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INL/OSU LDRD

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INL/OSU LDRD Developing Core Flow Analysis Methods for the VHTR and GFR Designs Theron Marshall, INL J.N. Reyes, Jr., Brian Woods, Qiao Wu, OSU – PowerPoint PPT presentation

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Title: INL/OSU LDRD


1
INL/OSU LDRD Developing Core Flow Analysis
Methods for the VHTR and GFR Designs
  • Theron Marshall, INL
  • J.N. Reyes, Jr., Brian Woods, Qiao Wu, OSU
  • ACE Workshop
  • September 19-20, 2005

2
TABLE OF CONTENTS
  • Introduction
  • Research Objectives
  • Research Plan
  • Gas Reactor Test Section (Preliminary)
  • Towards a Large Scale GRTF at INL

3
INTRODUCTION
  • The Idaho National Laboratory (INL), through its
    LDRD program, has established a research project
    at Oregon State University (OSU) to investigate
    the flow behavior in the VHTR and GFR during a
    LOCA.
  • OSU will conduct LOCA experiments and participate
    in a joint modeling and analysis effort to
    validate ATHENA modeling for the GFR and VHTR.

4
RESEARCH OBJECTIVES
  • The principal objective is the experimental
    validation and optimization of RELAP5/ATHENA
    thermal hydraulics modeling of a Loss of Coolant
    Accident (LOCA) for both the thermal and fast
    gas-cooled next-generation nuclear reactors.
  • Design, construct, and operate a small scale Gas
    Reactor Vessel Test Section (GRTS).
  • Provide LOCA core flow data to benchmark
    RELAP5/ATHENA predictions.
  • Develop and assess Computational Fluid Dynamics
    (CFD) models for the LOCA.
  • Provide the INL with a technological basis for
    seeking funding for a national, large-scale gas
    reactor thermal fluids test facility at INL.

5
Research Plan
6
Flow Directions in VHTR and GFR
GFR with concentric inlet/outlet and upward flow
through core
NGNP with concentric inlet/outlet and downward
flow through core
7
Flow Behavior During a LCOA in VHTR and GFR
Figure 1 Helium mass flow through the VHTR core
following the LOCA initiation. Onset of natural
circulation occurs after 200 hours (Moore, 2002).
Figure 2 Helium mass flow through the GFR core
following the LOCA initiation. Onset of natural
circulation occurs within one minute.
(Marshall, 2005).
8
Scaling Analysis
  • Fluid Properties Scaling
  • Top-Down System Scaling
  • Natural Circulation
  • Bottom-Up Phenomena Scaling
  • Local Transport Phenomena
  • Air Ingress by Diffusion
  • Lower Plenum Turbulent Mixing

9
Description of GRTS Normal Flow Path for VHTR
Configuration
10
Air Ingress Flow Path for VHTR Configuration
11
GRTS Preliminary Design
Drawing by Jim Nylander, Harris Thermal
12
GTRS Proposed Operating Conditions
  • Pressure Vessel Wall Rated to operate at 550oC
    (1022oF) and 1 MPa (155 psia).
  • Ceramic lined shroud and upper head can operate
    above 1000oC
  • Hexagonal Ceramic Heaters to simulate the
    prismatic core.
  • Matches VHTR Temperature Conditions
  • Inlet Temperature 490oC (914oF)
  • Outlet Temperature 1000oC( 1832oF)

13
GRTS Benchmark Tests
  • OSU will conduct tests for upward and downward
    flow through the core under reduced circulation
    pump flow conditions.
  • Core flow stability assessment
  • LOCA (air ingress study)
  • Future Proposal
  • Thermal mixing in the hot duct
  • Thermal mixing in the lower plenum

14
GRTS Benchmark Calculations
  • INL will use RELAP5/ATHENA to predict GRTS core
    flow data.
  • OSU will use the computational fluid dynamics
    code FLUENT to predict GRTS thermal mixing
    behavior.
  • Ph.D. Graduate Student to support INL code
    development effort.

15
Significance of LDRD Results
  • Provide INL with a technological basis for
    seeking funding for a national, large-scale gas
    reactor thermal fluids test facility
  • Scaling Analysis Methods
  • Reduced Scale Benchmark Data
  • Benchmarked Analysis Tools
  • Support Basis for INL Design and Certification of
    the NGNP

16
Conclusions
  • OSU/INL LDRD project Developing Core Flow
    Analysis Methods for the VHTR and GFR Designs is
    underway.
  • Scaling Analysis Methods
  • Reduced Scale GRTS
  • Reduced Scale Benchmark Data
  • Benchmarked Analysis Tools
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