Jason Andrus scite author profile

Jason Andrus

5Publications

2Citation Statements Received

16Citation Statements Given

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Affiliations

Idaho National Laboratory, Battelle

Publications

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ZPPR Fuel Element Thermal Stress-Strain Analysis

Solbrig¹,

Andrus²,

Pope³

2014

WJNST

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The design temperature of high plutonium concentration ZPPR fuel plates is 600˚C. Cladding integrity of the 304 L stainless steel cladding is a significant concern with this fuel since even small holes can lead to substantial fuel degradation. Since the fuel has a higher coefficient of thermal expansion than the cladding, an investigation of the stress induced in the cladding due to the differential thermal expansion of fuel and cladding up to the design temperature was conducted. Small holes in the cladding envelope would be expected to lead to the fuel hydriding and oxidizing into a powder over a long period of time. This is the same type of chemical reaction chain that exists in the degradation of the high uranium concentration ZPPR fuel. Unfortunately, the uranium fuel was designed with vents which allowed this degradation to occur. The Pu cladding is sealed so only fuel with damaged cladding would be subject to this damage. The thermal stresses that can be developed in the fuel cladding have been calculated in this paper and compared to the ultimate tensile stress of the cladding. The conclusion is drawn that thermal stresses cannot induce holes in the cladding even for the highest storage temperatures predicted in calculations (292˚C). In fact, thermal stress cannot cause cladding failure as long as the fuel temperatures are below the design limit of 600˚C (1112˚F).

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Application of the Licensing Modernization Project Approach to the Authorization of the Versatile Test Reactor

Grabaskas¹,

Andrus²,

Henneke³

et al. 2019

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Thermal Analysis of ZPPR High Pu Content Stored Fuel

Solbrig

Pope

Andrus

2014

International Journal of Nuclear Energy

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The Zero Power Physics Reactor (ZPPR) operated from April 18, 1969April 18, , until 1990. ZPPR operated at low power for testing nuclear reactor designs. This paper examines the temperature of Pu content ZPPR fuel while it is in storage. Heat is generated in the fuel due to Pu and Am decay and is a concern for possible cladding damage. Damage to the cladding could lead to fuel hydriding and oxidizing. A series of computer simulations were made to determine the range of temperatures potentially occuring in the ZPPR fuel. The maximum calculated fuel temperature is 292 ∘ C (558 ∘ F). Conservative assumptions in the model intentionally overestimate temperatures. The stored fuel temperatures are dependent on the distribution of fuel in the surrounding storage compartments, the heat generation rate of the fuel, and the orientation of fuel. Direct fuel temperatures could not be measured but storage bin doors, storage sleeve doors, and storage canister temperatures were measured. Comparison of these three temperatures to the calculations indicates that the temperatures calculated with conservative assumptions are, as expected, higher than the actual temperatures. The maximum calculated fuel temperature with the most conservative assumptions is significantly below the fuel failure criterion of 600 ∘ C (1,112 ∘ F).

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Transient response and radiation dose estimates for breaches to a spent fuel processing facility

Solbrig

Pope

Andrus

2014

Nuclear Engineering and Design

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Structures, Systems, and Components Classification Criteria for the Versatile Test Reactor

Henneke¹,

Andrus²,

Li³

et al. 2020

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Jason Andrus

ZPPR Fuel Element Thermal Stress-Strain Analysis

Application of the Licensing Modernization Project Approach to the Authorization of the Versatile Test Reactor

Thermal Analysis of ZPPR High Pu Content Stored Fuel

Transient response and radiation dose estimates for breaches to a spent fuel processing facility

Structures, Systems, and Components Classification Criteria for the Versatile Test Reactor

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