ML19149A624

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Missouri s & T Reactor - 2018-2019 Annual Progress Report for Missouri University of Science and Technology Reactor
ML19149A624
Person / Time
Site: University of Missouri-Rolla
Issue date: 05/29/2019
From: Taber E
Missouri S & T Reactor
To:
Document Control Desk, Office of Nuclear Reactor Regulation
References
Download: ML19149A624 (40)


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An equal opponunity instltution MISSOURI S&f Missouri S & T Reactor 250 West 13 th St, Rolla, MO 65409-0450 (573)341-4236 \ reactor@mst.edu \ reactor.mst.edu May 29, 2019 ATTN: Document Control Desk U.S. Nuclear Regulatory Commission Washingtion, DC 20555-0001

SUBJECT:

2018-2019 ANNUAL PROGRESS REPORT FOR MISSOURI UNIVERSITY OF SCIENCE AND TECHNOLOGY REACTOR

Dear Sirs:

Please find enclosed the 2018-2019 Annual Progress Report for the Missouri University of Science and Technology Reactor (License R-79, Docket No. 50-123). This report is being filed under the reporting requirements of MSTR Technical Specification 6.7.1. A copy of this report is also being sent to our NRC Project Manager, Mr. William Kennedy, and our NRC Backup Project Manager, Mr. Xiaosong Yin.

Should you have any questions, please contact me at (573) 341-4291 or etaber@mst.edu.

Sincerely, Ethan Taber Reactor Manager, MSTR Enclosure Cc: Mr. William Kennedy, Project Manager (NRC)

Mr. Xiaosong Yin, Backup Project Manager (NRC)

Dr. Joseph Graham, Reactor Director (S&T)

Dr. Christopher Maples, Interim Chancellor (S&T)

Ms. Cuba Plain, Interim Vice Chancellor for Finance and Operations (S&T)

Mr. Ted Ruth, Asst. Vice Chancellor for Facilities Services (S&T)

Dr. Richard Wlezein, Vice Provost and Dean, CEC (S&T)

Dr. Hyoung Lee, Associate Professor and Program Chair of Nuclear Eng. (S&T)

Dr. Mark Fitch, Chairman, Radiation Safety Committee (S&T)

Ms. Michelle Bresnahan, Radiation Safety Officer and Director of EHS (S&T)

Mr. Andrew Careaga, Executive Director of Marketing and Communications (S&T)

PROGRESS REPORT FOR THE MISSOURI UNIVERSITY OF SCIENCE AND TECHNOLOGY NUCLEAR REACTOR FACILITY April 1, 2018 to March 31, 2019 Submitted to The United States Nuclear Regulatory Commission And Missouri University of Science and Technology

i TABLE OF CONTENTS INTRODUCTION........................................................................................................................... 1 1.1 Background Information ............................................................................................................... 1 1.2 General Facility Status .................................................................................................................. 2 REACTOR STAFF AND PERSONNEL ...................................................................................... 5 2.1 Reactor Staff ................................................................................................................................. 5 2.2 Licensed Operators ....................................................................................................................... 5 2.3 Radiation Safety Committee ......................................................................................................... 6 2.4 Health Physics ............................................................................................................................... 7 REACTOR OPERATIONS ........................................................................................................... 9 EDUCATIONAL UTILIZATION............................................................................................... 13 REACTOR HEALTH PHYSICS ACTIVITIES ........................................................................ 17 PLANS ........................................................................................................................................... 21 6.1 Reactor Documentation............................................................................................................... 21 6.2 Replacing Control Room Equipment .......................................................................................... 21 LIST OF TABLES Table 1-1 List of MSTR SOP Revised......................................................................................................... 3 Table 2-1 MSTR Staff ................................................................................................................................. 5 Table 2-2 MSTR Operators ......................................................................................................................... 5 Table 2-3 Radiation Safety Committee Members ........................................................................................ 6 Table 2-4 Health Physics and EHS Staff ..................................................................................................... 7 Table 3-1 MSTR Core 128 Technical Data ................................................................................................. 9 Table 3-2 Reactor Utilization..................................................................................................................... 10 Table 3-3 Experimental Facility Usage ..................................................................................................... 10 Table 3-4 Unplanned Shutdowns (Rundowns) .......................................................................................... 11 Table 3-5 Unplanned Shutdowns (Scrams) ............................................................................................... 11 Table 3-6 Maintenance .............................................................................................................................. 12 Table 4-1 S&T Classes at MSTR............................................................................................................... 13 Table 4-2 Reactor Sharing Program........................................................................................................... 14 LIST OF FIGURES Figure 3-1 MSTR Core 128 Configuration .................................................................................................. 9

An equal opponunity instltution MISSOURI S&f Missouri S & T Reactor 250 West 13 th St, Rolla, MO 65409-0450 (573)341-4236 \ reactor@mst.edu \ reactor.mst.edu May 29, 2019 ATTN: Document Control Desk U.S. Nuclear Regulatory Commission Washingtion, DC 20555-0001

SUBJECT:

2018-2019 ANNUAL PROGRESS REPORT FOR MISSOURI UNIVERSITY OF SCIENCE AND TECHNOLOGY REACTOR

Dear Sirs:

Please find enclosed the 2018-2019 Annual Progress Report for the Missouri University of Science and Technology Reactor (License R-79, Docket No. 50-123). This report is being filed under the reporting requirements of MSTR Technical Specification 6.7.1. A copy of this report is also being sent to our NRC Project Manager, Mr. William Kennedy, and our NRC Backup Project Manager, Mr. Xiaosong Yin.

Should you have any questions, please contact me at (573) 341-4291 or etaber@mst.edu.

Sincerely, Ethan Taber Reactor Manager, MSTR Enclosure Cc: Mr. William Kennedy, Project Manager (NRC)

Mr. Xiaosong Yin, Backup Project Manager (NRC)

Dr. Joseph Graham, Reactor Director (S&T)

Dr. Christopher Maples, Interim Chancellor (S&T)

Ms. Cuba Plain, Interim Vice Chancellor for Finance and Operations (S&T)

Mr. Ted Ruth, Asst. Vice Chancellor for Facilities Services (S&T)

Dr. Richard Wlezein, Vice Provost and Dean, CEC (S&T)

Dr. Hyoung Lee, Associate Professor and Program Chair of Nuclear Eng. (S&T)

Dr. Mark Fitch, Chairman, Radiation Safety Committee (S&T)

Ms. Michelle Bresnahan, Radiation Safety Officer and Director of EHS (S&T)

Mr. Andrew Careaga, Executive Director of Marketing and Communications (S&T)

PROGRESS REPORT FOR THE MISSOURI UNIVERSITY OF SCIENCE AND TECHNOLOGY NUCLEAR REACTOR FACILITY April 1, 2018 to March 31, 2019 Submitted to The United States Nuclear Regulatory Commission And Missouri University of Science and Technology

i TABLE OF CONTENTS INTRODUCTION........................................................................................................................... 1 1.1 Background Information ............................................................................................................... 1 1.2 General Facility Status .................................................................................................................. 2 REACTOR STAFF AND PERSONNEL ...................................................................................... 5 2.1 Reactor Staff ................................................................................................................................. 5 2.2 Licensed Operators ....................................................................................................................... 5 2.3 Radiation Safety Committee ......................................................................................................... 6 2.4 Health Physics ............................................................................................................................... 7 REACTOR OPERATIONS ........................................................................................................... 9 EDUCATIONAL UTILIZATION............................................................................................... 13 REACTOR HEALTH PHYSICS ACTIVITIES ........................................................................ 17 PLANS ........................................................................................................................................... 21 6.1 Reactor Documentation............................................................................................................... 21 6.2 Replacing Control Room Equipment .......................................................................................... 21 LIST OF TABLES Table 1-1 List of MSTR SOP Revised......................................................................................................... 3 Table 2-1 MSTR Staff ................................................................................................................................. 5 Table 2-2 MSTR Operators ......................................................................................................................... 5 Table 2-3 Radiation Safety Committee Members ........................................................................................ 6 Table 2-4 Health Physics and EHS Staff ..................................................................................................... 7 Table 3-1 MSTR Core 128 Technical Data ................................................................................................. 9 Table 3-2 Reactor Utilization..................................................................................................................... 10 Table 3-3 Experimental Facility Usage ..................................................................................................... 10 Table 3-4 Unplanned Shutdowns (Rundowns) .......................................................................................... 11 Table 3-5 Unplanned Shutdowns (Scrams) ............................................................................................... 11 Table 3-6 Maintenance .............................................................................................................................. 12 Table 4-1 S&T Classes at MSTR............................................................................................................... 13 Table 4-2 Reactor Sharing Program........................................................................................................... 14 LIST OF FIGURES Figure 3-1 MSTR Core 128 Configuration .................................................................................................. 9

iii ACKNOWLEDGEMENTS I would like to recognize current and former members of the Missouri S&T Reactor staff who contributed heavily to the development of this document. Mr. Craig Reisner, Ms. Laura Pirrone, Ms. Nhi (Lily) Ma, and Ms. Alice Skye contributed in the areas of data collection, document generation, and document review. They have my sincerest thanks.

Ethan Taber Reactor Manager, MSTR

v

SUMMARY

During the 2018-2019 reporting period, the Missouri University of Science and Technology Reactor (MSTR) was in use for 2155 hours0.0249 days <br />0.599 hours <br />0.00356 weeks <br />8.199775e-4 months <br />. The majority of this time (~92%) was used for class instruction, research, and training purposes.

The MSTR operated safely and efficiently over the past year. No significant safety-related incidents or personnel exposures occurred.

The reactor facility supported several Missouri University of Science and Technology (S&T) courses and operator training over the year for a total of 1452 student-hours. The reactor was visited by 531 visitors during the past year. There were 305 of these visitors that participated in labs at the reactor.

The reactor produced 17450.27 kilowatt-hours of thermal energy using approximately 0.902 grams of uranium. A total of 162 samples were neutron irradiated in the reactor with the majority being analyzed in the reactor counting laboratory.

1 INTRODUCTION This progress report covers activities at the Missouri University of Science and Technology Reactor (MSTR) Facility for the period April 1, 2018 to March 31, 2019.

The reactor operates as a Missouri University of Science and Technology (S&T) facility.

It is available to the faculty and students from various departments of the University for their educational and research programs. Several other college and pre-college institutions also make use of the facility. The reactor is also available for the training of personnel from commercial concerns with legitimate interest in our facility use.

1.1 Background Information The MSTR attained initial criticality on December 9, 1961 and was the first operating nuclear reactor in the State of Missouri. The Bulk Shielding Reactor at Oak Ridge National Laboratory is the basis for the reactors design, as the MSTR is a light water, open pool reactor cooled by natural convective flow. The initial licensed power was 10 kW, which was up-rated to 200 kW in 1966. The MSTR utilizes Materials Testing Reactor (MTR) plate-type fuel and was converted from an original high-enriched uranium to low-enriched uranium fuel loading during the summer of 1992. The MSTR license was renewed for another 20 years in March of 2009.

The facility is equipped with several experimental facilities including a beam port, thermal column, three pneumatic transfer (rabbit) systems, and several manual sample irradiation containers and systems. The facility also contains a counting laboratory that has gamma spectroscopy capabilities. The gamma spectroscopy systems include germanium and sodium-iodide detectors, associated electronics, and state-of-the-art data acquisition and spectrum analysis equipment. Additionally, there is a liquid scintillation counter, thermoluminescent dosimeter reader, and x-ray imager for student and faculty use.

2 1.2 General Facility Status The MSTR operated safely and efficiently over the past year. No significant safety-related incidents or personnel exposures occurred.

No major upgrades or changes to the facility were performed over the past year.

However, new electronic dosimeters were procured and put into service to replace the existing units.

The updated MSTR Emergency Plan from 2017 remains in effect. Training under this plan was completed in January 2019. Efforts are underway between S&T Police, campus Environmental Health and Safety, and MSTR staff to conduct a large-scale injured person contamination drill.

On August 6-9, 2018, the Nuclear Regulatory Commission (NRC) conducted an inspection at the MSTR. The inspection covered the following areas: procedures; experiments; health physics; design changes; committees, audits and reviews; and transportation. The MSTR was notified during the inspection and by subsequent letter (dated August 30, 2018), that a Severity Level IV violation of NRC requirements had occurred. It was determined that contrary to MSTR Emergency Plan requirements, the NRC inspector found that, during calendar year 2017, no evacuation drills were held at the facility during either regular semester. In response (letter dated September 14, 2018), it was noted that evacuation drills have been performed in accordance with the MSTR Emergency Plan prior to and after the violation time frame, and that the drills have been incorporated into the MSTR Operator Training Program as of Spring 2018.

The MSTR was otherwise found to be compliant with current NRC requirements and MSTR Technical Specifications.

On November 26-29, 2018, the NRC conducted an inspection of the MSTR with regards to security. No significant security concerns or findings of non-compliance with NRC requirements were identified.

3 Independent auditors from the University of Missouri Research Reactor (MURR) audited the reactor facility on November 28, 2018. The audit cited an improvement in the written entries in to the Control Room Permanent Log Book, posting the current Health Physics surveys, and upgrading the dosimetry for visitors. It is noted that there is an agreement between MSTR and MURR to audit each other on an annual basis, which has been a very beneficial arrangement for both facilities.

In October, 2018, three students underwent NRC licensing examinations. The SRO license upgrade candidate and an operator trainee passed their respective exams. The remaining operator trainee failed a single exam section and is expected to retake the section in the following months.

The reactor staff have continued to review the operation of the reactor facility in an effort to improve the safety and efficiency of its operation and to provide conditions conducive to its utilization by students and faculty. The reactor is used mainly by the Nuclear Engineering Department for classes and research. The Reactor Lab II class reaches out to other departments on campus for collaboration projects. The reactor is working on resurrecting the reactor outreach program that was started in 1990 but has declined over past years.

Substantial efforts have continued to be invested in revising MSTR documentation, such as the SOPs, SAR, and other materials. Table 1-1 lists SOPs revised during the reporting period.

Note that these SOPs are provided in the appendices.

Table 1-1 List of MSTR SOP Revised SOP Title Index Index SOP 100 Preamble SOP 101 General Operational Procedures SOP 501 Emergency Procedures for Reactor Building Evacuation

5 REACTOR STAFF AND PERSONNEL 2.1 Reactor Staff Table 2-1 MSTR Staff Name Title Dr. Joseph Graham Reactor Director Mr. Ethan Taber Reactor Manager1 Mr. Craig Reisner Senior Reactor Operator2 / Interim Reactor Manager3 Mr. Anthony Alchin Electronic Technician II & Senior Reactor Operator Ms. Laura Pirrone Senior Reactor Operator (Part-Time)

Mr. Keith Kellett Reactor Operator (Part-Time)

Mr. Isaac Mulhern Reactor Operator (Part-Time)

Ms. Nhi Ma Reactor Staff (Part-Time)

Ms. Alice Skye Reactor Staff (Part-Time) 2.2 Licensed Operators Table 2-2 MSTR Operators Name License Type Craig Reisner Senior Operator William Bonzer Senior Operator4 Anthony Alchin Senior Operator Laura Pirrone Senior Operator5, Reactor Operator Nicholas Allen Reactor Operator6 Andrew Bingham Reactor Operator6 Keith Kellett Reactor Operator Isaac Mulhern Reactor Operator5 Jonathan Scott Reactor Operator6 Steve Wagstaff Reactor Operator6 1

Effective Date: January 2019 2

Termination Date: March 2019 3

Termination Date: January 2019 4

Termination Date: May 2018 5

Effective Date: December 2018 6

Termination Date: September 2018

6 2.3 Radiation Safety Committee The Missouri S&T Radiation Safety Committee performs on-campus oversight of the MSTR operations and meets quarterly. The committee met on 6/4/2018, 9/20/2018, 12/6/2018 and 3/12/2019 during the reporting period. The committee members are listed in Table 2-3.

Table 2-3 Radiation Safety Committee Members Name Department Dr. Mark Fitch Civil, Architectural, and Environmental Engineering Ms. Michelle Bresnahan Environment Health and Safety Services Dr. David Wronkiewicz Geosciences and Geological Engineering Dr. Shoaib Usman Mining and Nuclear Engineering Dr. Fadha Al Falahi Environmental Health and Safety Services Dr. Yue-Wern Huang Biological Sciences Dr. Carlos Castano Mining and Nuclear Engineering Dr. Amitava Choudhury Chemistry Mr. Tony Hunt Environmental Health and Safety Services Dr. Muthanna Al-Dahhan Chemical and Biological Engineering Dr. Joseph Graham Mining and Nuclear Engineering Mr. Ethan Taber7 Missouri S&T Reactor Mr. Craig Reisner7 Missouri S&T Reactor Mr. Anas Massri Assistant Vice Chancellor, Fiscal Services 7

Mr. Taber replaced Mr. Reisner on the committee effective January 2019

7 2.4 Health Physics The Environmental Health and Safety (EHS) Department provides the health physics support for the Missouri S&T Reactor. The EHS Department is organizationally independent of the Reactor Facility operations group. Health Physics personnel are listed in Table 2-4.

Table 2-4 Health Physics and EHS Staff Name Title Ms. Michelle Bresnahan Director of EHS, Radiation Safety Officer Mr. Tony Hunt Assistant Director of EHS Dr. Fadha Al Falahi Health Physicist, Laser Safety Officer Mr. Reagan Dugan Health Physics Technician (Part-time)

Ms. Jenna Slocum Health Physics Technician (Part-time)

Mr. Brandon Ochterbeck Health Physics Technician (Part-time)

Mr. Bradley Faison Health Physics Technician (Part-time)

Mr. Friedrich May Health Physics Technician (Part-time)

9 REACTOR OPERATIONS Core designation 128W is presently in use. The W mode core is completely water reflected and used for normal operations and beam port operations. The T mode (core positioned near graphite thermal column) may be used for various experiments and thermal column usage.

Table 3-1 presents pertinent core data for core designation 128, while Figure 3-1 shows the core configuration. The excess reactivity, shutdown margin, and rod worths were previously measured in February 2018. The measurements were taken in both T and W mode with reference core conditions.

Table 3-1 MSTR Core 128 Technical Data Rod Worth (%k/k) Shutdown Excess Core Mode Margin Reactivity Rod #1 Rod #2 Rod #3 Reg. Rod

(%k/k) (%k/k)

W 2.6066 2.2023 2.1376 0.5159 3.7455 0.5944 128 T 2.6416 2.1444 2.1374 0.5630 3.6296 0.6522 Key to Prefixes for Core Configuration F Full Element C Control Element HF Half Front Element HR Half Rear Element IF Irradiation Fuel Element BRT Bare Rabbit CRT Cadmium Rabbit HC Hot Cell Rabbit S Source A S B HR2 F2 C F4 C4 F17 C1 F5 D F16 F13 F11 F14 F18 E F8 C5 F15 C2 F9 F CRT HF1 HC HF2 BRT 1 2 3 4 5 6 7 8 9 Figure 3-1 MSTR Core 128 Configuration

10 Table 3-2 shows facility use other than the reactor and Table 3-3 shows reactor utilization.

Table 3-2 Reactor Utilization Reactor use 327.9 hr.

Time at power 231.2 hr.

Energy generated 17450.3 kW-hr.

Total number of samples, neutron irradiated 162 U-235 burned 0.763 g U-235 burned and converted 0.902 g Table 3-3 Experimental Facility Usage Facility Hours Bare Rabbit Tube 32.9 Cadmium Rabbit Tube 0.0 Beam port 4.2 Thermal Column 0.0 Other Core Positions 12.1 Hot Cell 0.0 Gamma Exposures 766.4 Total 815.5 Table 3-4 and Table 3-5 present a listing of unscheduled shutdowns (scrams, rundowns, and unplanned normal shutdowns) along with their causes and corrective actions. Maintenance activities are listed in Table 3-6. Note that all date and time entries in these tables utilize the ISO 8601 standard.

11 Table 3-4 Unplanned Shutdowns (Rundowns)

SRO on Duty Date/Time Type Cause Corrective Action Permission to Restart Reg Rod Insert Limit on Operator forgot Reg Rod was 2018-08-29T15:19-05:00 None Yes Auto fully inserted Operator was not watching Operator had someone else complete 2018-10-17T14:18-05:00 120% Demand Yes console and missed upscale paperwork so they could watch the upscale Operator returned to the appropriate scale, Operator downscaled after 2018-10-19T14:34-05:00 120% Demand instructed to remember the scale that is Yes upscaling being stabilized on Operator instructed to be more diligent in 2019-03-26T10:31-05:00 120% Demand Operator neglected to upscale Yes future Table 3-5 Unplanned Shutdowns (Scrams)

SRO on Duty Date/Time Type Cause Corrective Action Permission to Restart None, as trip occurred during fuel Moving fuel too close to the 2018-08-01T15:17-05:00 5 Second Period Scram movement. Operations were concluded for No Log and Linear CIC detector the day.

Lost magnet power to 2019-01-31T11:28-06:00 Unplanned shutdown None. Yes magnets 2 and 3 2019-03-05T09:19-06:00 Unplanned shutdown Loss of electric None Yes

12 Table 3-6 Maintenance Date/Time Issue or Basis Action or Corrective Action 2018-07-06 Channel calibration Log count rate channel calibration was completed.

2018-07-20T13:23-05:00 Channel calibration Linear channel calibration was completed.

2018-07-20T14:00-05:00 Rod visual inspection All three rod drives and magnet assemblies were removed from core for rod visuals.

2018-07-30 Rod visual inspection Rods 1, 2, and 3 were individually removed, inspected, and reinserted. Rod drives and magnet assemblies were reinstalled. Rod drop time test and rod indicator calibrations were completed. All work was completed by 2018-07-30T15:54-05:00.

2018-08-31T12:10-05:00 Channel calibration Log & Linear and Safety channel calibrations were completed 2018-09-21 Thermocouple calibration Thermocouples 1 and 2 were removed for annual calibration and reinstalled 2018-09-24T10:33-05:00.

2019-02-11T09:51-06:00 Magnet current adjustment screw Magnet power supply was removed for minor maintenance and returned to unseated service. Rod drop current test was performed and results were satisfactory.

2019-02-11T02:31-06:00 Primary CAM housing stripped Primary CAM removed from service for maintenance. Auxiliary CAM activated.

2019-02-14T02:34-06:00 Primary CAM housing stripped Repaired primary CAM and placed back into service.

2019-03-01 Power calibration 13:15-06:00 Linear detector adjusted from 40 kW to 43 kW.

13:29-06:00 Log & Linear detector inserted to read 50.0% Power Range from 49.4% Power Range.

13:58-06:00 Log & Linear and Safety Channels adjusted to match Linear channel, detectors moved in.

2019-03-28T15:40-05:00 Startup channel exhibiting signal Fission chamber was removed and reinstalled to accommodate maintenance. Coax noise cable was replaced.

13 EDUCATIONAL UTILIZATION The reactor facility supported 11 Nuclear Engineering courses in the past year for a total of 300 students and 1920.6 student-hours. The reactor supported 14 graduate students for total of 718.1 hours1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> and Reactor Operator Training for 6-10 students for 213 hours0.00247 days <br />0.0592 hours <br />3.521825e-4 weeks <br />8.10465e-5 months <br />. The MSTR was able to provide financial support for two student workers with hourly wages and have two students from the S&T work study program. The reactor supported tours from six teaching institutions, four camps, and three non-Nuclear tours for total of 692 tour-hours.

Table 4-1 lists Missouri S&T classes taught at the facility along with associated reactor usage for this reporting period.

Table 4-1 S&T Classes at MSTR Time at

  1. of Student Semester Class Number/Title Reactor Students Hours (hrs.)

SP 2018 NE 1105: Nuclear Technology Applications 19 1.0 19.0 SP 2018 NE 2406: Reactor Operations I 28 17.0 476.0 NE 4312: Nuclear Radiation Measurements SP 2018 40 6.3 250.0 and Spectroscopy SP 2018 NE 4438: Reactor Laboratory II 20 17.2 343.2 FS 2018 NE 1105: Nuclear Technology Applications 36 4.5 162.0 FS 2018 NE 2406: Reactor Operations I 9 39.5 355.5 FS 2018 NE 4428: Reactor Laboratory I 31 19.7 611.3 SP 2019 NE 1105: Nuclear Technology Applications 8 1.9 14.8 SP 2019 NE 2406: Reactor Operations I 11 23.0 253.0 SP 2019 NE 3406: Reactor Operations II 1 1.0 1.0 NE 4312: Nuclear Radiation Measurements SP 2019 34 2.5 85.0 and Spectroscopy SP 2019 NE 4438: Reactor Laboratory II 21 34.8 723.0

14 The Reactor Sharing Program was a U.S. Department of Energy (DOE) project intended to establish awareness and share education about the nuclear field beyond the campus. The MSTR established a corresponding program in 1990 and, while no longer DOE funded, is still active at the MSTR. As a related component, future nuclear engineering students are also brought to the facility for departmental tours.

During the reporting period, 531 students, instructors and public guests visited the MSTR facility for total of 536 hours0.0062 days <br />0.149 hours <br />8.862434e-4 weeks <br />2.03948e-4 months <br />. Of these 531 individuals, 305 participated in some kind of lab in the facility. Table 4-2 lists those schools and groups that were involved in this years program that are not part of S&T Nuclear Engineering Department. The majority of participants were high school students. The Reactor Sharing Program serves as a strong campus-wide recruiting tool by attracting high school students to the university and generating interest in nuclear engineering, science, and technology.

Table 4-2 Reactor Sharing Program Time at

  1. of Visitor-Date Event/Group Reactor Visitors Hours (hrs.)

04/04/2018 East Central College 20 1.33 26.7 04/18/2018 MST MSE 5230/6220 23 0.75 17.3 05/02/2018 Dr. Gellis Energy class 13 0.75 9.8 05/14/2018 Fort Leonard Wood CBRN 17 1.00 17.0 06/04/2018 Jackling Camp 19 1.77 33.6 06/06/2018 Nuclear Engineering Camp 18 1.07 19.2 06/12/2018 Jackling Camp 6 1.83 11.0 06/14/2018 Jackling Camp 30 1.00 30.0 06/26/2018 Jackling Camp 18 1.00 18.0 06/27/2018 Dr. Schlegel Student Tour 2 1.17 2.3 06/28/2018 Jackling Camp 17 1.33 22.7 07/06/2018 Discovery Days 3 0.25 0.8

15 Table 4-2 (Cont.)

Time at

  1. of Visitor-Date Event/Group Reactor Visitors Hours (hrs.)

07/09/2018 Jackling Camp 20 0.48 9.7 07/12/2018 Jackling Camp 14 1.27 17.7 07/12/2018 Jackling Camp 18 1.22 21.9 07/23/2018 WU Tour 5 0.45 2.3 07/24/2018 Fort Leonard Wood CBRN 15 1.83 27.5 07/24/2018 Admissions Tour 11 2.05 22.6 07/27/2018 Discovery Days 7 1.18 8.3 08/10/2018 University of Tennessee Knoxville 2 1.12 2.2 08/24/2018 MCHS 3 0.22 0.7 09/15/2018 University of Illinois 10 4.05 40.5 10/01/2018 NCSU 1 0.37 0.4 10/08/2018 HLC 4 0.25 1.0 10/18/2018 American Nuclear Society 50 0.50 25.0 10/19/2018 Eldon High School 5 1.50 7.5 10/26/2018 Discovery Days 2 0.28 0.6 11/02/2018 Reactor Tours 20 0.77 15.3 11/03/2018 Reactor Tours 20 0.65 13.0 11/14/2018 East Central College 13 1.77 23.0 02/02/2019 Boy Scouts 19 0.50 9.5 02/02/2019 Boy Scouts 25 0.37 9.2 02/15/2019 Discovery Days 11 0.50 5.5 02/15/2019 Discovery Days 3 0.80 2.4 02/18/2019 Admissions Tour 4 1.00 4.0 02/23/2019 AUC Facility Tour 13 0.72 9.3 02/26/2019 JSHS 27 0.67 18.0 03/08/2019 Fort Leonard Wood CBRN 23 1.33 30.7

17 REACTOR HEALTH PHYSICS ACTIVITIES The health physics activities at the Missouri S&T Reactor facility consist primarily of radiation and contamination surveys, monitoring of personnel exposures, airborne activity, pool water activity, and waste disposal. Releases of all by-product material to authorized, licensed recipients are surveyed and recorded. In addition, health physics activities include calibrations of portable and stationary radiation detection instruments, personnel training, special surveys and monitoring of non-routine procedures.

5.1 Routine Surveys Monthly radiation exposure surveys of the facility consist of direct gamma and neutron measurements. No unusual exposure rates were identified. Monthly surface contamination surveys consist of 20 to 40 swipes counted separately for alpha and beta/gamma activity. No significant contamination outside of contained work areas were found.

5.2 By-Product Material Release Surveys There were no shipments of by-product material released off-campus. A total of 11.4 µCi of by-product materials were transferred on-campus to S&Ts materials license in accordance with SOP 603, Release of By-Product Materials on Campus, and the Missouri S&Ts Handbook of Radiological Operations.

5.3 Routine Monitoring Approximately 30 reactor facility personnel and students involved with the operations or regular experiments in the reactor facility are assigned Mirion Technologies Genesis Ultra Thermoluminescent Dosimeters (TLDs). The quantity of issued TLDs varies throughout the year due to class enrollment and personnel turnover, with reactor staff and operator trainees issued TLDs as soon as practical after their start. The full-time Reactor Staff have beta, gamma, and neutron whole-body TLDs along with individual TLD rings and five area dosimeters. This staff

18 dosimetry set is read twice monthly. There have been no significant personnel exposures during this reporting period.

There are three environmental TLDs outside the reactor building which are read quarterly. There are also five other beta, gamma, neutron dosimeters used by the health physics personnel and four other area beta, gamma neutron dosimeters that are read monthly. All remaining dosimeters are also read monthly. In addition, 10 digital, direct-reading dosimeters were procured in late 2018 to replace existing, aging digital dosimeters and are used for non-TLD-issued students and visitors. These digital dosimeters are also used for high radiation work along with audible dosimeters. No students or visitors received any reportable or significant exposure.

Airborne activity in the reactor bay is monitored by a fixed filter, particulate continuous air monitors (CAM). Low levels of Argon-41 are routinely produced during operations.

Pool water activity is monitored monthly to ensure that no gross pool contamination or fuel cladding rupture has occurred. Gross counts and spectra of long-lived gamma activity are compared to previous monthly counts. From April 2018 through March 2019 sample concentrations averaged 9.1x10-6 µCi/mL.

Release of gaseous Ar-41 activity through the building exhausts is determined by relating the operating times of the exhaust fans and reactor power during fan operation to previously measured air activity at maximum reactor power. During, this period, an estimated 70,100 µCi of Ar-41 was released into the air.

5.4 Waste Disposal Solid waste, including water filters, used resins, and contaminated paper/gloves is stored and/or transferred to the campus waste storage area for later shipment to a commercial burial site. Water is analyzed for radioactive contamination and approval is required before the water is released. No waste was transported offsite during the reporting period.

19 5.5 Instrument Calibrations Portable survey instruments and meters are calibrated annually. Thirteen meters were calibrated on 9/21/2018, with the next calibration due in September 2019. Eight meters were calibrated on 3/14/2019, with the next calibration due in March 2020. Portable ion chambers were calibrated by an offsite vendor (Ludlum Instruments) on a rotating schedule of 6/18/2018, 8/6/2018, and 1/11/2019.

The previous digital dosimeters were calibrated 4/26/2018 and were replaced in October 2018. Half of the replacement dosimeters were calibrated (offsite) on 8/19/2018, with the remaining half calibrated on 3/5/2018 (also offsite).

The radiation area monitors were calibrated on 7/31/2018, with the next calibration due August 2019.

PLANS The reactor staff will continue to be involved in four major undertakings during the next reporting period: 1) updating the reactor documentation, specifically the SAR and SOPs, 2) replacing control room equipment, 3) expanding research to outside companies and other departments and 4) continuation of the reactor operator training program.

6.1 Reactor Documentation The SAR remains in need of updates. In the past 7 years the reactor has undergone several changes that have not been corrected or fully-documented in the SAR. The control room upgrades and chiller upgrades are among those projects.

The SOPs continue to be updated with the new university name in addition to minor changes and corrections. Any remaining non-digitalized checklists are also intended to be reformatted into fillable PDF files with electronic signatures.

6.2 Replacing Control Room Equipment A process of modernizing control room instrumentation started in 2017 with the Temperature and CAM recorder. Equipment to be replaced will be selected on a priority basis of what needs replaced and scope of project. Control room equipment replacement will have a thorough analysis of a 10 CFR 50.59 screening and evaluation/review process. The reactor staff will present the completed 10 CFR 50.59 review to the Radiation Safety Committee as required by MSTR Technical Specifications. The initial focus will be for converting the remaining paper recorders to paperless systems.

6.3 Reactor Operator Training The MSTR had two students obtain their license of Reactor Operator. The reactor staff is limiting operator training to approximately ten students with a very strong desire to obtain the license and assist reactor staff with reactor operations. The new training program has proven to be effective in keeping the students that want the license and work with reactor staff. At the end of the reporting period, six students were training for an operators license to take in the fall of 2019. The Reactor Manager, Reactor Director, and an additional faculty member are all also preparing for Reactor Operator and Senior Reactor Operator examinations in fall 2019.

Appendices and Attachments

      • MISSOURI S&T REACTOR STANDARD OPERATING PROCEDURES ***

SOP: Index TITLE: INDEX Revised: February 20, 2019 Page 1 of 3 SOP 100-199 Routine Reactor Operation SOP 100 Preamble SOP 101 General Operational Procedures SOP 102 Pre-Startup Checklist Procedures SOP 103 Reactor Startup to Low Power SOP 104 Reactor Power Changes and Stable Operations SOP 105 Reactor Shutdown & Reactor Securing Procedures SOP 106 Restart of Reactor When It Is Not Secured SOP 107 Permanent Log, Hourly Log, and Operational Data SOP 109 Determination of Control Rod Worths by the Rod Drop Method SOP 110 Calibration of Control Rods by Positive Period Method SOP 111 Measurement of Core Excess Reactivity and Determination of Shutdown Margin SOP 112 Fuel Management SOP 150 Response to Alarms SOP 151 Response to a High Area Radiation Alarm SOP 200-299 Facility Operations SOP 200 Bridge Movement Procedure SOP 206 Installation and Removal of Experimental Facilities SOP 207 Fuel Handling SOP 208 Reactor Security SOP 209 Securing the Building SOP 210 Occupying Building When Intrusion System Inoperative SOP 300-399 Special Operations SOP 301 Pool Water System SOP 302 Inspection of Control Rod SOP 306 Estimation of Activity and Reactivity Worth of a Sample Rev.

SOP 308 Restoration of AC Power Following a Power Outage SOP 309 Response to a Coolant System Leak SOP 310 10 CFR 50.59 Changes, Tests, and Experiments Rev.

SOP 311 Receipt of Licensed Materials SOP 312 Critical Experiment Procedures SOP 400-499 Reserved for Future Use Revised By: Ethan Taber Approved By: Ethan Taber

      • MISSOURI S&T REACTOR STANDARD OPERATING PROCEDURES ***

SOP: Index TITLE: INDEX Revised: February 20, 2019 Page 2 of 3 SOP 500-599 Emergency Procedures SOP 501 Emergency Procedures for Reactor Building Evacuation SOP 502 Emergency Procedures for an Unusual Event SOP 503 Emergency Procedures for an Alert SOP 504 Emergency Procedures for a Site Area Emergency SOP 505 Enhanced Reactor Security SOP 506 Bomb Threat SOP 507 Emergency Procedures - Administrative Responsibilities SOP 508 Tornado Threat SOP 509 Fire SOP 510 Earthquake SOP 511 Response to Missing Special Nuclear Material SOP 600-699 Health Physics Procedures SOP 600 General Health Physics SOP 601 Handling of Radioactive Samples SOP 602 Entry Into A High Radiation Area SOP 603 Release of By-product Materials On Campus SOP 604 Radioactive Waste Handling SOP 615 Radiation Work Permit SOP 620 Decontamination Procedures SOP 621 Guidelines for Emergency Exposures SOP 622 Handling Injured in Radiation Accidents SOP 650 Radiation Area Survey SOP 651 Contamination Survey SOP 652 Pool Water Tritium Analysis SOP 653 Sealed Source Leak Test SOP 654 Measurement of 41Ar Concentration in the Reactor Building Air SOP 655 Radiation Area Monitor (RAM) Calibrations Revised By: Ethan Taber Approved By: Ethan Taber

      • MISSOURI S&T REACTOR STANDARD OPERATING PROCEDURES ***

SOP: Index TITLE: INDEX Revised: February 20, 2019 Page 3 of 3 SOP 700 - 799 Experiments SOP 702 Irradiation Request Forms SOP 710 Insertion and Removal of Experiments SOP 711 Beam Hole Facility SOP 712 Thermal Column Facility SOP 800 - 899 Reactor Instrumentation SOP 800 Annual Checklist SOP 801 Log and Linear Drawer Calibration SOP 802 Linear Channel SOP 803 Log Count Rate (LCR) Channel SOP 804 Safety Amplifier System SOP 806 Temperature Channel SOP 810 Weekly Check SOP 811 Fire and Smoke Alarm System SOP 812 Confinement and Ventilation System Check SOP 813 Rod Drop Time Measurement SOP 816 MSTR Power Calibration Rev.

SOP 818 Function Test of Building Security System Revised By: Ethan Taber Approved By: Ethan Taber

      • MISSOURI S&T REACTOR STANDARD OPERATING PROCEDURES ***

SOP: 100 TITLE: PREAMBLE Revised: February 20, 2019 Page 1 of 2 A. PURPOSE The purpose of this document is to set forth the procedures for routine and emergency operations of the Missouri University of Science and Technology Reactor (MSTR). The goal of these procedures is to assure that the MSTR will be operated safely; presenting no hazard to the public or to the operating staff, and secondarily, that reactor equipment will be safeguarded. It is mandatory that all personnel involved with reactor operations be completely familiar with these procedures and that these procedures be followed.

B. PRECAUTIONS, PREREQUISITES, OR LIMITATIONS

1. These procedures are intended to reflect and implement Facility License Number R-79, as amended, and Title 10 of the Code of Federal Regulations.
2. Only two copies of the SOPs are to be considered controlled copies. The controlled copies shall contain all of the approved procedures and will incorporate new or revised procedures as they are approved. The controlled copies should be retained in the office reception area (Reactor Manager's Copy) and in the Control Room (Control Room Copy). All other copies of SOPs are to be considered complimentary only and shall not be used for facility evolutions.
3. The SOPs shall be reviewed annually by either the Reactor Manager, Reactor Director, or a licensed operator. Identified weaknesses, inadequacies, or recommendations for improvements should be discussed with the Reactor Manager to determine if revision to the SOPs is required.
4. Each SOP revision shall be listed on the revision form located in front of the Reactor Managers Controlled Copy of the SOPs. Each licensed operator shall acknowledge the revision by initialing the revision form prior to conducting reactor operations. Approval authority for revisions shall meet the following requirements:

a) Changes that do not modify the original intent of the procedures may be made by the Reactor Manager (or higher level personnel), with the approval Rev.

of the Reactor Director or designated alternate within 14 days.

b) Substantive changes to the approved procedures and new procedures shall Rev.

be made only with the additional approval of the Radiation Safety Committee.

Revised By: Ethan Taber Approved By: Ethan Taber

      • MISSOURI S&T REACTOR STANDARD OPERATING PROCEDURES ***

SOP: 100 TITLE: PREAMBLE Revised: February 20, 2019 Page 2 of 2

5. Handwritten revisions to the Controlled SOPs may be made provided the following conditions are satisfied:

a) Handwritten revisions are clearly legible and neatly made in red ink in both Controlled SOP copies. Rev.

b) Handwritten revisions are reviewed and approved by both a SRO and the Reactor Director or designated alternate. Review and approval shall be documented by initialing and dating the revision.

c) Handwritten revisions should be listed on the revision form located in the front of the Reactor Manager's controlled copy of SOPs in red ink.

In the absence of the Reactor Director, the Reactor Manager may review and temporarily approve handwritten revisions provided the Reactor Director or designated alternate reviews the revision as soon as practical upon their return. Rev.

Revised By: Ethan Taber Approved By: Ethan Taber

      • MISSOURI S&T REACTOR STANDARD OPERATING PROCEDURES ***

SOP: 101 TITLE: GENERAL OPERATIONAL PROCEDURES Revised: March 26, 2019 Page 1 of 3 A. PURPOSE To provide written general operational procedures for routine operations.

B. PROCEDURE

1. Reactor operations must at all times meet the requirements of the Facility License R-79, Technical Specifications, and security in accordance with the provisions of 10 CFR 73.67(f).
2. At least two persons, as per Technical Specification 6.1.3 Staffing, shall be present in the Reactor Building when the reactor is operating.
3. The following additional staffing requirements shall be met:

a) A licensed operator who is responsible for reactor operation shall be present in the control room at all times when the reactor is operating.

b) Students and trainees may operate the reactor controls subject to the following conditions. In such cases the licensed operator maintains complete and total responsibility for all aspects of reactor operations.

i) Students and trainees may operate the reactor controls under the direct supervision of a licensed operator provided the excess reactivity is less than 0.7% delta k/k.

ii) Trainees may operate the reactor controls under the direct supervision of a Senior Reactor Operator when the excess reactivity is greater than 0.7% delta k/k and less than 1.5% delta k/k.

4. The reactor will be operated with the minimum amount of excess reactivity necessary to fulfill operational requirements as determined by the Reactor Director.
5. Read backs should be performed when verbally communicating without direct visual contact. This requirement is especially critical when handling fuel or radioactive samples. The NATO phonetic alphabet or jointly-agreed-upon system should be used for letters and numbers in the read back for brevity and clarity.
6. All reactor operational personnel are responsible for entering in the appropriate log book any work on or around the reactor or reactor components important enough to justify a record for future reference.

Revised By: Anthony Alchin Approved By: Ethan Taber

      • MISSOURI S&T REACTOR STANDARD OPERATING PROCEDURES ***

SOP: 101 TITLE: GENERAL OPERATIONAL PROCEDURES Revised: March 26, 2019 Page 2 of 3

7. All personnel are responsible for notifying the SRO on Duty of any work being done that could either directly or indirectly affect reactor operations.
8. Log books will be kept in the permanent log book cabinet, except the one currently in use, which may be kept on the console. If the books are removed from the control room, permission must be granted by the Reactor Manager. Any books removed shall be returned as soon as possible.
9. Only the SRO on Duty may authorize the use of bypass keys for control channel automatic functions. The use of any interlock bypass key requires a permanent log entry for insertion and removal. This log entry shall include date and time. This requirement does not apply when the reactor is shut down (e.g. performance of the Weekly Checklist procedure).
10. Any abnormal behavior or abnormal change in core reactivity associated with reactor startup or operation should be reported to the SRO on Duty immediately if there is any doubt about reactor safety, the reactor shall be immediately shut down by the licensed operator in the control room. The cause should then be determined Rev.

and corrective action taken.

11. The Standard Operating Procedure (SOPs) should be followed to the extent practicable, especially whenever the Pre-Startup Checklist is being completed, when the reactor is being started, or when the reactor power is being changed.
12. The SRO on Duty has the authority to instruct the reactor operator to disregard Rev.

certain SOPs provided that no safety requirements are violated (e.g., SOP 106 does not have to be performed following every shutdown while performing SOP 109).

13. All surveillance time intervals referred to in the SOPs are as defined in Section 1 of the Technical Specifications.

Revised By: Anthony Alchin Approved By: Ethan Taber

      • MISSOURI S&T REACTOR STANDARD OPERATING PROCEDURES ***

SOP: 101 TITLE: GENERAL OPERATIONAL PROCEDURES Revised: March 26, 2019 Page 3 of 3

14. The following procedures are to be performed by the Reactor Electronics Rev.

Technician or other qualified individual as determined by the Reactor Manager. A licensed operator will participate when reactor operation is involved (e.g. Rod Drop Time Measurements).

SOP 655, "Radiation Area Monitor (RAM) Calibrations" SOP 800, "Annual Checklist" Rev.

SOP 801, Log and Linear Drawer Calibration SOP 802, "Linear Channel" SOP 803, "Log Count Rate (LCR) Channel" SOP 804, "Safety Amplifier System" Rev.

SOP 806, "Temperature Channel" SOP 809, "Relay Test" SOP 811, "Fire and Smoke Alarm System" SOP 813, "Rod Drop Time Measurement" SOP 818, "Functional Test of Building Security System" Rev.

Revised By: Anthony Alchin Approved By: Ethan Taber

      • MISSOURI S&T REACTOR STANDARD OPERATING PROCEDURES ***

SOP: 501 TITLE: EMERGENCY PROCEDURES FOR REACTOR BUILDING EVACUATION Page Revision: March 26, 2019 Page 7 of 7 MISSOURI S&T EMERGENCY PHONE LIST Reactor Staff CELL HOME WORK Staff On-Call (573) 578-9463 Ethan Taber, Reactor Manager (512) 905-3671 341-4291 Rev.

Anthony Alchin, Electronics Technician III (816) 274-1771 341-6617 University Administrative Staff Michelle Bresnahan, EHS Director, RSO (314) 239-7751 341-4305 Doug Roberts, Director Missouri S&T Police (573) 202-3689 341-4300 Dr. Christopher Maples Interim Chancellor (775) 741-1635 (573) 341-7141 341-4114 Cuba Plain, Vice Chancellor, Finance & Operations (573) 268-3208 341-4122 Ted Ruth, Asst. Vice Chancellor, Facilities Services (573) 647-6239 341-7619 Dr. Goodman DO, Director Student Health Services 341-4284 Dr. Hyoung Lee, Chair of Nuclear Eng (573) 202-4665 341-4585 Dr. Joseph Graham, Reactor Director (719) 244-0042 341-7759 Fadha Al Falahi, Health Physicist EHS-MS&T (314) 960-9211 (636) 223-2054 341-7014 Local Missouri S&T Police 341-4300 Rolla City Police 911 Rolla Fire Department 911 Phelps County Hospital 911 Rolla Emergency Management Agency 911 State Agencies Missouri Highway Patrol (573) 368-2345 Missouri State Emergency Mgt. (24 hr.) (573) 751-2748 Missouri Dept. of Natural Resources (24 hr.) (573) 634-2436 Missouri Bureau of Environmental Epidemiology (573) 751-6160 (24 hr.) (573) 751-4674 Federal Agencies NRC, Operations Center (301) 951-0550 NRC Duty Officer (24 hr.) (301) 816-5100 Other Radiation Emergency Assistance Center (865) 576-3131 (24 hr.) (865) 576-1005 Revised By: Anthony Alchin Approved By: Ethan Taber