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| issue date = 08/28/2012
| issue date = 08/28/2012
| title = Annual Report for the University of Massachusetts Lowell Research Reactor
| title = Annual Report for the University of Massachusetts Lowell Research Reactor
| author name = Bobek L M
| author name = Bobek L
| author affiliation = Univ of Massachusetts - Lowell
| author affiliation = Univ of Massachusetts - Lowell
| addressee name =  
| addressee name =  
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=Text=
=Text=
{{#Wiki_filter:~A University of Massachusetts UMASS Lowell Pinanski Building One University Avenue Lowell, Massachusetts 01854 tel: 978.934.3365 fax. 978.934.4067 e-mail: LeoBobek@uml.edu RADIATION LABORATORY Leo M. Bobek Reactor Supervisor August 28, 2012 U.S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, DC 20555 Re: License No. R-125, Docket No. 50-223 Pursuant to Technical Specification NRC License No. R-125 we are submitting the Annual Report for the University of Massachusetts Lowell Research Reactor.Sincerely 74 Leo M. Bobek, Reactor Supervisor University of Massachusetts Lowell Research Reactor (UMLRR)2011-2012 OPERATING REPORT NRC Docket No. 50-223 NRC License No. R-125 rA University of A-AMassachuetts UMASS Lowell One University Avenue Lowell, Massachusetts 01854 CONTENTS Facility History and Overview A. Narrative Summary 1. Operation Experience and Experiments
{{#Wiki_filter:Pinanski Building                 Leo M. Bobek One University Avenue           Reactor Supervisor Lowell, Massachusetts 01854 tel:   978.934.3365 fax. 978.934.4067 e-mail: LeoBobek@uml.edu
: 2. Facility Design Changes 3. Performance Characteristics Changes 4. Changes in Operating Procedures Related to Reactor Safety 5. Results of Surveillance Tests and Inspections B. Tabulations C. Inadvertent and Emergency Shutdowns D. Major Maintenance E. Facility Changes Related to 10 CFR 50.59 F. Environmental Surveys G. Radiation Exposures and Facility Surveys 1. Personnel Exposures 2. Radiation Surveys 3. Contamination Surveys H. Nature and Amount of Radioactive Effluents 1. Liquid Wastes and Gaseous Wastes 2. Solid Wastes This report is submitted as required by the Technical Specification 6.6.4 of reactor license R-125 and provides the information as outlined in the specification.
~A          University of Massachusetts UMASS Lowell                                RADIATION LABORATORY August 28, 2012 U.S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, DC 20555 Re: License No. R-125, Docket No. 50-223 Pursuant to Technical Specification NRC License No. R-125 we are submitting the Annual Report for the University of Massachusetts Lowell Research Reactor.
I Facility History and Overview In the late 1950's, the decision was made to build a Nuclear Center at what was then Lowell Technological Institute.
Sincerely Leo M. Bobek, 74 Reactor Supervisor
Its stated aim was to train and educate nuclear scientists, engineers and technicians, to serve as a multi-disciplinary research center for LTI and all New England academic institutes, to serve the Massachusetts business community, and to lead the way in the economic revitalization of the Merrimack Valley. The decision was taken to supply a nuclear reactor and a Van-de-Graaff accelerator as the initial basic equipment.
 
Construction of the Center was started in the summer of 1966. Classrooms, offices, and the Van-de-Graaff accelerator were in use by 1970. Reactor License R-125 was issued by the Atomic Energy Commission on December 24, 1974, and initial criticality was achieved on January 1975.The name of the Nuclear Center was officially changed to the "Pinanski Building" in the spring of 1980. The purpose was to reflect the change in emphasis of work at the center from strictly nuclear studies. At that time, the University of Lowell Reactor became part of a newly established Radiation Laboratory.
University of Massachusetts Lowell Research Reactor (UMLRR) 2011-2012 OPERATING REPORT NRC Docket No. 50-223 NRC License No. R-125 University of rAA-AMassachuetts UMASS Lowell One UniversityAvenue Lowell, Massachusetts 01854
The Laboratory occupies the first floor of the Pinanski Building and performs or coordinates research and educational studies in the fields of physics, radiological sciences, and nuclear engineering.
 
The remaining two floors of the Pinanski Building are presently occupied by various other University departments.
CONTENTS Facility History and Overview A.       Narrative Summary
On February 14, 1985, the University of Lowell submitted an application to the Nuclear Regulatory Commission for renewal of the facility operating license R-125 for a period of 30 years. On November 21, 1985, the license renewal was granted as Amendment No. 9 of License R-125 in accordance with the Atomic Energy Act of 1954.In 1991, the University of Lowell name was changed to University of Massachusetts Lowell. On August 4, 2000, the reactor was converted from high enrichment uranium fuel to low enrichment uranium fuel.The University of Massachusetts Lowell Radiation Laboratory (UMLRL) is one of 22 research centers at the University.
: 1. Operation Experience and Experiments
The University departments utilizing the laboratory include Biology, Chemistry, Earth Sciences, Physics, Mechanical Engineering, Plastics Engineering, Radiological Sciences, and Chemical/Nuclear Engineering.
: 2. Facility Design Changes
Several of the UMass campuses, 2 including the university medical center, have or continue to have research programs at the Radiation Laboratory.
: 3. Performance Characteristics Changes
Much of the research is concerned with safety and efficiency in the nuclear and radiation industries, including pharmaceuticals, medical applications, health affects, public utilities, etc. However, much of the research conducted in other scientific fields that make use the unique facilities as analytical tools.Beyond the research activities, the Laboratory's reactor and Cobalt-60 facilities are used in the educational courses of various departments within the University.
: 4. Changes in Operating Procedures Related to Reactor Safety
It also provides these services to other campuses of the Massachusetts system, other universities in the New England area, government agencies and to a limited extent, industrial organizations in Massachusetts and the New England area, as well as numerous school science programs in the Merrimack Valley.I UMLRR Cutaway View 3 A. NARRATIVE  
: 5. Results of Surveillance Tests and Inspections B.       Tabulations C.       Inadvertent and Emergency Shutdowns D.       Major Maintenance E.       Facility Changes Related to 10 CFR 50.59 F.       Environmental Surveys G.       Radiation Exposures and Facility Surveys
: 1. Personnel Exposures
: 2. Radiation Surveys
: 3. Contamination Surveys H.     Nature and Amount of Radioactive Effluents
: 1. Liquid Wastes and Gaseous Wastes
: 2. Solid Wastes This report is submitted as required by the Technical Specification 6.6.4 of reactor license R-125 and provides the information as outlined in the specification.
I
 
Facility History and Overview In the late 1950's, the decision was made to build a Nuclear Center at what was then Lowell Technological Institute.     Its stated aim was to train and educate nuclear scientists, engineers and technicians, to serve as a multi-disciplinary research center for LTI and all New England academic institutes, to serve the Massachusetts business community, and to lead the way in the economic revitalization of the Merrimack Valley. The decision was taken to supply a nuclear reactor and a Van-de-Graaff accelerator as the initial basic equipment.
Construction of the Center was started in the summer of 1966. Classrooms, offices, and the Van-de-Graaff accelerator were in use by 1970. Reactor License R-125 was issued by the Atomic Energy Commission on December 24, 1974, and initial criticality was achieved on January 1975.
The name of the Nuclear Center was officially changed to the "Pinanski Building" in the spring of 1980. The purpose was to reflect the change in emphasis of work at the center from strictly nuclear studies. At that time, the University of Lowell Reactor became part of a newly established Radiation Laboratory.       The Laboratory occupies the first floor of the Pinanski Building and performs or coordinates research and educational studies in the fields of physics, radiological sciences, and nuclear engineering.     The remaining two floors of the Pinanski Building are presently occupied by various other University departments.
On February 14, 1985, the University of Lowell submitted an application to the Nuclear Regulatory Commission for renewal of the facility operating license R-125 for a period of 30 years. On November 21, 1985, the license renewal was granted as Amendment No. 9 of License R-125 in accordance with the Atomic Energy Act of 1954.
In 1991, the University of Lowell name was changed to University of Massachusetts Lowell. On August 4, 2000, the reactor was converted from high enrichment uranium fuel to low enrichment uranium fuel.
The University of Massachusetts Lowell Radiation Laboratory (UMLRL) is one of 22 research centers at the University. The University departments utilizing the laboratory include Biology, Chemistry, Earth Sciences, Physics, Mechanical Engineering, Plastics Engineering, Radiological Sciences, and Chemical/Nuclear Engineering. Several of the UMass campuses, 2
 
including the university medical center, have or continue to have research programs at the Radiation Laboratory.     Much of the research is concerned with safety and efficiency in the nuclear and radiation industries, including pharmaceuticals, medical applications, health affects, public utilities, etc. However, much of the research conducted in other scientific fields that make use the unique facilities as analytical tools.
Beyond the research activities, the Laboratory's reactor and Cobalt-60 facilities are used in the educational courses of various departments within the University. It also provides these services to other campuses of the Massachusetts system, other universities in the New England area, government agencies and to a limited extent, industrial organizations in Massachusetts and the New England area, as well as numerous school science programs in the Merrimack Valley.
I UMLRR Cutaway View 3
 
A.     NARRATIVE  


==SUMMARY==
==SUMMARY==
: 1. Operating Experience and Experiments The UML research reactor is designed to produce thermal (low energy) neutrons for radioactivation and neutron radiography purposes, and fast (high energy) neutrons for radiation effects studies. Uses include neutron activation analysis research, materials atomic displacement damage studies, neutron absorption studies, short-lived radioisotope production, neutron detector studies, and neutron imaging (radiography).
: 1.     Operating Experience and Experiments The UML research reactor is designed to produce thermal (low energy) neutrons for radioactivation and neutron radiography purposes, and fast (high energy) neutrons for radiation effects studies. Uses include neutron activation analysis research, materials atomic displacement damage studies, neutron absorption studies, short-lived radioisotope production, neutron detector studies, and neutron imaging (radiography). Education uses include a variety of lab courses in the nuclear engineering and radiological sciences programs.       Tours and demonstrations are provided to several other UMass Lowell courses, as well as other universities, high schools, and various organizations.
Education uses include a variety of lab courses in the nuclear engineering and radiological sciences programs.
Short lived isotopes (e.g., Al-28, Na-24) were produced for routine practicum and demonstration purposes. The reactor was used for several nuclear engineering and non-nuclear engineering laboratory exercises and demonstrations.       In addition, the reactor was used for training of student operator license candidates.     Two students were issued Senior Reactor Operator licenses by the USNRC and five students were issued Reactor Operator Licenses. In addition, several undergraduate students were provided an opportunity to work at the reactor and gain practical experience while studying for a future licensing examination.
Tours and demonstrations are provided to several other UMass Lowell courses, as well as other universities, high schools, and various organizations.
Short lived isotopes (e.g., Al-28, Na-24) were produced for routine practicum and demonstration purposes.
The reactor was used for several nuclear engineering and non-nuclear engineering laboratory exercises and demonstrations.
In addition, the reactor was used for training of student operator license candidates.
Two students were issued Senior Reactor Operator licenses by the USNRC and five students were issued Reactor Operator Licenses.
In addition, several undergraduate students were provided an opportunity to work at the reactor and gain practical experience while studying for a future licensing examination.
Over 30 organized tours were provided to UMass students, local college students, grade school students, and other groups, in addition to several individual tours. As part of emergency responder training, tours and presentations also were provided to the UML Police Department.
Over 30 organized tours were provided to UMass students, local college students, grade school students, and other groups, in addition to several individual tours. As part of emergency responder training, tours and presentations also were provided to the UML Police Department.
: 2. Facility Design Changes There were no facility design changes during the reporting period.3. Performance Characteristics Changes As noted in the previous annual report, one of two linear power monitoring channels has been exhibiting electronic problems resulting in several spurious scrams (Section C). A purchase order has been placed for the upgrade and replacement of this power measuring channel.Performance of all other the reactor and related equipment has been normal during the reporting period. There were no discernable changes that would indicate any degradation of other systems or components.
: 2.     Facility Design Changes There were no facility design changes during the reporting period.
: 3.     Performance Characteristics Changes As noted in the previous annual report, one of two linear power monitoring channels has been exhibiting electronic problems resulting in several spurious scrams (Section C). A purchase order has been placed for the upgrade and replacement of this power measuring channel.
Performance of all other the reactor and related equipment has been normal during the reporting period. There were no discernable changes that would indicate any degradation of other systems or components.
4
4
: 4. Changes in Operating Procedures Related to Reactor Safety A minor revision was made to procedure CP-5 Calibration of Primary Flow Measuring Device. The change introduced the use of a pressure regulator for finer adjustments in air pressure used to calibrate the flow transducer.
: 4.     Changes in Operating Procedures Related to Reactor Safety A minor revision was made to procedure CP-5 Calibrationof Primary Flow Measuring Device. The change introduced the use of a pressure regulator for finer adjustments in air pressure used to calibrate the flow transducer. The change was non-substantive in nature and was appropriately reviewed.
The change was non-substantive in nature and was appropriately reviewed.5. Results of Surveillance Test and Inspections All surveillance test results were found to be within specified limits and surveillance inspections revealed no abnormalities that could jeopardize the safe operation of the reactor.Each required calibration was also performed.
: 5.     Results of Surveillance Test and Inspections All surveillance test results were found to be within specified limits and surveillance inspections revealed no abnormalities that could jeopardize the safe operation of the reactor.
B. TABULATIONS Energy generated this period (MWD) 5.83 Critical hours 299.97 Cumulative energy to date (MWD) 48.13 C. INADVERTENT AND EMERGENCY SHUTDOWNS There were 28 inadvertent non-emergency automatic shutdowns during the reporting period. One was the result of an airlock malfunction.
Each required calibration was also performed.
One was the result of a power range switching error during operator training.
B.     TABULATIONS Energy generated this period (MWD)           5.83 Critical hours                               299.97 Cumulative energy to date (MWD)             48.13 C.     INADVERTENT AND EMERGENCY SHUTDOWNS There were 28 inadvertent non-emergency automatic shutdowns during the reporting period. One was the result of an airlock malfunction. One was the result of a power range switching error during operator training. Neither of these had any safety significance.       The remainder were all due to an electronic problems associated with one of two linear power monitoring channels. The problem has no safety significance and is more a nuisance for experimenters and users of the facility. New linear amplifiers have been ordered and are expected before the end of the year. Descriptions of all automatic shutdowns are noted in operator logs and are analyzed by an SRO for safety significance and technical specification requirements.
Neither of these had any safety significance.
D.     MAJOR MAINTENANCE Two major maintenance activities were performed during the reporting period.         The original cooling tower for secondary cooling system was replaced.           The new cooling is essentially the same as the original with the exception of energy efficiency controls technology.
The remainder were all due to an electronic problems associated with one of two linear power monitoring channels.
The replacement was evaluated for 10CFR 50.59 applicability (Section E).
The problem has no safety significance and is more a nuisance for experimenters and users of the facility.
5
New linear amplifiers have been ordered and are expected before the end of the year. Descriptions of all automatic shutdowns are noted in operator logs and are analyzed by an SRO for safety significance and technical specification requirements.
 
D. MAJOR MAINTENANCE Two major maintenance activities were performed during the reporting period. The original cooling tower for secondary cooling system was replaced.
The original pneumatic tube (PT) system control system for PT station #2 in the reactor basement was replaced with a new control panel consisting of both hard-wired controls and touch screen computer controls. The new PT control system maintains the same functionality as described in the FSAR. The replacement was evaluated for 10CFR 50.59 applicability (Section E).
The new cooling is essentially the same as the original with the exception of energy efficiency controls technology.
E. FACILITY CHANGES RELATED TO 10CFR50.59 The two major maintenance activities described in Section D were screened under the UMLRR Procedure AP-6 IOCFR 50.59 Screenings and Evaluations. Neither activity required a complete evaluation. The screens were documented and reviewed by the UMLRR safety committee.
The replacement was evaluated for 10CFR 50.59 applicability (Section E).5 The original pneumatic tube (PT) system control system for PT station #2 in the reactor basement was replaced with a new control panel consisting of both hard-wired controls and touch screen computer controls.
F. ENVIRONMENTAL SURVEYS Members of the Radiation Safety Office performed an ALARA review for the 2011 calendar year with the results summarized in Sections G and H. The following actions are performed in the indicated time period as part of the UMLRR radiation safety program:
The new PT control system maintains the same functionality as described in the FSAR. The replacement was evaluated for 10CFR 50.59 applicability (Section E).E. FACILITY CHANGES RELATED TO 10CFR50.59 The two major maintenance activities described in Section D were screened under the UMLRR Procedure AP-6 IOCFR 50.59 Screenings and Evaluations.
* Reactor Field Surveys - monthly (byproduct materials license) e Reactor Contamination Surveys - monthly (byproduct materials license) 0 Primary water analysis - weekly (SP-10)
Neither activity required a complete evaluation.
* 20 ml Secondary Water Analysis - each Rx operations day (SP-10)
The screens were documented and reviewed by the UMLRR safety committee.
* 3 L Secondary Water Analysis - Biennially (SP- 10) 0 liquid waste (sewer) - prior to disposal (SP-10)
F. ENVIRONMENTAL SURVEYS Members of the Radiation Safety Office performed an ALARA review for the 2011 calendar year with the results summarized in Sections G and H. The following actions are performed in the indicated time period as part of the UMLRR radiation safety program:* Reactor Field Surveys -monthly (byproduct materials license)e Reactor Contamination Surveys -monthly (byproduct materials license)0 Primary water analysis -weekly (SP-10)* 20 ml Secondary Water Analysis -each Rx operations day (SP-10)* 3 L Secondary Water Analysis -Biennially (SP- 10)0 liquid waste (sewer) -prior to disposal (SP-10)* Rad Monitor Check -each detector checked prior to each day's operations by Rx staff.* Personnel dosimetry  
* Rad Monitor Check - each detector checked prior to each day's operations by Rx staff.
-monthly; obtained using a NVLAP accredited dosimetry lab.* Environmental dosimetry  
* Personnel dosimetry - monthly; obtained using a NVLAP accredited dosimetry lab.
-quarterly using NVLAP lab.6 I I G. RADIATION EXPOSURES AND FACILITY SURVEYS 1. Personnel Exposures An ALARA assessment of the UMass Lowell radiation safety program is performed annually.
* Environmental dosimetry - quarterly using NVLAP lab.
This review is reported to and reviewed by the Radiation Safety Committee.
6
The 2011 ALARA goal for radiation workers at UMass Lowell was to limit the most exposed radiation worker at UML to less than 10% of the federal radiation exposure limits. In addition, the radiation safety manual requires a 100 mrem per week TEDE administrative level. No occupational exposure exceeded an ALARA limit in 2011. Personnel dosimetry was obtained by review of the 2011 Landauer dosimetry reports. These reports include, where appropriate, whole body OSL dosimetry and finger TLD dosimetry.
 
Landauer is a NVLAP accredited dosimetry company.OCCUPATIONAL EXPOSURES GROUP NUMBER Average Average Whole Body Extremity BADGED Dose Dose (<500rem)
I I G.     RADIATION EXPOSURES AND FACILITY SURVEYS
(<5000 mrem)Reactor 20 M M*NOTE: 'M' indicates no detectable releases or exposure 2. Radiation and Contamination Surveys A review of all 2011 Research Reactor Radiation Survey and Contamination forms found no measurable removable contamination levels in the facility.
: 1.     Personnel Exposures An ALARA assessment of the UMass Lowell radiation safety program is performed annually. This review is reported to and reviewed by the Radiation Safety Committee. The 2011 ALARA goal for radiation workers at UMass Lowell was to limit the most exposed radiation worker at UML to less than 10% of the federal radiation exposure limits.           In addition, the radiation safety manual requires a 100 mrem per week TEDE administrative level.                 No occupational exposure exceeded an ALARA limit in 2011.           Personnel dosimetry was obtained by review of the 2011 Landauer dosimetry reports. These reports include, where appropriate, whole body OSL dosimetry and finger TLD dosimetry.             Landauer is a NVLAP accredited dosimetry company.
The byproduct materials license specifies contamination as >500 dpm/100cm 2 (beta) or 50 dpm/lOOcm 2 (alpha). No appreciable stray radiation fields (>2mR/hr) were identified in a free area within the reactor. Radiation levels measured in the reactor building have been typically less than 0.1 mrem/hr in general areas.Experiments have been conducted in which transient levels at specific locations have been in excess of 100 mrem/hr. Doses in these instances have been controlled by use of shielding, visual and audial notifications, and/or personnel access control. The pump room remains designated as a high radiation area during reactor operation and access is controlled.
OCCUPATIONAL EXPOSURES GROUP         NUMBER             Average             Average Whole Body           Extremity BADGED             Dose               Dose
7  
(<500rem)         (<5000 mrem)
'p H. NATURE AND AMOUNT OF RADIOACTIVE WASTES 1. Liquid Wastes and Gaseous Wastes As part of UMass Lowell ALARA goals, the radiation safety office has set a campus goal of limiting exposures to members of the public to less than 10% of the federal regulatory limits.Less than 0.5 pCi of radioactive material were released through the reactor sewer (detection limits of approximately 1.4x 10-8 pCi/ml). Argon-41 continues to be the only significant reactor produced radioactivity identifiable in the gaseous effluent.
Reactor           20                 M                 M
The reactor stack released roughly 3.7 Ci in 2011 resulting in a (conservative) estimated upper limit to the TEDE at the site boundary (100 m from stack) of 0.1 mrem/year.
                        *NOTE: 'M' indicates no detectable releases or exposure
ENVIRONMENTAL RELEASES SOURCE ACTIVITY DOSE GOAL Ci mrem mrem Sewer Releases <5x 10-7 M* <10 Stack Releases 3.7 0.1 10*NOTE: 'M' indicates no detectable releases or exposure 2. Solid Wastes Solid wastes, primarily paper, disposable clothing, and gloves, along with other miscellaneous items have been disposed of in appropriate containers.
: 2.     Radiation and Contamination Surveys A review of all 2011 Research Reactor Radiation Survey and Contamination forms found no measurable removable contamination levels in the facility. The byproduct materials license specifies contamination as >500 dpm/100cm 2 (beta) or &#x17d;50 dpm/lOOcm 2 (alpha). No appreciable stray radiation fields (>2mR/hr) were identified in a free area within the reactor. Radiation levels measured in the reactor building have been typically less than 0.1 mrem/hr in general areas.
Most of the activity from these wastes consisted of short lived induced radioactivity.
Experiments have been conducted in which transient levels at specific locations have been in excess of 100 mrem/hr. Doses in these instances have been controlled by use of shielding, visual and audial notifications, and/or personnel access control. The pump room remains designated as a high radiation area during reactor operation and access is controlled.
These wastes were held for decay and then released if no activity remained.
7
The remaining long lived wasted (<40 cubic feet) is stored in a designated long lived waste storage area awaiting ultimate disposal at low-level radioactive waste disposal site.End of Report 8}}
 
'p H. NATURE AND AMOUNT OF RADIOACTIVE WASTES
: 1.     Liquid Wastes and Gaseous Wastes As part of UMass Lowell ALARA goals, the radiation safety office has set a campus goal of limiting exposures to members of the public to less than 10% of the federal regulatory limits.
Less than 0.5 pCi of radioactive material were released through the reactor sewer (detection limits of approximately 1.4x 10-8 pCi/ml). Argon-41 continues to be the only significant reactor produced radioactivity identifiable in the gaseous effluent. The reactor stack released roughly 3.7 Ci in 2011 resulting in a (conservative) estimated upper limit to the TEDE at the site boundary (100 m from stack) of 0.1 mrem/year.
ENVIRONMENTAL RELEASES SOURCE             ACTIVITY         DOSE       GOAL Ci           mrem       mrem Sewer Releases           <5x 10- 7       M*         <10 Stack Releases             3.7           0.1       *10
                      *NOTE: 'M' indicates no detectable releases or exposure
: 2.     Solid Wastes Solid wastes, primarily paper, disposable clothing, and gloves, along with other miscellaneous items have been disposed of in appropriate containers. Most of the activity from these wastes consisted of short lived induced radioactivity. These wastes were held for decay and then released if no activity remained. The remaining long lived wasted (<40 cubic feet) is stored in a designated long lived waste storage area awaiting ultimate disposal at low-level radioactive waste disposal site.
End of Report 8}}

Latest revision as of 23:14, 11 November 2019

Annual Report for the University of Massachusetts Lowell Research Reactor
ML12242A475
Person / Time
Site: University of Lowell
Issue date: 08/28/2012
From: Bobek L
Univ of Massachusetts - Lowell
To:
Document Control Desk, Office of Nuclear Reactor Regulation
References
Download: ML12242A475 (10)


Text

Pinanski Building Leo M. Bobek One University Avenue Reactor Supervisor Lowell, Massachusetts 01854 tel: 978.934.3365 fax. 978.934.4067 e-mail: LeoBobek@uml.edu

~A University of Massachusetts UMASS Lowell RADIATION LABORATORY August 28, 2012 U.S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, DC 20555 Re: License No. R-125, Docket No. 50-223 Pursuant to Technical Specification NRC License No. R-125 we are submitting the Annual Report for the University of Massachusetts Lowell Research Reactor.

Sincerely Leo M. Bobek, 74 Reactor Supervisor

University of Massachusetts Lowell Research Reactor (UMLRR) 2011-2012 OPERATING REPORT NRC Docket No. 50-223 NRC License No. R-125 University of rAA-AMassachuetts UMASS Lowell One UniversityAvenue Lowell, Massachusetts 01854

CONTENTS Facility History and Overview A. Narrative Summary

1. Operation Experience and Experiments
2. Facility Design Changes
3. Performance Characteristics Changes
4. Changes in Operating Procedures Related to Reactor Safety
5. Results of Surveillance Tests and Inspections B. Tabulations C. Inadvertent and Emergency Shutdowns D. Major Maintenance E. Facility Changes Related to 10 CFR 50.59 F. Environmental Surveys G. Radiation Exposures and Facility Surveys
1. Personnel Exposures
2. Radiation Surveys
3. Contamination Surveys H. Nature and Amount of Radioactive Effluents
1. Liquid Wastes and Gaseous Wastes
2. Solid Wastes This report is submitted as required by the Technical Specification 6.6.4 of reactor license R-125 and provides the information as outlined in the specification.

I

Facility History and Overview In the late 1950's, the decision was made to build a Nuclear Center at what was then Lowell Technological Institute. Its stated aim was to train and educate nuclear scientists, engineers and technicians, to serve as a multi-disciplinary research center for LTI and all New England academic institutes, to serve the Massachusetts business community, and to lead the way in the economic revitalization of the Merrimack Valley. The decision was taken to supply a nuclear reactor and a Van-de-Graaff accelerator as the initial basic equipment.

Construction of the Center was started in the summer of 1966. Classrooms, offices, and the Van-de-Graaff accelerator were in use by 1970. Reactor License R-125 was issued by the Atomic Energy Commission on December 24, 1974, and initial criticality was achieved on January 1975.

The name of the Nuclear Center was officially changed to the "Pinanski Building" in the spring of 1980. The purpose was to reflect the change in emphasis of work at the center from strictly nuclear studies. At that time, the University of Lowell Reactor became part of a newly established Radiation Laboratory. The Laboratory occupies the first floor of the Pinanski Building and performs or coordinates research and educational studies in the fields of physics, radiological sciences, and nuclear engineering. The remaining two floors of the Pinanski Building are presently occupied by various other University departments.

On February 14, 1985, the University of Lowell submitted an application to the Nuclear Regulatory Commission for renewal of the facility operating license R-125 for a period of 30 years. On November 21, 1985, the license renewal was granted as Amendment No. 9 of License R-125 in accordance with the Atomic Energy Act of 1954.

In 1991, the University of Lowell name was changed to University of Massachusetts Lowell. On August 4, 2000, the reactor was converted from high enrichment uranium fuel to low enrichment uranium fuel.

The University of Massachusetts Lowell Radiation Laboratory (UMLRL) is one of 22 research centers at the University. The University departments utilizing the laboratory include Biology, Chemistry, Earth Sciences, Physics, Mechanical Engineering, Plastics Engineering, Radiological Sciences, and Chemical/Nuclear Engineering. Several of the UMass campuses, 2

including the university medical center, have or continue to have research programs at the Radiation Laboratory. Much of the research is concerned with safety and efficiency in the nuclear and radiation industries, including pharmaceuticals, medical applications, health affects, public utilities, etc. However, much of the research conducted in other scientific fields that make use the unique facilities as analytical tools.

Beyond the research activities, the Laboratory's reactor and Cobalt-60 facilities are used in the educational courses of various departments within the University. It also provides these services to other campuses of the Massachusetts system, other universities in the New England area, government agencies and to a limited extent, industrial organizations in Massachusetts and the New England area, as well as numerous school science programs in the Merrimack Valley.

I UMLRR Cutaway View 3

A. NARRATIVE

SUMMARY

1. Operating Experience and Experiments The UML research reactor is designed to produce thermal (low energy) neutrons for radioactivation and neutron radiography purposes, and fast (high energy) neutrons for radiation effects studies. Uses include neutron activation analysis research, materials atomic displacement damage studies, neutron absorption studies, short-lived radioisotope production, neutron detector studies, and neutron imaging (radiography). Education uses include a variety of lab courses in the nuclear engineering and radiological sciences programs. Tours and demonstrations are provided to several other UMass Lowell courses, as well as other universities, high schools, and various organizations.

Short lived isotopes (e.g., Al-28, Na-24) were produced for routine practicum and demonstration purposes. The reactor was used for several nuclear engineering and non-nuclear engineering laboratory exercises and demonstrations. In addition, the reactor was used for training of student operator license candidates. Two students were issued Senior Reactor Operator licenses by the USNRC and five students were issued Reactor Operator Licenses. In addition, several undergraduate students were provided an opportunity to work at the reactor and gain practical experience while studying for a future licensing examination.

Over 30 organized tours were provided to UMass students, local college students, grade school students, and other groups, in addition to several individual tours. As part of emergency responder training, tours and presentations also were provided to the UML Police Department.

2. Facility Design Changes There were no facility design changes during the reporting period.
3. Performance Characteristics Changes As noted in the previous annual report, one of two linear power monitoring channels has been exhibiting electronic problems resulting in several spurious scrams (Section C). A purchase order has been placed for the upgrade and replacement of this power measuring channel.

Performance of all other the reactor and related equipment has been normal during the reporting period. There were no discernable changes that would indicate any degradation of other systems or components.

4

4. Changes in Operating Procedures Related to Reactor Safety A minor revision was made to procedure CP-5 Calibrationof Primary Flow Measuring Device. The change introduced the use of a pressure regulator for finer adjustments in air pressure used to calibrate the flow transducer. The change was non-substantive in nature and was appropriately reviewed.
5. Results of Surveillance Test and Inspections All surveillance test results were found to be within specified limits and surveillance inspections revealed no abnormalities that could jeopardize the safe operation of the reactor.

Each required calibration was also performed.

B. TABULATIONS Energy generated this period (MWD) 5.83 Critical hours 299.97 Cumulative energy to date (MWD) 48.13 C. INADVERTENT AND EMERGENCY SHUTDOWNS There were 28 inadvertent non-emergency automatic shutdowns during the reporting period. One was the result of an airlock malfunction. One was the result of a power range switching error during operator training. Neither of these had any safety significance. The remainder were all due to an electronic problems associated with one of two linear power monitoring channels. The problem has no safety significance and is more a nuisance for experimenters and users of the facility. New linear amplifiers have been ordered and are expected before the end of the year. Descriptions of all automatic shutdowns are noted in operator logs and are analyzed by an SRO for safety significance and technical specification requirements.

D. MAJOR MAINTENANCE Two major maintenance activities were performed during the reporting period. The original cooling tower for secondary cooling system was replaced. The new cooling is essentially the same as the original with the exception of energy efficiency controls technology.

The replacement was evaluated for 10CFR 50.59 applicability (Section E).

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The original pneumatic tube (PT) system control system for PT station #2 in the reactor basement was replaced with a new control panel consisting of both hard-wired controls and touch screen computer controls. The new PT control system maintains the same functionality as described in the FSAR. The replacement was evaluated for 10CFR 50.59 applicability (Section E).

E. FACILITY CHANGES RELATED TO 10CFR50.59 The two major maintenance activities described in Section D were screened under the UMLRR Procedure AP-6 IOCFR 50.59 Screenings and Evaluations. Neither activity required a complete evaluation. The screens were documented and reviewed by the UMLRR safety committee.

F. ENVIRONMENTAL SURVEYS Members of the Radiation Safety Office performed an ALARA review for the 2011 calendar year with the results summarized in Sections G and H. The following actions are performed in the indicated time period as part of the UMLRR radiation safety program:

  • Reactor Field Surveys - monthly (byproduct materials license) e Reactor Contamination Surveys - monthly (byproduct materials license) 0 Primary water analysis - weekly (SP-10)
  • 20 ml Secondary Water Analysis - each Rx operations day (SP-10)
  • 3 L Secondary Water Analysis - Biennially (SP- 10) 0 liquid waste (sewer) - prior to disposal (SP-10)
  • Rad Monitor Check - each detector checked prior to each day's operations by Rx staff.
  • Personnel dosimetry - monthly; obtained using a NVLAP accredited dosimetry lab.
  • Environmental dosimetry - quarterly using NVLAP lab.

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I I G. RADIATION EXPOSURES AND FACILITY SURVEYS

1. Personnel Exposures An ALARA assessment of the UMass Lowell radiation safety program is performed annually. This review is reported to and reviewed by the Radiation Safety Committee. The 2011 ALARA goal for radiation workers at UMass Lowell was to limit the most exposed radiation worker at UML to less than 10% of the federal radiation exposure limits. In addition, the radiation safety manual requires a 100 mrem per week TEDE administrative level. No occupational exposure exceeded an ALARA limit in 2011. Personnel dosimetry was obtained by review of the 2011 Landauer dosimetry reports. These reports include, where appropriate, whole body OSL dosimetry and finger TLD dosimetry. Landauer is a NVLAP accredited dosimetry company.

OCCUPATIONAL EXPOSURES GROUP NUMBER Average Average Whole Body Extremity BADGED Dose Dose

(<500rem) (<5000 mrem)

Reactor 20 M M

  • NOTE: 'M' indicates no detectable releases or exposure
2. Radiation and Contamination Surveys A review of all 2011 Research Reactor Radiation Survey and Contamination forms found no measurable removable contamination levels in the facility. The byproduct materials license specifies contamination as >500 dpm/100cm 2 (beta) or Ž50 dpm/lOOcm 2 (alpha). No appreciable stray radiation fields (>2mR/hr) were identified in a free area within the reactor. Radiation levels measured in the reactor building have been typically less than 0.1 mrem/hr in general areas.

Experiments have been conducted in which transient levels at specific locations have been in excess of 100 mrem/hr. Doses in these instances have been controlled by use of shielding, visual and audial notifications, and/or personnel access control. The pump room remains designated as a high radiation area during reactor operation and access is controlled.

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'p H. NATURE AND AMOUNT OF RADIOACTIVE WASTES

1. Liquid Wastes and Gaseous Wastes As part of UMass Lowell ALARA goals, the radiation safety office has set a campus goal of limiting exposures to members of the public to less than 10% of the federal regulatory limits.

Less than 0.5 pCi of radioactive material were released through the reactor sewer (detection limits of approximately 1.4x 10-8 pCi/ml). Argon-41 continues to be the only significant reactor produced radioactivity identifiable in the gaseous effluent. The reactor stack released roughly 3.7 Ci in 2011 resulting in a (conservative) estimated upper limit to the TEDE at the site boundary (100 m from stack) of 0.1 mrem/year.

ENVIRONMENTAL RELEASES SOURCE ACTIVITY DOSE GOAL Ci mrem mrem Sewer Releases <5x 10- 7 M* <10 Stack Releases 3.7 0.1 *10

  • NOTE: 'M' indicates no detectable releases or exposure
2. Solid Wastes Solid wastes, primarily paper, disposable clothing, and gloves, along with other miscellaneous items have been disposed of in appropriate containers. Most of the activity from these wastes consisted of short lived induced radioactivity. These wastes were held for decay and then released if no activity remained. The remaining long lived wasted (<40 cubic feet) is stored in a designated long lived waste storage area awaiting ultimate disposal at low-level radioactive waste disposal site.

End of Report 8