An effort is presently underway to restart the Transient Reactor Test (TREAT) Facility, located at the Idaho National Laboratory by 2018. The TREAT Facility, shown below, has historically been utilized to provide empirical data to support the comprehensive characterization of light water reactor fuel and sodium-cooled fast reactor fuel under a variety of conditions. This test reactor provides the capability of significantly expanding upon the existing empirical data available for traditional light water reactor fuel, supporting the accident tolerant fuel program in the U.S., and efforts to license next generation sodium-cooled reactors. The restart of this unique test reactor has pushed the capabilities of historically developed codes, used to provide the safety case for experimental conduct and design. However, significant progress in the development and implementation of mechanistic-based models has been underway in recent years through large integrated programs such as the Department of Energy’s Nuclear Energy Advanced Modeling and Simulations program. In addition to these ‘next-generation’ computer codes, instrumentation capabilities and experimental hardware design has significantly improved since the shutdown of the TREAT Facility in 1994.
Leveraging such advancements in computational tools, along with new experimental instrumentation and hardware developments, our team’s scope of work will lead to the following outcomes:
- a comprehensive evaluation of existing TREAT Facility neutronics data according to established guidelines per the International Handbook of Evaluated Reactor Physics Benchmark Experiments (IRPhEP Handbook);
- a complete characterization of existing sodium loop experimental data;
- a compilation of relevant empirical data of a representative TREAT Facility flow loop; and
- an integrated instrumentation plan for the TREAT Facility.
Our integrated team comprises six faculty from three universities, four scientist and engineers from three national laboratories and two industry partners. Additionally, our advisory board includes representatives from national laboratories, industry, academia and national and international regulatory bodies.
This project’s scope of work has been organized into three integrated project tasks which are organized as follows:
1. Neutronics Benchmarks
(Led by University of Michigan)
A comprehensive neutronics benchmarking analysis will be conducted using PROTEUS (DoE NEAMS code), PARCS/AGREE (U.S. Nuclear Regulatory Commission [NRC] code) and Open MC (Monte Carlo code). An IRPhEP will result from this comprehensive benchmarking analysis.
Two steady state condition benchmarking tests will be selected and studied.
Two transient condition benchmarking problems will be selected and studied.
2. Loop Thermal-Hydraulics
(Led by Oregon State University)
A complete thermal hydraulic study will be conducted that focuses on the experimental loops placed within the TREAT Facility. These include a comprehensive evaluation of historical data collected from previous sodium experiments as well as expansion of existing data through design, development, and utilization of a new experimental loop that is representative of a proposed TREAT water flow loop.
2.1. Sodium Loop
Data from historically collected sodium loop calibration experiments will be used in a benchmark study against Nek5000 (DoE NEAMS code) and Star CCM+ (Industry code).
2.2. Water Loop
Empirical data resulting from the new experimental flow loop will be benchmarked against RELAP5-3D (Industry code) and TRACE (U.S. NRC code). The experimental loop will also be used to support operational shake-down issues for a TREAT Facility prototype.
3. Core Instrumentation
(Led by Massachusetts Institute of Technology)
The result of task 1 and 2, along with the conduct of ongoing experimental efforts underway by the FY14 IRP-NE team, will provide a clear basis for the design and development of a comprehensive TREAT Facility instrumentation plan.
3.1. Instrumentation Plan
A comprehensive instrumentation plan (location and instrument selection) will be conducted.
3.2. Initial Benchmark Evaluation
Testing of instruments that are required for implementation within the TREAT Facility and that have not already been tested will be conducted at the Massachusetts Institute of Technology Reactor II (steady state tests) and the Oregon State TRIGA® Reactor (transient tests).