1 / 27

“ Mechanical Properties of Nuclear Grade Graphite at High Temperatures and Pressures ”

By: Matt Luedeman, Peter Wells, Chris Dyke Advisor: Jay McCormack Clients: Dr. Karl Rink Dr. Gabriel Potirniche Dr. Akira Tokuhiro. “ Mechanical Properties of Nuclear Grade Graphite at High Temperatures and Pressures ”. Overview. Problem Overview

mikko
Télécharger la présentation

“ Mechanical Properties of Nuclear Grade Graphite at High Temperatures and Pressures ”

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. By: Matt Luedeman, Peter Wells, Chris Dyke Advisor: Jay McCormack Clients: Dr. Karl Rink Dr. Gabriel Potirniche Dr. Akira Tokuhiro “Mechanical Properties of Nuclear Grade Graphite at High Temperatures and Pressures”

  2. Overview • Problem Overview • Testing Procedures • Vessel Design • Budget • Future Plans • Questions

  3. Problem Overview Purpose: The Next Generation Nuclear Power Plant (NGNP) uses a graphite pebble bed as a neutron moderator. • Dust creation • PEBBLES Code • Unknown properties of nuclear grade graphite

  4. Problem Overview Cont. Two main parts: • Create testing procedures for finding Young’s/Shear Modulus, Poisson’s Ratio Static/Kinetic Coefficients of Friction. • Create a heated pressure vessel that can simulate the environment in a nuclear reactor.

  5. Testing Procedures Young’s Modulus

  6. Testing Procedures Shear Modulus

  7. Testing Procedures Coefficients of Friction • Kinetic • Static

  8. Vessel Design Vessel Requirements • Dimensions • Heating Source • Viewing Window • Electrical Input • Safety • Access

  9. Vessel Sizing Vessel needs to be large enough to conduct experiments for: • Our testing procedures • Graduate student experimentation • Future experiment or design implementations

  10. Vessel Sizing Cont. Our proposed vessel will have: • ID = 12 inches • L = 12 inches • The thickness will depend on the temperature of the steel

  11. Heating Sources Internal Heating • Heats Specimen Quickly • More Energy Efficient • Simplifies Overall Design External Heating • Takes Longer to Heat • Less Energy Efficient • Creates Challenges for Experimentation

  12. Internal Heating • There is little excess energy used. • Requires a temperature control unit • Variable voltage controller • Two possible methods: • Flanged Immersion Heaters • Sending a current through a wire • NiCr wiring

  13. Immersion Heaters • Application • Benefits • Disadvantages

  14. NiCr Heating Fiber Insulated Heater from Zircar Ceramics: • Custom Size • Insulation included • Time to heat • Temperature Control

  15. Vessel Thickness • Fiber insulated heater temperature graph from Zircar Ceramics • According to the ASME standards for pressure vessel design

  16. Viewing Window We need a viewing window for: • Conducting Testing • Observing Equipment • Design Factors: • High Flexural Strength • Known energy deflection characteristics

  17. Electrical Input • Required to allow for internal input of wiring • Power feed-through must be rated to withstand: • Pressure • Temperature of outside of insulation

  18. Safety Vessel will need: • Pressure Relief Valves • Design Safety Factor • To Comply with ASME Regulations

  19. Access Vessel needs to have access in order to: • Vary experiment setup • Perform Maintenance on Heating Unit

  20. Budget

  21. Future Plans • Finalize Vessel Design • Viewing Window • Vessel Thickness • Insulation Shape • Order Materials • Assemble Vessel • Test Apparatus • Perform Mechanical Testing in Vessel (Time Permitting)

  22. CATIA Rendering of Vessel

  23. Vessel Thickness

  24. Power Input Calculation

More Related