Aman Gupta scite author profile

This study investigates the technical feasibility and quantifies the technical potential of using a chemical-absorption heat pump to upgrade thermal energy from nuclear reactors to be used for high temperature thermal processes. Presently, high temperature industrial process heat is produced on-site through combustion of fossil fuels or use of grid electricity by resistance heating. These two methods either generate significant amounts of greenhouse gas emissions or waste large amounts of energy through multiple thermal-electrical conversions. Co-location of a small modular reactor (SMR) and an industrial thermal process can significantly improve energy efficiency with less carbon emissions.Chemical heat pumps can be used to create a thermal pathway between the nuclear reactor and the industrial process when there is a temperature mismatch. In this work, we present a calcium oxide hydration reaction based chemical heat pump paired with a lithium bromide-water absorption cycle to efficiently boost heat from a nuclear reactor for high temperature thermal processes. A steady state thermodynamic analysis reveals second law efficiencies above 0.7 for input temperatures of 325 C to 375 C and output temperatures from 500 C to 800 C. The system size is greatly dependent on the dehydration temperature from the nuclear reactor and pressure drop between the dehydration bed and LiBr -H 2 O absorber.heat pump, industrial thermal process, nuclear power, process heat, temperature boost | INTRODUCTIONThe integrated nuclear-renewable energy system (INRES) concept, shown in Figure 1, is a way to increase the value proposition for nuclear energy in electric grids with high renewable penetration (Bragg-Sitton et al). 1 Here, a nuclear plant co-located with renewable generation, storage, and heat consuming industrial processes can provide base load electricity and/or process heat while maintaining steady plant operation.

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Effect of Low Intensity Ultrasound on Nucleic Acid Components

Gupta

Wang

1976

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Aman Gupta

Kinetics of Ca(OH)2 decomposition in pure Ca(OH)2 and Ca(OH)2-CaTiO3 composite pellets for application in thermochemical energy storage system

Energy and exergy analysis of Ca(OH)2/CaO dehydration-hydration chemical heat pump system: Effect of reaction temperature

Thermodynamics of Ca(OH)2/CaO reversible reaction: Refinement of reaction equilibrium and implications for operation of chemical heat pump

A chemical‐absorption heat pump for utilization of nuclear power in high temperature industrial processes

Effect of Low Intensity Ultrasound on Nucleic Acid Components

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