A Research Program on Very High Temperature Reactors (DOE-NERI-C-08-043) MU-WashU/MST-NCSU Faculty: S. K. Loyalka (MU, PI), M. Al Dahaan (WashU/MST), R. P. Gardner (NCSU), T. K. Ghosh (MU), M.A. Prelas (MU), R. V. Tompson (MU), D.S. Viswanath (MU) Additional MU Participants: Post Doctoral Fellows: R. Meyer, E. L. Tipton PhD Students: S. Boddu, T. Boyle, S. Branney, V. Gutti, L. Lee, R. Maynard, A. Mohan, Z. Smith, R. Troy, K. Walton, J. Wilson
Faculty: S. K. Loyalka (MU, PI), M. Al Dahaan (WashU/MST), R. P. Gardner (NCSU), T. K. Ghosh (MU), M.A. Prelas (MU), R. V. Tompson (MU), D.S. Viswanath.
Jan 11, 2016
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
A Research Program onVery High Temperature Reactors
(DOE-NERI-C-08-043)MU-WashU/MST-NCSU
Faculty: S. K. Loyalka (MU, PI), M. Al Dahaan (WashU/MST), R. P. Gardner (NCSU), T. K. Ghosh (MU), M.A. Prelas (MU), R. V. Tompson (MU), D.S. Viswanath (MU)
Additional MU Participants:Post Doctoral Fellows: R. Meyer, E. L. TiptonPhD Students: S. Boddu, T. Boyle, S. Branney, V. Gutti, L. Lee, R. Maynard, A. Mohan, Z. Smith, R. Troy, K. Walton, J. Wilson
VHTR’sResearch ProgramResearch Focus at MU
Very High Temperature Reactors Gen IV reactors Two design types▪ Prismatic▪ Pebble Bed
High thermal efficiency ( ~ 48 %) Operating temperatures of 900-1000 ˚C allow
greater thermal efficiency than current LWR designs (~300 ˚C, ~30-35%)
Not affected by coolant phase change Prismatic and PBMR designs use helium as coolant
Process heat can be used for Hydrogen production etc.
Need data/models in many areas including areas that are focus of our research:
• Diffusion of Fission Products• Adsorption of Fission Products• Emissivity from Surfaces• Dust Generation/Deposition/Re-
suspension• Gas, Particle and Pebble Flows
Diffusion of Fission Products (e.g. Silver)
Adsorption Isotherms
Fission products of interest Cesium Strontium Iodine Silver Palladium
Adsorption data needed for plate out calculations under normal and accident conditions
To obtain accurate adsorption data, accurate VP data is required
VP data exists for all five elements Limited temperature ranges considered
We have analyzed the available VP data and identified needs for additional data
Adsorption Experimental Setup
Experiments initially carried out using CsI vapor
CsI was adsorbed on SS sample EDS did not allow characterization of
adsorption mechanism
Emissivity Measurements
Emissivity data
Dust Generation
Graphite Dust Generation
Nano Particle Generation
Particle deposition Experiments
Initial Data
Single Particle Measurements
Conclusions
VHTR’s are very attractive from engineering and economic viewpoints, and are viewed as the Next Generation of Nuclear Power Plants (NGNP) by DOE.
There are many research challenges, and MU faculty and students (together with the consortium faculty and students from MST and NCSU) are contributing to meeting these challenges under DOE sponsorship.
Related Documents
![SummaryMap ward2 [Converted] · 2019-10-01 · MU-2 MU-6 MU-16 MU-14 MU-6 MU-2 MU-20 MU-9 MU-4 MU-13 MU-15 MU-13 MU-16 MU-18 MU-22 MU-19 MU-16 MU-27 MU-4 MU-3A MU-17 MU-13 MU-4 ...](https://static.cupdf.com/doc/110x72/5f5e4f591750d150e9633369/summarymap-ward2-converted-2019-10-01-mu-2-mu-6-mu-16-mu-14-mu-6-mu-2-mu-20.jpg)
