NEUP DE-FOA-0000613
Funding Opportunity Announcement
Project Narrative
Project narrative is 8 pages maximum including cover page, table of content,
Project Objectives
ISU NS&E program
Proposal's Impacts on NS&E R&D and Education
Merit Review Criterion
The following evaluation criteria and weights will be used to evaluate applications submitted under this FOA: Rating criteria include demonstrations of increasing or enhancing research or teaching capabilities. a. (50%) Potential of the requested equipment, instrumentation, modification, or service to improve or expand the research and training capabilities; b. (20%) Adequacy of the number and qualifications of key persons developing and carrying out the project, and the qualification of project personnel assessing project results and disseminating findings. c. (20%) Amount of student and faculty usage of the capabilities, and the amount and variety of research and/or services actually provided by the facility; and d. (10%) Reasonableness of the proposed equipment or instrumentation to achieve the proposed objectives.
Project Timetable
Roles of Participants
Facilities and other resources
Requested Equipment
Project Summary/Abstract
We propose to establish the infrastructure for a modern nuclear instrumentation laboratory that will attract and instruct students in methods directly applicable to nuclear engineering and physics related applications. Specifically, laboratory will be used for hands on training of the skill sets appropriate for serving the nuclear power fleet, national labs, or technology based industries for the next generation. The emphasis will be on real time insrumentation using modern digital equipment.
According to the IAEA, about 40% of the worlds operating nuclear reactors have modernized their analog based instrumentation and control systems with digital technology.
Budget Justification
| Cost | Description |
| $50k | Target (Valeriia) |
| $30k | Target Enclosure (Valeriia) |
| $20k | beam monitors (FC Yujong) |
| $30k | GE fast and slow neutron detectors |
| $110 k | 5 DAQ workstation enhancements ($10k NIM modules, $1k lemo cables, $12k VME module, $2k host computer) |
| $50 k | 1 End Station DAQ system ($6k VME crate, $4k ROC, $3k trigger supervisor, $14k NIM modules, $1k cables, $20 k VME modules, $2k host computer,) |
http://www.ge-mcs.com/en/nuclear-reactor-instrumentation.html
TImeline
Period of Performance is only 1 year
Classroom experiments
Scintillator based neutron detection (Dan)
ToF?
Identification of nuclei using gamma spectroscopy (Valeriia)
HpGE
Neutron detection using ionization chambers (Tony)
He-3 tubes, fission chambers
Solid state neutron detectors (Tony?)
Gadolinium
2008 reports
http://www.aps.org/policy/reports/popa-reports/upload/Nuclear-Readiness-Report-FINAL-2.pdf
Readiness of the U.S. Nuclear Workforce for 21st Century Challenges
A Report from the APS Panel on Public Affairs Committee on Energy and Environment , June 2008
pg 22 recommendation 7.2 1b
File:NUREG-CR-6992USNRC 2010 InsturnControlsinNucPowerPlantUpdate 2008.pdf
pg 83
"In the US-EPR, many subsystems within overall I&C systems are implemented with either the TXS or TXP platform, with some exceptions of hardwired implementations."
1997 report
ISBN: 978-0-309-05732-5, 128 pages, 8.5 x 11, paperback (1997)Digital Instrumentation and Control Systems in Nuclear Power Plants: Safety and Reliability Issues Committee on Application of Digital Instrumentation and Control Systems to Nuclear Power Plant Operations and Safety, National Research Council
"Conclusion 2. The lack of actual design and implementation of large I&C systems for U.S. nuclear power plants makes it difficult to use learning from experience as a basis for im- proving how the nuclear industry and the USNRC deal with systems aspects."
MELTAC
section 9.3.2.1 on pg 91 of the 2008 report above indicates that the Instrumentation and Controls systems for the nuclear fleet may be based on the Mitsubishi Electric Total Advanced Controller Platform (MELTAC)
according to
http://pbadupws.nrc.gov/docs/ML0930/ML093010325.pdf
On March 2 - 6, 2009, the U.S. Nuclear Regulatory Commission (NRC) completed an audit of
the Mitsubishi Electric Total Advanced Controller (MELTAC) digital platform at Mitsubishi
Electric Corporation’s (MELCO) Kobe, Japan facility. The MELTAC digital platform is described
in Topical Report MUAP-07005-P, “Safety System Digital Platform -MELTAC-,” Revision 3,
which was submitted by Mitsubishi Heavy Industries, Ltd. (MHI). MELCO is the supplier of the
MELTAC platform to MHI. The enclosed report documents the audit findings that were
discussed on March 6, 2009, with Mr. Makoto Takashima of MHI, Mr. Katsumi Akagi of MELCO,
and members of their staff.
pg 14-17 has some topical points for this proposal.
Westinghouse Training Facility
http://www.nuclearcounterfeit.com/?tag=simulator
Westinghouse Celebrates Grand Opening of First-of-a-Kind Startup Test Engineer Training Facility
August 30, 2010 by admin
Filed under General, Westinghouse Electric Company
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PITTSBURGH, Aug. 27 /PRNewswire/ — Westinghouse Electric Company celebrated the grand opening of a First-of-a-Kind Startup Test Engineer Training Facility at its headquarters in Cranberry Township, Pa. on August 25, 2010. The grand opening celebration included a ribbon-cutting ceremony, followed by facility tours featuring the facility’s diagnostic lab room that comes complete with a flow loop.
The Westinghouse Startup Test Engineer (WeSTETM) Training Facility will be used to train Westinghouse employees, customers and industry representatives on the proper testing and safe maintenance of Westinghouse AP1000 nuclear power plant systems, structures, and components. The Westinghouse Startup Test Engineer Training Facility is comprised of a state-of-the-art AP1000 simulator that replicates the AP1000 digital control, protection and monitoring systems for component testing and diagnostics training. In addition to the simulator, which is comprised of a digital lab room and a flow loop lab room, the facility includes two traditional training classrooms.
Deva Chari, senior vice president, Nuclear Power Plants, cut the ribbon at the entrance of the facility with the assistance of several leaders from Westinghouse Electric Company.
“The opening of this Startup Test Engineer Training Facility is an exciting step in the nuclear renaissance. This facility serves as an important opportunity for our customers, our industry and Westinghouse to provide a high-quality Startup Test Engineer training and qualification program for the Westinghouse AP1000TM nuclear power plant,” said Mr. Chari.
The first class of 26 students will begin training at this facility at Westinghouse headquarters on August 30. The training facility has the capacity to train approximately 100 students each year. Each group of students will complete the training within approximately four months. After the training and qualification program is complete, students will be qualified as Westinghouse Startup Test Engineers (WeSTEs). WeSTE qualification exceeds the minimum requirements for Level III Test Engineers as specified in ANSI/ASME NQA-1.
The above training facility is a level above the fundamental DAQ training to be received with this program. Students trained in fundamental DAQ could be fed into the above training facility after graduation.