Ittinop Dumnernchanvanit scite author profile

Ittinop Dumnernchanvanit

2Publications

5Citation Statements Received

47Citation Statements Given

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Affiliations

Massachusetts Institute of Technology

Publications

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Initial experimental evaluation of crud-resistant materials for light water reactors

Dumnernchanvanit

Zhang

Robertson

et al. 2018

Journal of Nuclear Materials

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The buildup of fouling deposits on nuclear fuel rods, known as crud, continues to challenge the worldwide fleet of light water reactors (LWRs). Crud causes serious operational problems for LWRs, including axial power shifts, accelerated fuel clad corrosion, increased primary circuit radiation dose rates, and in some instances has led directly to fuel failure. Numerous studies continue to attempt to model and predict the effects of crud, but each assumes that it will always be present. In this study, we report on the development of crud-resistant materials as fuel cladding coatings, to reduce or eliminate these problems altogether. Integrated loop testing experiments at flowing LWR conditions show significantly reduced crud adhesion and surface crud coverage, respectively, for TiC and ZrN coatings on stainless steel. The loop testing results roughly agree with the London dispersion component of van der Waals theoretical force predictions, suggesting that they contribute most significantly to the adhesion of crud to fuel cladding in out-of-pile conditions. These results motivate a new look at ways of reducing crud, thus avoiding many expensive LWR operational issues.

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The fractalline properties of experimentally simulated PWR fuel crud

Dumnernchanvanit

Mishra

Zhang

et al. 2018

Journal of Nuclear Materials

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The buildup of fouling deposits on nuclear fuel rods, known as crud, continues to challenge the worldwide fleet of light water reactors (LWRs). Crud may cause serious operational problems for LWRs, including axial power shifts, accelerated fuel clad corrosion, increased primary circuit radiation dose rates, and in some instances has led directly to fuel failure. Numerous studies continue to attempt to model and predict the effects of crud, but each makes critical assumptions regarding how to treat the complex, porous microstructure of crud and its resultant effects on temperature, pressure, and crud chemistry. In this study, we demonstrate that crud is indeed a fractalline porous medium using flowing loop experiments, validating the most recent models of its effects on LWR fuel cladding. This crud is shown to match that in other LWR-prototypical facilities through a porosity-fractal dimension scaling law. Implications of this result range from post-mortem analysis of the effects of crud on reactor fuel performance to utilizing crud's fractalline dimensions to quantify the effectiveness of anti-fouling measures.

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