In-Pile Steady State Extreme Temperature Experiment (INSET)
Transcript of In-Pile Steady State Extreme Temperature Experiment (INSET)
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In-Pile Steady State
Extreme Temperature
Experiment (INSET)
NETS 2021
Tyler Steiner
PhD Candidate
Department of Nuclear Engineering
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• Temperature < 2700 K
• Fluence < 1017 n/cm2
• Hydrogen < 120 kg/s (10s kg/s)
NTP Environment
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Image: http://www.zamandayolculuk.com/nuclearthermal.htm[1], [2]
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• Rover Program (1950s-1970s)
• KIWI
• NERVA
• PHOEBUS
• RIFT
• Space NTP Program (1980s-1990s)
• Space Nuclear Propulsion Project (Present)
NTP Experimental History
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[1], [3], [4]Image: [1]
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INSET Motivation & Testing Strategy
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Image: [5]
• Cost effective
• Prototyping
• Separate effects
In-Pile Steady State Extreme
Temperature Experiment
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• Activation mitigation
• High temperature circuit
• DC heater
• Thermocouples
• Vacuum
• Instrumentation flexibility
• Cost inexpensive
• Reactor compatibility
INSET Design
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INSET Predictability
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Images: [5]
Thermal Neutronic
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• OSURR
• NSUF reactor
• 9.5 inch dry tube
• 1012 n/cm2/s
• 74% thermal
• 450 kW
OSURR and INSET Experiment
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[6]
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Nov 2019
Cermet cladding investigation
OSURR Nov 2019 INSET Experiment
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• Temperature: < 1070 K centerline
15 minutes
• Fluence: 1017 n/cm2
7 hours
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Results of OSURR Nov 2019
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[5]
Using 40 W DC
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Latest INSET Results (March 2021)
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Reactor On*
(12:20)
INSET Heating
(13:17 – 13:44 )
Reactor Off
(14:40)
* Reactor was re-started at this point. Earlier in the day the reactor was shut down to investigate performance.
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• Instrumentation tests
• May 2021
• Higher temperature
• Hydrogen
Future Work
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Graph: [7]
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• INSET has been proven to sustain 1800 K both in-pile
and out-of-pile
• 2700 K capability expected Q3 2021
• INSET serves as a high temperature, steady state, in-
pile (or out-of-pile) testbed for NTP candidate materials
and instrumentation
• Down select candidates for more efficient integrated testing
Conclusions
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References
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[1] S. Borowski, D. Mccurdy, and T. Packard, "Nuclear Thermal Propulsion (NTP): A Proven Growth Technology for Human NEO / Mars Exploration Missions," IEEE Aerospace Conference, 2012. E-18081.
[2] D. Koenig, "Experience Gained from the Space Nuclear Rocket Program (ROVER)," Los Alamos National Laboratory, 1986. LA-10062-H.
[3] J. Finseth, "Overview of Rover Engine Test," NASA Marshall Space Flight Center, 1991. NASA-CR-184270.
[4] J. Reuter, J. Sheehy, and A. Calomino, "Nuclear Technology Portfolio Briefing," NASA, 2020.
[5] T. Steiner, E. Hutchins, and R. Howard, “Steady-State In-Pile Nuclear Thermal Propulsion Experimental Testbed Initial Demonstration at The Ohio State University Research Reactor,” Nuclear Technology. 2021.
[6] National Science User Facilities. Department of Energy. 2021. https://nsuf.inl.gov/Page/reactors
[7] W. Fahrenholtz and G. Hilmas, “Ultra-high temperature ceramics: Materials for extreme environments,” Scripta Materialia 129 94–99. 2016.