ML14078A545
| ML14078A545 | |
| Person / Time | |
|---|---|
| Site: | MIT Nuclear Research Reactor |
| Issue date: | 03/27/2014 |
| From: | Duane Hardesty Research and Test Reactors Licensing Branch |
| To: | |
| Hardesty D | |
| Shared Package | |
| ML14078A659 | List: |
| References | |
| TAC MF3106 | |
| Download: ML14078A545 (6) | |
Text
UNITED STATES NUCLEAR REGULATORY COMMISSION WASHINGTON, D.C. 20555-0001 March 27, 2014 LICENSEE:
Massachusetts Institute of Technology FACILITY:
Massachusetts Institute of Technology Research Reactor
SUBJECT:
SUMMARY
OF MARCH 6, 2014, PUBLIC MEETING WITH MASSACHUSETTS INTITUTE OF TECHNOLOGY RE: DIGITAL INSTRUMENTATION AND CONTROL UPGRADE LICENSE AMENDMENT APPLICATION On March 6, 2014, a Category 1 public meeting was held between the U.S. Nuclear Regulatory Commission (NRC) and representatives of the Massachusetts Institute of Technology (MIT) at NRC Headquarters, One White Flint North, 11555 Rockville Pike, Rockville, Maryland. The purpose of this meeting was to discuss the MIT design concept for their proposed digital instrumentation and control (I&C) upgrade. MIT stated that they plan to submit the associated license amendment request (LAR) in September 2014. A list of attendees is provided as an enclosure.
MIT presented slides (See Agencywide Document Access and Management System (ADAMS)
Accession No. ML14078A636) describing their current Instrumentation for neutron flux scrams.
This system includes ten detectors and eight channels, six of which are used for reactor trip.
These latter six are arranged in two groups of one-out-of-three coincident logic (i.e., period and power trips):
Channels 1 and 2 are of the same design and are interchangeable. Each uses a fission chamber and an uncompensated ion chamber as the neutron sensing elements. The fission chamber is operated as a pulsed counter in the source range to provide visible neutron level indication at reactor startup. The uncompensated chamber is operated in the power range once the fission chamber saturates after a four decade power increase.
Channel 3 uses an uncompensated ion chamber and provides a safety system scram initiated by its associated scram amplifier at a period between 10 and 11 seconds.
Channels 4, 5, and 6 use uncompensated boron-lined ion chambers as the neutron sensing elements. Each high flux trip is set to provide a reactor scram at a detector output for that channel that corresponds to a reactor power of 6.6 megawatts.
Channel 7 utilizes a compensated ion chamber as its neutron sensing element. This channel is the console operator's principal indication of reactor power.
Channel 8 utilizes an uncompensated ion chamber as its neutron sensing element. Its principal function is to provide an indication of the reactor power level when offsite electrical power has been lost.
Then MIT presented the plan for the new instrumentation, which includes four detectors and two-out-of-four coincident logic. The four detectors will be used for both period and power trips.
Some discussion was held regarding a report previously docketed by MIT (ADAMS Accession No. ML13339A344). Specifically, the NRC staff pointed out that this report predominately addressed one piece of equipment (i.e., Mirion s DWK 250 system). The NRC staff expressed interest in the following additional information:
- 1) MITs Plan (e.g., LAR outline) for the LAR. Specifically, how MIT is planning to address Draft Chapter 7 of NUREG-1537, Guidelines for Preparing and Reviewing Applications for the Licensing of Non-Power Reactors, which will be issued as an Interim Staff Guidance.
- 2) The NRC Staff expressed an interest in knowing what all of the configurable parameters were (Mirion and Applicant), and how the proper setting will be demonstrated.
- 3) MITs Regulatory Evaluation.
The NRC Staff recommended three topics for a subsequent Phase 0 meeting:
- 1) Coincidence logic boards
- a. Development
- b. Testing (e.g., Simplicity - Elimination of consideration of common cause failure)
- 2) Existing Certifications (e.g., Technischer Uberwachungsverein e.V (TUV))
- a. System Software Version Numbers
- b. Mirion Configurable Items
- c. User Configurable Items
- 3) NUREG-1537 Compliance Plan
- a. Outline for LAR
- b. Plan for Addressing Criteria in NUREG-1537 The meeting was attended by MIT staff, individuals representing Mirion Technologies (vendor),
and NRC staff. Additional individuals participated in the meeting through audio teleconferencing.
Members of the public were in attendance. Public meeting feedback forms were received.
Please direct any inquiries to me at 301-415-3724, or Duane.Hardesty@nrc.gov.
/RA/
Duane A. Hardesty, Project Manager Research and Test Reactor Licensing Branch Division of Policy and Rulemaking Office of Nuclear Reactor Regulation Docket No. 50-20
Enclosure:
List of Attendees cc: See next page
Pkg.: ML14078A659; Meeting Notice: ML14056A550; Meeting Summary: ML14078A545; Meeting Handout: ML14078A636 (Non-Prop)
NRC-001 OFFICE DPR/PRLB/PM DPR/PRLB/LA DPR/PRLB/BC DPR/PRLB/PM NAME DHardesty PBlechman AADAMS DHardesty DATE 03/20/2014 03/25/2014 03/26/2014 03/27/2014
LIST OF MEETING ATTENDEES March 6, 2014 Meeting with Massachusetts Institute of Technology Digital Instrumentation & Control Upgrade Name Organization Duane Hardesty U.S. Nuclear Regulatory Commission (NRC)
Alexander Adams, Jr.
NRC Norbert Carte NRC William Schuster*
NRC Thomas OMalley Mirion Technologies Roy Ray Mirion Technologies Franz Terheiden*
Mirion Technologies Roderik Wiedemeier*
Mirion Technologies Edward Lau Massachusetts Institute of Technology (MIT)
Susan Tucker MIT Tom Newton MIT Shawn Hanvy MIT Dan Cronin*
University of Florida Training Reactor (UFTR)
Brian Shea*
UFTR *
- Participated via telecon
Massachusetts Institute of Technology Docket No. 50-20 cc:
City Manager City Hall Cambridge, MA 02139 Department of Environmental Protection One Winter Street Boston, MA 02108 Beverly Anderson, Interim Director Radiation Control Program Department of Public Health Schrafft Center, Suite 1M2A 529 Main Street Charlestown, MA 02129 John Giarrusso, Planning and Preparedness Division Chief Massachusetts Emergency Management Agency 400 Worcester Road Framingham, MA 01702-5399 Test, Research, and Training Reactor Newsletter University of Florida 202 Nuclear Sciences Center Gainesville, FL 32611 Dr. Thomas H. Newton Director of Reactor Operations Massachusetts Institute of Technology Research Reactor MITNRL-NW 12 138 Albany Street Cambridge, MA 02139