8.5434E-04 2.5000E-01 2.4413E+01 1.4079E-01 3.1427E+01 1.0000E+01 1.8570E-01 11 1664001 3
39 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 4.9346E-04 2.5000E-01 1.9930E+01 1.3594E-01 3. 7453E+01 1.0000E+01 1.8570E-01 11 1695063 1
20 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.1612E-03 5.0000E-011.2665E+02 1.8239E+00 3.7428E+011.0000E+011.4380E-01 50 1771399 6
99 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.2350E-04 2.5000E-01 7.0521 E+01 1.5161 E+00 3.4306E+01 1.0000E+01 9.8239E-02 11 1782361 16 292 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 9.3573E-05 2.5000E-01 1.0677E+02 5.8288E-02 2.0695E+02 1.0000E+01 1.1075E-01 11 1800281 2
40 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 15.0019E-042.5000E-01 3.6268E+01 4.2032E-01 4.3531E+011.0000E+01 1.2915E-01 11 1811526 13 236 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.2333E-04 2.5000E-01 2.9283E+01 2.1129E-01 4.2454E+01 1.0000E+01 1.7037E-01 11 1833593 8
136 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 1.5870E-04 5.0000E-01 1.6024E+02 6.9714E-012.0004E+021.0000E+01 1.7501E-01 50 1869062 2
38 6
CALC NO.
EPM017-CALC-001 ENERCON Dose Rate Near Uranium REV.
0 Treatment Train Excellence-ivery pro1ect. Every day.
PAGE NO.
11 of 58 det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 17.5992E-042.5000E-01 4.3218E+01 7.8143E-01 3.2184E+01 1.0000E+01 1.0812E-01 11 1925119 4
58 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 9.3520E-04 2.5000E-01 3.2528E+01 9.9967E-02 3.5387E+01 1.0000E+01 1.3000E-01 11 1925442 2
26 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 1.5937E-04 2.5000E-01 2.2703E+02 3.1759E-01 2.0312E+02 1.0000E+01 1.8570E-01 11 1956285 8
105 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 4.7675E-04 5.0000E-01 2.4336E+01 1.2345E+00 3.4381 E+01 1.0000E+01 1.8570E-01 50 2159382 3
40 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 2.0617E-03 5.0000E-01 9. 7782E+01 1.0548E+00 3.6255E+01 1.0000E+01 1.4656E-01 50 2166494 2
40 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.4699E-04 5.0000E-01 9.1756E+01 2.0320E+00 4.1829E+01 1.0000E+01 1.4091 E-01 50 2183252 5
80 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 16.1567E-042.5000E-01 5.8573E+01 1.0186E+00 3.6971E+011.0000E+01 9.2406E-02 11 2319969 7
124 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.2852E-03 2.5000E-01 1.3956E+02 7.2292E-01 4.5792E+01 1.0000E+01 1.8570E-01 11 2334214 2
44 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.1976E-03 5.0000E-01 5.3714E+01 1.2483E+00 3.2005E+01 1.0000E+01 1.2771 E-01 50 2355712 4
71 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.1893E-03 5.0000E-01 8.8997E+01 1.4704E+00 3.6995E+01 1.0000E+01 1.2044E-01 50 2443068 2
41 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.6740E-03 5.0000E-01 1.2254E+02 1.6349E+00 3.3701 E+01 1.0000E+01 1.3000E-01 50 2452650 5
92 6
CALC NO.
EPM017-CALC-001
.._ ENERCON Dose Rate Near Uranium REV.
0 Treatment Train Excellence-ivery pro1ect. Every day.
PAGE NO.
12 of 58 det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 6.1736E-05 2.5000E-01 1.1410E+02 5.3949E-01 2.0706E+02 1.0000E+01 1.4751 E-01 11 2497606 13 209 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 8.9798E-04 2.5000E-01 6.1676E+01 8.2533E-01 3.4601 E+01 1.0000E+01 1.3000E-01 11 2556120 2
46 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.2836E-04 2.5000E-01 1.9075E+01 1.7225E-01 3.4773E+01 1.0000E+01 1.1794E-01 11 2577928 3
55 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 3.2627E-03 5.0000E-01 1.9452E+02 9.4308E-01 4.2983E+01 1.0000E+01 1. 7960E-01 50 2625505 4
60 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.3011E-042.5000E-01 6.7960E+01 7.7162E-01 4.8559E+01 1.0000E+01 1.4380E-01 11 2647549 7
90 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 8.0678E-05 5.0000E-01 1.8015E+02 1.4568E+00 2.0347E+02 1.0000E+01 1.4380E-01 50 2729735 2
25 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.1116E-04 5.0000E-01 4.2447E+01 1.5137E+00 3.8136E+01 1.0000E+01 1.3000E-01 50 2780623 5
82 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 6.2670E-04 2.5000E-01 2.0365E+01 2.5639E-01 3.1631 E+01 1.0000E+01 1.3000E-01 11 2878562 2
24 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 16.8741E-042.5000E-01 9.0621E+01 9.0706E-01 4.6017E+01 1.0000E+01 1.4380E-01 11 2942792 11 207 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 3.2928E-03 2.5000E-01 1.1130E+02 2.9941 E-01 3.157 4E+01 1.0000E+01 1. 7372E-01 11 3091738 2
39 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 6.2637E-04 2.5000E-01 2.9437E+01 5.2772E-01 3.3214E+01 1.0000E+01 1.3000E-01 11 3116909 6
102 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc
CALC NO.
EPM017-CALC-001 g ENERCON Dose Rate Near Uranium REV.
0 Excellence-ivery pro1ect. f very day.
Treatment Train PAGE NO.
13 of 58 1 5.8600E-04 2.5000E-01 7.7180E+01 1.0494E+00 4.2836E+01 1.0000E+01 1.3000E-01 11 3134216 7
87 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 4.8181E-042.5000E-01 3.0576E+01 2.9797E-01 4.3294E+01 1.0000E+01 1.3000E-01 11 3161023 1
15 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.4533E-04 2.5000E-01 4.4832E+01 1.0679E+00 3.3531 E+01 1.0000E+01 1.0656E-01 11 3185384 9
161 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 6.3824E-05 2.5000E-01 7.9431 E+01 1.8690E-01 2.0267E+02 1.0000E+01 1.3000E-01 11 3185455 3
35 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 15.9247E-042.5000E-01 3.7973E+01 6.9944E-01 3.5596E+01 1.0000E+01 1.2844E-01 11 3195092 2
36 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 8.7236E-04 2.5000E-01 5.6743E+01 7.8042E-01 3.4437E+01 1.0000E+01 1.3000E-01 11 3220944 11 193 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 15.7987E-042.5000E-01 6.0033E+01 1.0150E+00 3.8636E+011.0000E+01 1.2286E-01 11 3245009 2
36 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 4.6707E-04 5.0000E-01 3.4993E+01 1.3552E+00 3.9211 E+01 1.0000E+01 1.6379E-01 50 3276500 2
36 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 4.8260E-04 5.0000E-01 3.1520E+01 1.4794E+00 3.4406E+01 1.0000E+01 1.2549E-01 50 3347693 4
71 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.1747E-04 5.0000E-01 4.9909E+01 1.4486E+00 4.2460E+01 1.0000E+01 1.3669E-01 50 3357499 4
90 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.2658E-03 5.0000E-01 8.5492E+01 1.4898E+00 3.4807E+01 1.0000E+01 1.3000E-01 50 3361939 1
16 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.3289E-03 2.5000E-01 8.5079E+01 7.6544E-01 3.4421 E+01 1.0000E+01 1.3000E-01 11 3361939 5
57 6
CALC NO.
EPM017-CALC-001
~ ENERCON Dose Rate Near Uranium REV.
0 E:.xcellencf!-ivery pro1ect. Every day.
Treatment Train PAGE NO.
14 of 58 det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 11.1435E-032.5000E-017.2440E+014.1929E-014.0711E+011.0000E+011.2771E-01 11 3367095 2
34 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 8.5953E-04 5.0000E-01 8.8525E+01 2.0934E+00 3.1785E+01 1.0000E+01 1.0117E-01 50 3394891 2
41 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 7.4288E-05 5.0000E-01 9.8099E+01 9.3087E-01 2.0353E+02 1.0000E+01 1.8570E-01 50 3442182 2
39 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.3308E-03 2.5000E-01 1.2372E+02 8.8648E-01 3.9043E+01 1.0000E+01 1.5373E-01 11 3537462 12 232 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 15.0014E-042.5000E-01 3.3212E+01 2.3959E-01 4.5599E+01 1.0000E+01 1.3000E-01 11 3539926 2
27 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 15.3956E-045.0000E-01 2.1833E+01 1.1026E+00 3.2697E+011.0000E+011.8570E-01 50 3545089 1
14 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 5.6292E-04 2.5000E-01 1.6586E+01 1.1803E-01 3.2278E+01 1.0000E+01 1.8283E-01 11 3650364 2
35 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 2.2950E-03 2.5000E-01 9.2796E+01 3.3100E-01 3.3992E+01 1.0000E+01 1.3000E-01 11 3650975 3
33 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 9. 7066E-05 1.0000E+00 2.6143E+02 2.2765E+00 2.0976E+02 1.0000E+01 1.3000E-01 10 3654321 1
16 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 11.1695E-03 2.5000E-01 5.1011E+01 6.0644E-01 3.0763E+011.0000E+01 1.1012E-01 11 3848369 4
73 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 16.6962E-042.5000E-01 7.6065E+01 8.3818E-01 4.4213E+011.0000E+01 1.7413E-01 11 3905496 4
71 6
ENERCON Exc~llenc~-
Cvt!ry pro1~t. Every day.
det t
wgt psc amfp ddetx Dose Rate Near Uranium Treatment Train radius erg cell nps nch p 2 9.6599E-05 2.5000E-01 1.1998E+02 1.0080E-01 2.1137E+02 1.0000E+01 1.8479E-01 det t
wgt psc amfp ddetx radius erg cell nps nch p 2 6.7549E-05 2.5000E-01 9.7349E+01 2.9342E-01 2.0679E+02 1.0000E+01 1.3000E-01 det t
wgt psc amfp ddetx radius erg cell nps nch p 2 7.7800E-05 2.5000E-011.0680E+02 3.0907E-01 2.0024E+021.0000E+011.0923E-01 det t
wgt psc amfp ddetx radius erg cell nps nch p 1 8.6059E-04 1.0000E+00 4.1885E+01 1.6285E+00 3.8987E+01 1.0000E+01 1.8570E-01 det t
wgt psc amfp ddetx radius erg cell nps nch p 1 3.2872E-03 2.5000E-01 2.5142E+02 7.6437E-01 3.7643E+01 1.0000E+01 1.8570E-01 det t
wgt psc amfp ddetx radius erg cell nps nch p 1 5.4959E-04 5.0000E-01 7.4183E+01 2.1380E+00 3.5585E+01 1.0000E+01 1.2589E-01 det t
wgt psc amfp ddetx radius erg cell nps nch p 1 9.3644E-04 5.0000E-01 4.5728E+01 1.0991 E+00 3.5982E+01 1.0000E+01 1.8570E-01 det t
wgt psc amfp ddetx radius erg cell nps nch p 1 7.2649E-04 5.0000E-01 4.6224E+01 1.3520E+00 3.6194E+01 1.0000E+01 1.8570E-01 det t
wgt psc amfp ddetx radius erg cell nps nch p 11.3817E-03 2.5000E-01 5.9445E+01 3.0319E-01 3.5554E+011.0000E+01 9.3136E-02 det t
wgt psc amfp ddetx radius erg cell nps nch p 1 2.0539E-03 5.0000E-01 1.1802E+02 1.2470E+00 3.6250E+01 1.0000E+01 1.3000E-01 det t
wgt psc amfp ddetx radius erg cell nps nch p 1 5.3407E-04 5.0000E-01 4.4289E+01 1.3847E+00 4.0649E+01 1.0000E+01 1.3000E-01 det wgt psc amfp ddetx radius erg cell nps nch p CALC NO.
EPM017-CALC-001 REV.
0 PAGE NO.
15 of 58 nrn ipsc 11 3906556 2
32 6
nrn ipsc 11 3907053 6
109 6
nrn ipsc 11 3921665 7
112 6
nrn ipsc 10 3930467 1
13 6
nrn ipsc 11 4059754 2
41 6
nrn ipsc 50 4079838 3
59 6
nrn ipsc 50 4156195 1
14 6
nrn ipsc 50 4156195 5
69 6
nrn ipsc 11 4159952 6
103 6
nrn ipsc 50 4171884 1
16 6
nrn ipsc 50 4182657 1
14 6
nrn ipsc
CALC NO.
EPM017-CALC-001
~ ENERCON Dose Rate Near Uranium REV.
0 Excellence-ivery ptOJtCt. Every doy.
Treatment Train PAGE NO.
16 of 58 1 6.2597E-04 5.0000E-01 5.3306E+01 1.6796E+00 3.5545E+01 1.0000E+01 1.5492E-01 50 4265308 2
35 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 2 1.2845E-04 2.5000E-01 1.3873E+02 4.2095E-02 2.0298E+02 1.0000E+01 1.8570E-01 11 4310093 4
64 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 1 7.0270E-04 2.5000E-01 2.8470E+01 3.4209E-01 3.3838E+01 1.0000E+01 1.3000E-01 11 4328280 2
23 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 16.2254E-045.0000E-01 7.6286E+01 1.5238E+00 4.6095E+01 1.0000E+01 1.4380E-01 50 4354629 1
14 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 1 5.1419E-04 5.0000E-01 1.9935E+01 9.4154E-01 3.4688E+01 1.0000E+01 2.0530E-01 50 4398274 1
14 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 11.3410E-031.0000E+00 2.7016E+02 2.7793E+00 4.4615E+011.0000E+011.2317E-01 10 4535430 2
36 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 1 1.9512E-03 5.0000E-01 1.2248E+02 1.6198E+00 3.1444E+01 1.0000E+01 1.2842E-01 50 4573242 9
197 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 21.0099E-04 5.0000E-01 1.9850E+021.2931E+00 2.0718E+021.0000E+011.8570E-01 50 4594708 2
24 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 1 6.2792E-04 5.0000E-01 4.3828E+01 1.4149E+00 3.6735E+01 1.0000E+01 1.1670E-01 50 4608539 2
41 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 1 4.7662E-04 1.0000E+00 1.4555E+02 3.4950E+00 3.8406E+01 1.0000E+01 1.0012E-01 10 4613891 3
62 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 1 6. 7040E-04 5.0000E-01 4.4527E+01 1.4417E+00 3.5358E+01 1.0000E+01 1.3000E-01 50 4681007 5
52 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nm ipsc 2 7.3379E-05 1.0000E+00 7.0702E+01 1.2945E+00 2.0499E+02 1.0000E+01 1.8570E-01 10 4684360 1
16 6
CALC NO.
EPM017-CALC-001 I,. ENERCON Dose Rate Near Uranium REV.
0 I
Treatment Train
£xcellence-ivery pro1ect. £very day.
PAGE NO.
17 of 58 det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.0558E-03 2.5000E-01 4.6122E+01 2.6416E-01 3.6532E+01 1.0000E+01 1.3000E-01 11 4703340 2
32 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.5123E-03 2.5000E-01 8.6092E+01 8.4980E-01 3.1118E+01 1.0000E+01 1.3000E-01 11 4712733 2
23 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 1.7255E-03 2.5000E-01 8.5665E+01 7.1743E-01 3.1048E+01 1.0000E+01 1.3000E-01 11 4712733 7
97 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 2.9430E-03 2.5000E-01 1.1299E+02 2.5841 E-01 3.4348E+01 1.0000E+01 1.4855E-01 11 4764056 8
137 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 1 6.1087E-04 2.5000E-01 2.3456E+01 3.8734E-02 3.8338E+01 1.0000E+01 1.1820E-01 11 4768139 6
100 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 8.9505E-05 2.5000E-01 9.3860E+01 3.4463E-02 2.0078E+02 1.0000E+01 1.8570E-01 11 4879138 1
15 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 9.3422E-05 2.5000E-01 1.7357E+02 3.4902E-01 2.2835E+02 1.0000E+01 1.6992E-01 11 4985150 7
106 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 7.9443E-05 2.5000E-01 1.3739E+02 5.1180E-01 2.0309E+02 1.0000E+01 1.2469E-01 11 5166101 16 311 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 6.3427E-05 5.0000E-01 1.4501 E+02 1.3501 E+00 2.1716E+02 1.0000E+01 1.8570E-01 50 5240953 1
23 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 9.2058E-05 2.5000E-01 1.2053E+02 2.2794E-012.0366E+021.0000E+01 1.8570E-01 11 5309294 1
17 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 8.1922E-05 2.5000E-01 1.0587E+02 2.1140E-01 2.0402E+02 1.0000E+01 1.3000E-01 11 5507091 5
73 6
CALC NO.
EPM017-CALC-001
~ ENERCON Dose Rate Near Uranium REV.
0 Excellenc,:-tvery proJect. Every day.
Treatment Train PAGE NO.
18 of 58 det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 7.1386E-05 2.5000E-01 1.6026E+02 6.6252E-01 2.1460E+02 1.0000E+01 1.6330E-01 11 5607881 4
52 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 1.2320E-04 5.0000E-01 1.5423E+02 8.2608E-01 2.0883E+02 1.0000E+01 1.6773E-01 50 5742616 4
95 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 6. 77 48E-05 2.5000E-01 1.4851 E+02 6.1173E-01 2.1751 E+02 1.0000E+01 1.6067E-01 11 5798661 6
98 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 1.4616E-04 5.0000E-01 2.5270E+02 1.1450E+00 2.0924E+02 1.0000E+01 1.8570E-01 50 5941969 1
15 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 6.3250E-05 5.0000E-01 1.0746E+02 1.1696E+00 2.0489E+02 1.0000E+01 1.5957E-01 50 6106548 3
63 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 7. 7663E-05 2.5000E-01 1.1530E+02 3.6248E-01 2.0275E+02 1.0000E+01 1.3000E-01 11 6122751 3
40 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 8.2003E-05 5.0000E-01 8.5367E+01 6.7714E-012.0516E+021.0000E+01 1.7525E-01 50 6128781 6
107 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 8.0096E-05 2.5000E-01 8.1642E+01 1.4839E-02 1.9990E+02 1.0000E+01 1.3000E-01 11 6301952 1
16 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 7. 7647E-05 2.5000E-01 1.1386E+02 2.1132E-01 2.1732E+02 1.0000E+01 1.6915E-01 11 6325708 2
44 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 8.0105E-05 2.5000E-01 9.7521 E+01 9.2966E-02 2.1009E+02 1.0000E+01 1.2952E-01 11 6569431 8
143 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 6.3612E-05 5.0000E-01 9.4114E+01 1.0530E+00 2.0267E+02 1.0000E+01 1.3000E-01 50 6864922 1
15 6
det wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc
CALC NO.
EPM017-CALC-001 ENERCON Dose Rate Near Uranium REV.
0 Treatment Train Excellence-i very proJect. Every day.
PAGE NO.
19 of 58 2 8.5899E-05 2.5000E-01 9.9501 E+01 5.7195E-02 2.0863E+02 1.0000E+01 1.3000E-01 11 6957752 3
47 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 8.3686E-05 2.5000E-01 1.8246E+02 6. 7611 E-01 2.1005E+02 1.0000E+01 1.8570E-01 11 6982788 1
22 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 1.4716E-04 5.0000E-01 1.8785E+02 8.4998E-01 2.0837E+02 1.0000E+01 1.4865E-01 50 7006398 5
97 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 8.0744E-05 1.0000E+00 2.2806E+02 2.3206E+00 2.1012E+021.0000E+011.3000E-01 10 7015682 1
14 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 7.7876E-05 2.5000E-01 9.8330E+01 2.0527E-01 2.0228E+02 1.0000E+01 1.0346E-01 11 7071106 7
116 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 7.8800E-05 2.5000E-01 1.1116E+02 2.6310E-01 2.0772E+02 1.0000E+01 1.4380E-01 11 7237656 3
44 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 8.2322E-05 2.5000E-01 9.5347E+01 6.8997E-02 2.0739E+02 1.0000E+01 1.0388E-01 11 7430193 8
150 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 7.0185E-05 5.0000E-011.4111E+021.3704E+00 2.0159E+021.0000E+011.2327E-01 50 7480406 3
46 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 1.9834E-04 5.0000E-01 2.8574E+02 9.6830E-01 2.0865E+02 1.0000E+01 2.0210E-01 50 7980777 6
106 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 8.0021E-05 2.5000E-01 1.0923E+02 2.7107E-012.0351E+021.0000E+01 1.3000E-01 11 7983577 6
88 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 1.0526E-04 2.5000E-01 1.3134E+02 4.5678E-02 2.1778E+02 1.0000E+01 1.2624E-01 11 8224664 6
117 6
det t
wgt psc amfp ddetx radius erg cell nps nch p nrn ipsc 2 8.7746E-05 2.5000E-01 1.0136E+02 7.5749E-02 2.0642E+02 1.0000E+01 1.8570E-01 11 8660330 2
35 6
CALC NO.
EPM017-CALC-001 ENERCON Dose Rate Near Uranium
"\\i Treatment Train Excellence-ivery proJect. Every day.
det t
wgt psc amfp ddetx radius erg cell nps nch p 2 8.7664E-05 2.5000E-011.1636E+027.3317E-02 2.2154E+021.0000E+01 1.6760E-01 det t
wgt psc amfp ddetx radius erg cell nps nch p 2 7.1299E-05 5.0000E-011.2433E+021.2120E+00 2.0321E+021.0000E+011.2898E-01 det t
wgt psc amfp ddetx radius erg cell nps nch p 2 6.6424E-05 2.5000E-01 9.6398E+01 3.4061 E-01 2.0267E+02 1.0000E+01 1.0685E-01 det t
wgt psc amfp ddetx radius erg cell nps nch p 2 7.6836E-05 2.5000E-01 9.5882E+01 2.1270E-01 2.0034E+02 1.0000E+01 1.0768E-01 det t
wgt psc amfp ddetx radius erg cell nps nch p 2 1.0410E-04 2.5000E-01 1.4581E+02 2.4234E-012.0913E+021.0000E+01 1.4970E-01 det t
wgt psc amfp ddetx radius erg cell nps nch p 2 7.4218E-05 2.5000E-01 8.0648E+01 7.2804E-02 2.0050E+02 1.0000E+01 1.4349E-01 det t
wgt psc amfp ddetx radius erg cell nps nch p 2 6.6683E-05 5.0000E-01 1.1436E+02 1.1936E+00 2.0340E+02 1.0000E+01 1.3000E-01 1 problem summary run terminated when 10000000 particle histories were done.
+
12/15/15 16:50:13 REV.
PAGE NO.
nm ipsc 11 8932238 nm ipsc 50 9142262 nm ipsc 11 9325623 nm ipsc 11 9602391 nm ipsc 11 9649833 nm ipsc 11 9681295 nm ipsc 50 9952165 Cimmarron Resin Bed Dose Estimation probid = 12/15/15 16:46:08 photon creation tracks weight energy photon loss tracks weight energy (per source particle)
(per source particle) 8 5
14 10 4
5 1
source 10000000 1.0000E+00 nucl. interaction 0
- 0.
- 0.
1.0453E-01 escape energy cutoff 0
- 0.
1609553 4.0239E-02 5.5397E-03 4.5751E-06 particle decay 0
- 0.
- 0.
time cutoff 0
- 0.
- 0.
weight window 0
- 0.
- 0.
weight window 0
- 0.
- 0.
0 20 of 58 138 6
67 6
248 6
167 6
82 6
94 6
16 6
CALC NO.
EPM017-CALC-001 ENERCON Dose Rate Near Uranium REV.
'o -
Treatment Train
~xcellence-i very pro1ect. Every day.
PAGE NO.
cell importance 8402371 weight cutoff 0
- 0.
e or t importance 0
- 0.
2.0823E-02
- 0.
- 0.
dxtran 0
- 0.
- 0.
forced collisions 0
- 0.
- 0.
exp. transform 0
- 0.
- 0.
from neutrons 0
- 0.
- 0.
bremsstrahlung 289865 1.2283E-02 p-annihilation 0
- 0.
- 0.
photonuclear 0
- 0.
- 0.
electron x-rays 0
- 0.
- 0.
compton fluores 0
- 0.
- 0.
muon capt fluores 0
- 0.
- 0.
1.8945E-03 cell importance 557774 2.0827E-02 1.8943E-03 weight cutoff e or t importance dxtran 0
forced collisions exp. transform compton scatter 0
- 0.
- 0.
0
- 0.
- 0.
- 0.
- 0.
0
- 0.
- 0.
0
- 0.
- 0.
0
- 0.
5.0425E-02 1.184 7E-04 capture 20289522 1.1232E+00 4.9640E-02
- 0.
pair production 0
- 0.
photonuclear abs 0
- 0.
loss to photofis 0
- 0.
- 0.
- 0.
1stfluorescence 3764613 1.5121E-01 9.6138E-04 2nd fluorescence 0
- 0.
- 0.
(gamma,xgamma) 0
- 0.
- 0.
tabular sampling 0
- 0.
- 0.
prompt photofis 0
- 0.
- 0.
total 22456849 1.1843E+00 1.0750E-01 total 22456849 1.1843E+00 1.0750E-01 number of photons banked 7207156 average time of (shakes) cutoffs photon tracks per source particle 2.2457E+00 escape 2.1082E-01 tco 1.0000E+33 photon collisions per source particle 7.3644E+00 capture 1.5924E-01 eco 1.0000E-03 total photon collisions 73644179 capture or escape 1.6103E-01 wc1 -5.0000E-01 any termination 1.6002E-01 wc2 -2.5000E-01 computer time so far in this run 236. 73 minutes maximum number ever in bank 5
computer time in mcrun 236.60 minutes bank overflows to backup file 0
source particles per minute 4.2266E+04 0
21 of 58 random numbers generated 1463531465 most random numbers used was 1114 in history 3631177 range of sampled source weights = 1.0000E+00 to 1.0000E+00 source efficiency= 1.0000 in cell 10
CALC NO.
EPM017-CALC-001 ENERCON Dose Rate Near Uranium REV.
0 Treatment Train Exc~llenc~- ivery pro;ect. Every day.
PAGE NO.
22 of 58 number of histories processed by each thread 1312074 1201267 1259672 1299659 1294866 1282904 1264634 1084924 1photon activity in each cell print table 126 tracks population collisions collisions number flux average average cell entering
- weight weighted weighted track weight track mfp (per history) energy energy (relative)
(cm) 1 2
3 4
10 10322059 50 9023654 11 6437568 10193584 8922895 6528077 1376517 50738870 5.0739E+00 8.3033E-02 8.3033E-02 1.0000E+00 1.1545E+01 13144162 6.5721E-01 1.1558E-01 1.1558E-01 1.0000E+00 4.3220E-01 9761147 2.4403E-01 1.2524E-01 1.2524E-01 1.0000E+00 4.8793E-01 30 1376517 0
0.0000E+00 1.3735E-01 1.3735E-01 2.0000E+00 0.0000E+00 total 27159798 27021073 73644179 5.9751E+00 1 tally 15 nps =
10000000 tally type 5 particle flux at a point detector.
particle(s): photons this tally is modified by standard dose function 1.
this tally is all multiplied by 1.50451 E+08 detector located at x,y,z = 9.14300E+01 0.00000E+00 6.91975E+01 2.39237E-05 0.0055 detector located at x,y,z = 9.14300E+01 0.00000E+00 6.91975E+01 uncollided photon flux 7.28378E-06 0.0018 detector score diagnostics cumulative tally cumulative fraction of per fraction of times average score transmissions transmissions history total tally 1.00000E-01 2066474 0.33337 9.19114E-09 0.02066
ENERCON Dose Rate Near Uranium Treatment Train Excellence-ivery proJect. Every day.
1.00000E+00 2.00000E+00 5.00000E+00 1.00000E+01 1.00000E+02 1.00000E+03 1.00000E+38 before dd roulette 2782476 480224 443038 215883 202626 2350 195 5422 0.78225 0.85973 0.93120 0.96603 0.99871 0.99909 0.99913 1.00000 4.22849E-08 3.02936E-08 6.23896E-08 6.75746E-08 1.84876E-07 2.79066E-08 2.03054E-08 4.07592E-11 0.11571 0.18381 0.32405 0.47595 0.89153 0.95426 0.99991 1.00000 average tally per history = 4.44862E-07 largest score = 5.32061 E-03 (largest score)/(average tally)= 1.19601 E+04 nps of largest score=
313718 score contributions by cell cell misses hits tally per history weight per hit 1
10 501037 40 5496658 2.24457E-07 4.08352E-07 2
50 6049166 355174 8.06515E-08 2.27076E-06 3
11 5057541 346856 1.39754E-07 4.02916E-06 total 61210447 6198688 4.44862E-07 7.17672E-07 score misses russian roulette on pd 0
psc=0.
975368 russian roulette in transmission 56695829 underflow in transmission 3539250 hit a zero-importance cell 0
energy cutoff 0
CALC NO.
EPM017-CALC-001 REV.
0 PAGE NO.
23 of 58 results of 10 statistical checks for the estimated answer for the tally fluctuation chart (tfc) bin of tally 15
CALC NO.
EPM017-CALC-001
~ ENERCON Dose Rate Near Uranium REV.
0 Excellence-ivery proJect, Every day.
Treatment Train PAGE NO.
24 of 58 tfc bin
--mean--
relative error---------
variance of the variance---
--figure of merit--
-pdf-behavior behavior value decrease decrease rate value decrease decrease rate value behavior slope desired random
<0.05 yes 1/sqrt(nps)
<0.10 yes 1/nps constant random
>3.00 observed random 0.01 yes yes 0.02 yes yes constant random 3.12 passed?
yes yes yes yes yes yes yes yes yes yes
===--==--=------------================================================================
this tally meets the statistical criteria used to form confidence intervals: check the tally fluctuation chart to verify.
the results in other bins associated with this tally may not meet these statistical criteria.
estimated confidence intervals: -----
estimated asymmetric confidence intervaI(1,2,3 sigma): 2.3800E-05 to 2.4061 E-05; 2.3669E-05 to 2.4192E-05; 2.3538E-05 to 2.4323E-05 estimated symmetric confidence interval( 1,2,3 sigma): 2.3793E-05 to 2.4055E-05; 2.3662E-05 to 2.4185E-05; 2.3531 E-05 to 2.4316E-05 1 analysis of the results in the tally fluctuation chart bin (tfc) for tally 15 with nps =
10000000 print table 160 normed average tally per history = 2.39237E-05 unnormed average tally per history = 2.39237E-05 estimated tally relative error
0.0055 estimated variance of the variance = 0.0190 relative error from zero tallies = 0.0005 relative error from nonzero scores = 0.0055 number of nonzero history tallies
3040522 historynumberoflargest tally=
313718 (largest tally)/(average tally) = 1.56455E+04 (confidence interval shift)/mean = 0.0003 efficiency for the nonzero tallies = 0.3041 largest unnormalized history tally= 3.74298E-01 (largest tally)/(avg nonzero tally)= 4.75705E+03 shifted confidence interval center = 2.39305E-05
CALC NO.
EPM017-CALC-001
~ ENERCON Dose Rate Near Uranium REV.
0 Excellence-ivery proJect. Every day.
Treatment Train PAGE NO.
25 of 58 if the largest history score sampled so far were to occur on the next history, the tfc bin quantities would change as follows:
estimated quantities value at nps mean 2.39237E-05 relative error 5.47129E-03 variance of the variance 1.90457E-02 shifted center 2.39305E-05 figure of merit 1.41191 E+02 value at nps+1 2.39611 E-05 5.68168E-03
- 2. 19879E-02 2.39314E-05 1.30928E+02 value(nps+1 )/value(nps)-1.
0.001564 0.038452 0.154486 0.000038
-0.072686 the estimated inverse power slope of the 200 largest tallies starting at 2.58402E-02 is 3.1203 the history score probability density function appears to have an unsampled region at the largest history scores:
please examine. see print table 161.
fom = (histories/minute)*(f(x) signal-to-noise ratio)**2 = (4.227E+04)*( 5.780E-02)**2 = (4.227E+04)*(3.341E-03) = 1.412E+02 1 tally 25 nps =
10000000 tally type 5 particle flux at a point detector.
particle(s): photons this tally is modified by standard dose function 1.
this tally is all multiplied by 2.25676E+07 detector located at x,y,z = 9.14300E+012.43840E+026.91975E+01 4.97439E-07 0.0024 detector located at x,y,z = 9.14300E+01 2.43840E+02 6.91975E+01 uncollided photon flux 1.65726E-07 0.0010 detector score diagnostics cumulative tally cumulative fraction of per fraction of times average score transmissions transmissions history total tally 1.00000E-01 2719757 0.28347 1.67735E-09 0.02719
1.00000E+00 2.00000E+00 5.00000E+00 1.00000E+01 1.00000E+02 1.00000E+03 1.00000E+38 before dd roulette ENERCON Excellence-ivt!ry pro1ecr. Every day.
4570832 976550 959927 304493 55103 2382 61 5491 0.75986 0.86165 0.96169 0.99343 0.99917 0.99942 0.99943 1.00000 Dose Rate Near Uranium Treatment Train 1.01499E-08 8.59433E-09 1.86191 E-08 1.27090E-08 6.01146E-09 3.38705E-09 5.47142E-10 5.86511E-12 0.19169 0.33098 0.63274 0.83871 0.93614 0.99104 0.99990 1.00000 average tally per history = 6.17012E-08 (largest score)/(average tally)= 3.21450E+03 largest score = 1.98339E-04 nps of largest score =
7980777 score contributions by cell cell misses hits tally per history weight per hit 1
10 47440116 8160282 3.45288E-08 4.23132E-08 2
50 5631580 772760 1.10836E-08 1.43429E-07 3
11 4742843 661554 1.60889E-08 2.43198E-07 total 57814539 9594596 6.17012E-08 6.43083E-08 score misses russian roulette on pd 0
psc=0.
855422 russian roulette in transmission 53023942 underflow in transmission 3935175 hit a zero-importance cell 0
energy cutoff 0
CALC NO.
EPM017-CALC-001 REV.
0 PAGE NO.
26 of 58
=======================================================================--=------------------------------------
results of 10 statistical checks for the estimated answer for the tally fluctuation chart (tfc) bin of tally 25
CALC NO.
EPM017-CALC-001
'I. ENERCON Dose Rate Near Uranium REV.
Treatment Train
~xcellence-ivery praJect. Every day.
PAGE NO.
tfc bin
--mean--
relative error--------
variance of the variance----
--figure of merit--
-pdf-behavior behavior value decrease decrease rate value decrease decrease rate value behavior desired random
<0.05 yes 1/sqrt(nps)
<0.10 yes 1/nps constant random
>3.00 observed random 0.00 yes yes 0.00 yes yes constant random 4.00 passed?
yes yes yes yes yes yes yes yes yes yes this tally meets the statistical criteria used to form confidence intervals: check the tally fluctuation chart to verify.
the results in other bins associated with this tally may not meet these statistical criteria.
estimated confidence intervals: -----
0 27 of 58 slope estimated asymmetric confidence interval(1,2,3 sigma): 4.9627E-07 to 4.9866E-07; 4.9508E-07 to 4.9986E-07; 4.9388E-07 to 5.01 0SE-07 estimated symmetric confidence interval(1,2,3 sigma): 4.9625E-07 to 4.9863E-07; 4.9505E-07 to 4.9983E-07; 4.9386E-07 to 5.0102E-07 1 analysis of the results in the tally fluctuation chart bin (tfc) for tally 25 with nps =
10000000 print table 160 normed average tally per history = 4.97 439E-07 unnormed average tally per history = 4.97 439E-07 estimated tally relative error
0.0024 estimated variance of the variance = 0.0047 relative error from zero tallies = 0.0004 relative error from nonzero scores = 0.0024 number of nonzero history tallies
4079202 history number of largest tally =
7980777 (largest tally)/(average tally) = 4.58726E+03 (confidence interval shift)/mean = 0.0001 efficiency for the nonzero tallies = 0.4079 largest unnormalized history tally = 2.28189E-03 (largest tally)/(avg nonzero tally)= 1.87124E+03 shifted confidence interval center = 4.97 467E-07
CALC NO.
EPM017-CALC-001
~ ENERCON Dose Rate Near Uranium REV.
0 Excellence-ivery pro1ect. £ very day.
Treatment Train PAGE NO.
28 of 58 if the largest history score sampled so far were to occur on the next history, the tfc bin quantities would change as follows:
estimated quantities value at nps mean 4.97 439E-07 relative error 2.40083E-03 variance of the variance 4.71546E-03 shifted center 4.97467E-07 figure of merit 7.33269E+02 value at nps+1 4.97668E-07 2.44312E-03 5.62879E-03 4.97470E-07 7.08102E+02 value(nps+1 )/value(nps)-1.
0.000459 0.017616 0.193689 0.000006
-0.034322 the estimated inverse power slope of the 200 largest tallies starting at 2.97193E-04 is 4.0044 the large score tail of the empirical history score probability density function appears to have no unsampled regions.
fom = (histories/minute)*(f(x) signal-to-noise ratio)**2 = (4.227E+04)*( 1.317E-01)**2 = (4.227E+04)*(1.735E-02) = 7.333E+02 1 status of the statistical checks used to form confidence intervals for the mean for each tally bin tally result of statistical checks for the tfc bin (the first check not passed is listed) and error magnitude check for all bins 15 passed the 10 statistical checks for the tally fluctuation chart bin result passed all bin error check:
2 tally bins all have relative errors less than 0.05 with no zero bins 25 passed the 10 statistical checks for the tally fluctuation chart bin result passed all bin error check:
2 tally bins all have relative errors less than 0.05 with no zero bins the 10 statistical checks are only for the tally fluctuation chart bin and do not apply to other tally bins.
1 tally fluctuation charts tally 15 tally 25 nps mean error vov slope fom mean error vov slope fom 512000 2.4094E-05 0.0352 0.5579 2.2 83 4.9978E-07 0.0102 0.1024 3.3 988
II.. ENERCON I
Excellence-ivery pro1ect. Every day.
1024000 2.4078E-05 0.0213 0.2766 2.2 1536000 2.3929E-05 0.0160 0.1849 2.3 2048000 2.3935E-05 0.0128 0.1420 2.3 2560000 2.3867E-05 0.0111 0.1081 2.4 3072000 2.3783E-05 0.0100 0.0890 2.6 3584000 2.3846E-05 0.0094 0.0676 3.0 4096000 2.3883E-05 0.0088 0.0556 3.0 4608000 2.3874E-05 0.0082 0.0469 2.9 5120000 2.4010E-05 0.0081 0.0377 2.8 5632000 2.3975E-05 0.0076 0.0338 2.6 6144000 2.3969E-05 0.0072 0.0300 2.7 6656000 2.3965E-05 0.0068 0.0273 2.7 7168000 2.3940E-05 0.0065 0.0253 2.7 7680000 2.3942E-05 0.0063 0.0236 2.6 8192000 2.3982E-05 0.0061 0.0208 3.0 8704000 2.3969E-05 0.0059 0.0190 3.1 9216000 2.3925E-05 0.0056 0.0184 3.2 9728000 2.3939E-05 0.0056 0.0194 3.1 10000000 2.3924E-05 0.0055 0.0190 3.1 Dose Rate Near Uranium Treatment Train 110 4.9771 E-07 0.0075 0.0438 3.2 876 136 4.9688E-07 0.0059 0.0257 3.1 989 153 4.9847E-07 0.0056 0.0281 3.2 796 150 4.9707E-07 0.0049 0.0214 3.8 776 160 4.9589E-07 0.0044 0.0171 3.9 832 161 4.9585E-07 0.0040 0.0136 4.0 880 161 4.9676E-07 0.0037 0.0110 3.5 899 161 4.9657E-07 0.0035 0.0098 3.5 870 153 4.9693E-07 0.0034 0.0087 3.6 879 161 4.9764E-07 0.0032 0.0075 3.9 888 157 4.9766E-07 0.0031 0.0069 3.4 824 150 4.9714E-07 0.0030 0.0063 3.1 784 154 4.9817E-07 0.0029 0.0056 3.3 770 150 4.9818E-07 0.0028 0.0051 3.5 777 143 4.9807E-07 0.0027 0.0062 3.2 724 143 4.9799E-07 0.0026 0.0057 3.2 726 144 4.9759E-07 0.0025 0.0053 3.3 721 138 4.9753E-07 0.0024 0.0049 3.7 723 141 4.9744E-07 0.0024 0.0047 4.0 733 CALC NO.
REV.
PAGE NO.
dump no.
2 on file runtpe nps =
10000000 coll =
73644179 ctm =
236.60 nrn =
1463531465 5 warning messages so far.
run terminated when 10000000 particle histories were done.
computer time= 236.73 minutes mcnp version 6 05/08/13 12/15/15 16:50:13 probid = 12/15/15 16:46:08 EPM017-CALC-001 0
29 of 58
CALC NO.
EPM017-CALC-001 ENERCON Excellence-Every projecr. Every day.
CALCULATION PREPARATION CHECKLIST REV.
PAGE NO.
CHECKLIST ITEMS1 GENERAL REQUIREMENTS
- 1.
If the calculation is being performed to a client procedure, is the procedure being used the latest revision?
Client procedure is not used in this calculation. ENERCON QA procedures used throughout this project.
- 2.
Are the proper forms being used and are they the latest revision?
- 3.
Have the appropriate client review forms/checklists been completed?
Client procedure is not used in this calculation. ENERCON QA procedures used throughout this project.
- 4.
Are all pages properly identified with a calculation number, calculation revision and page number consistent with the requirements of the client's procedure?
Client procedure is not used in this calculation. ENERCON QA procedures used throughout this project.
- 5.
Is all information legible and reproducible?
- 6.
Is the calculation presented in a logical and orderly manner?
- 7.
Is there an existing calculation that should be revised or voided?
- 8.
Is it possible to alter an existing calculation instead of preparing a new calculation for this situation?
No current ENERCON calculations exist that are similar to this calculation.
- 9.
If an existing calculation is being used for design inputs, are the key design inputs, assumptions and engineering judgments used in that calculation valid and do they apply to the calculation revision being performed.
- 10.
Is the format of the calculation consistent with applicable procedures and expectations?
- 11.
Were design inpuUoutput documents properly updated to reference this calculation?
No ENERCON design inputs or outputs are affected by this calculation.
0 1 of 6 YES NO N/A
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[8J CSP 3.03 Revision 1 Attachment C
CALC NO.
EPM017-CALC-001 ENERCON CALCULATION PREPARATION REV.
0 I
CHECKLIST Excelfence-Every project. Every day.
PAGE NO.
2 of 6 CHECKLIST ITEMS1 YES NO N/A
- 12.
Can the calculation logic, methodology and presentation be properly understood
[8l without referring back to the originator for clarification?
OBJECTIVE AND SCOPE
- 13.
Does the calculation provide a clear concise statement of the problem and objective of
[8l the calculation?
- 14.
Does the calculation provide a clear statement of quality classification?
[8l
- 15.
Is the reason for performing and the end use of the calculation understood?
[8l
- 16.
Does the calculation provide the basis for information found in the plant's license basis?
This calculation applies to a remediation site. No work performed in this calculation is
[8l applicable to a licensing basis.
- 17.
If so, is this documented in the calculation?
[8l
- 18.
Does the calculation provide the basis for information found in the plant's design basis
[8l documentation?
- 19.
If so, is this documented in the calculation?
[8l
- 20.
Does the calculation otherwise support information found in the plant's design basis
[8l documentation?
- 21.
If so, is this documented in the calculation?
[8l
- 22.
Has the appropriate design or license basis documentation been revised, or has the
[8l change notice or change request documents being prepared for submittal?
DESIGN INPUTS
- 23.
Are design inputs clearly identified?
[8l
- 24.
Are design inputs retrievable or have they been added as attachments?
[8l CSP 3.03 Revision 1 Attachment C
CALC NO.
EPM017-CALC-001 ENERCON CALCULATION PREPARATION REV.
0 1r CHECKLIST Excellence-Every pro1ect. Every day.
PAGE NO.
3 of 6 CHECKLIST ITEMS1 YES NO N/A
- 25.
If Attachments are used as design inputs or assumptions are the Attachments traceable
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and verifiable?
- 26.
Are design inputs clearly distinguished from assumptions?
l:8l DESIGN INPUTS (Continued)
- 27.
Does the calculation rely on Attachments for design inputs or assumptions? If yes, are
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the attachments properly referenced in the calculation?
- 28.
Are input sources (including industry codes and standards) appropriately selected and
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are they consistent with the quality classification and objective of the calculation?
- 29.
Are input sources (including industry codes and standards) consistent with the plant's
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design and license basis?
- 30.
If applicable, do design inputs adequately address actual plant conditions?
~
- 31.
Are input values reasonable and correctly applied?
l:8l
- 32.
Are design input sources approved?
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The Cimarron design is currently at 60% completion.
- 33.
Does the calculation reference the latest revision of the design input source?
l:8l
- 34.
Were all applicable plant operating modes considered?
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ASSUMPTIONS
- 35.
Are assumptions reasonable/appropriate to the objective?
l:8l
- 36.
Is adequate justification/basis for all assumptions provided?
l:8l
- 37.
Are any engineering judgments used?
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- 38.
Are engineering judgments clearly identified as such?
No engineering judgments were applied in this evaluation.
l:8l CSP 3.03 Revision 1 Attachment C
CALC NO.
EPM017-CALC-001 LI ENERCON CALCULATION PREPARATION REV.
0 I
CHECKLIST Excellence-Every project. Every day.
PAGE NO.
4 of 6 CHECKLIST ITEMS1 YES NO NIA
- 39.
If engineering judgments are utilized as design inputs, are they reasonable and can they be quantified or substantiated by reference to site or industry standards, C8l engineering principles, physical laws or other appropriate criteria?
METHODOLOGY
- 40.
Is the methodology used in the calculation described or implied in the plant's licensing C8l basis?
- 41.
If the methodology used differs from that described in the plant's licensing basis, has C8l the appropriate license document change notice been initiated?
- 42.
Is the methodology used consistent with the stated objective?
C8l
- 43.
Is the methodology used appropriate when considering the quality classification of the C8l calculation and intended use of the results?
BODY OF CALCULATION
- 44.
Are equations used in the calculation consistent with recognized engineering practice C8l and the plant's design and license basis?
- 45.
Is there reasonable justification provided for the use of equations not in common use?
Equations applied in this evaluation are in common use in the industry.
C8l
- 46.
Are the mathematical operations performed properly and documented in a logical C8l fashion?
- 47.
Is the math performed correctly?
C8l
- 48.
Have adjustment factors, uncertainties and empirical correlations used in the analysis C8l been correctly applied?
- 49.
Has proper consideration been given to results that may be overly sensitive to very small changes in input?
Results generated by calculations performed in this evaluation are not significantly C8l affected by minor perturbations of variables.
SOFTWARE/COMPUTER CODES
- 50.
Are computer codes or software languages used in the preparation of the calculation?
C8l CSP 3.03 Revision 1 Attachment C
CALC NO.
EPM017-CALC-001 ENERCON CALCULATION PREPARATION REV.
0 CHECKLIST Excellenu-Eve,y pra1ect. Every day.
PAGE NO.
5 of 6 CHECKLIST ITEMS1 YES NO NIA
- 51.
Have the requirements of CSP 3.09 for use of computer codes or software languages,
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including verification of accuracy and applicability been met?
SOFTWARE/COMPUTER CODES (Continued)
- 52.
Are the codes properly identified along with source vendor, organization, and revision
~
level?
- 53.
Is the computer code applicable for the analysis being performed?
~
- 54.
If applicable, does the computer model adequately consider actual plant conditions?
~
- 55.
Are the inputs to the computer code clearly identified and consistent with the inputs and
~
assumptions documented in the calculation?
- 56.
Is the computer output clearly identified?
~
- 57.
Does the computer output clearly identify the appropriate units?
The output units are not identified in the output document. Tallies have been modified through multipliers and dose response functions. This process has been adequately
~
documented within this calculation.
- 58.
Are the computer outputs reasonable when compared to the inputs and what was expected?
Only basic functions and operations in Microsoft Excel 2013 were applied in this
~
calculation.
- 59.
Was the computer output reviewed for ERROR or WARNING messages that could invalidate the results?
~
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While warning messages exist, they do not impact the results.
RESULTS AND CONCLUSIONS
- 60.
Is adequate acceptance criteria specified?
No acceptance criteria required for this evaluation.
~
- 61.
Are the stated acceptance criteria consistent with the purpose of the calculation, and
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intended use?
CSP 3.03 Revision 1 Attachment C
CALC NO.
EPM017-CALC-001 g ENERCON CALCULATION PREPARATION REV.
0 Excellence-Every pro1ect. Eve,y day.
CHECKLIST PAGE NO.
6 of 6 CHECKLIST ITEMS1 YES NO N/A
- 62.
Are the stated acceptance criteria consistent with the plant's design basis, applicable
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licensing commitments and industry codes, and standards?
- 63.
Do the calculation results and conclusions meet the stated acceptance criteria?
~
- 64.
Are the results represented in the proper units with an appropriate tolerance, if
~
applicable?
- 65.
Are the calculation results and conclusions reasonable when considered against the
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stated inputs and objectives?
- 66.
Is sufficient conservatism applied to the outputs and conclusions?
~
- 67.
Do the calculation results and conclusions affect any other calculations?
No ENERCON calculations are affected by this evaluation.
~
- 68.
If so, have the affected calculations been revised?
~
- 69.
Does the calculation contain any conceptual, unconfirmed or open assumptions
~
requiring later confirmation?
- 70.
If so, are they properly identified?
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DESIGN REVIEW
- 71.
Have alternate calculation methods been used to verify calculation results?
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Note:
- 1. Where required, provide clarification/justification for answers to the questions in the space provided below each question. An explanation is required for any questions answered as "No' or "N/A".
Originator:
12/21/2015 Print Name and Sign Date CSP 3.03 Revision 1 Attachment C