## What is/are Heat Calculation?

Heat Calculation - In addi-tion, the heat calculation for rated load condition of a turbogenerator with the help of a mathematical model as well as comparison of these results with experimental data for a real generator analogous type and power are made.^{[1]}Eighteen decay heat measurements of Ringhals Unit 3 PWR fuel assemblies are then employed to validate the decay heat calculation results.

^{[2]}This study is then complemented with decay heat calculations for the assembly of interest, consistent with the PIE study.

^{[3]}To explore the calculation method and distribution of the decay heat of lower head molten pool under IVR conditions, the decay heat calculation method is developed based on Reactor Monte Carlo Code (RMC).

^{[4]}The required data to perform waste heat calculation were extracted through document reviews and site visits.

^{[5]}Results of studies presented, which were implemented in three methodologies intended for heat calculation and selection of rational parameters of regenerative burners operation.

^{[6]}It supports heat calculation, multi-field and fluid-solid coupling numerical simulations.

^{[7]}The temperature of the propellant surface is computed by conduction heat calculation and then is used as a criterion of ignition.

^{[8]}Special attention was allotted to spectral gamma-ray and temperature logs to show their usefulness to radiogenic heat calculation and heat flux modelling.

^{[9]}The approach introduced is then tested with the decay heat calculations of the deterministic code STREAM.

^{[10]}The experimental results were in good agreement with the equivalent adsorption heat calculations, which showed that the CO2 affinity of the ligands with polarity groups were thermodynamically more favored than those with non-polarity ones on the MOF structures.

^{[11]}85 measurements of decay heat from decay heat measurement facilities GE-Morris and CLAB are used to validate the decay heat calculation in NECP-X.

^{[12]}The basic conditions for heat calculations are quasi-stable thermal conditions.

^{[13]}The reaction heat calculation results indicated that the gasification of Ca-LHG process could shift from endothermic to exothermic as the pressure increasing to higher than 2.

^{[14]}A large impact on antineutrino spectrum calculations was already reported and here we detail the significant impact on decay heat calculations.

^{[15]}Also, an isosteric heat calculation and radial distribution function analysis were performed to prove that the water molecules interact more with MCM-41 than other gases.

^{[16]}The main objective of this work is to further verify the decay heat calculation capabilities of DYN3D by applying it to a considerably more realistic and detailed full core model.

^{[17]}This article takes the hydrogen-fueled scramjet as the research object, considering the mixing and combustion of the hydrogen fuel with the airflow, to propose a variable specific heat calculation method which considering the chemical equilibrium of the hydrogen-fueled combustion products.

^{[18]}Furthermore, the results and conclusions of this study provide a theoretical basis and reference for heat calculations of frozen soil.

^{[19]}Observations at 27 flux towers located in seven land cover types (needle-leaf forest, broadleaf forest, shrub, savanna, grassland, cropland, and sparsely vegetated land) and an artificial intelligence particle swarm optimization (PSO) algorithm was combined to calibrate the five parameters (leaf drag coefficient, leaf heat transfer coefficients, roughness length for soil, and two parameters for ground heat calculation) in the SEBS model.

^{[20]}Therefore, the uncertainty quantification step is of paramount importance in order to increase the reliability and accuracy of decay heat calculations.

^{[21]}Furthermore, this model fitted actual field data better than other heat calculation models.

^{[22]}Enthalpy values obtained by Van't Hoff method was confirmed by isosteric heat calculation, evidencing that this methodology can be used for systems whose compositions are unknown, but detectable by indirect form.

^{[23]}

## Decay Heat Calculation

Eighteen decay heat measurements of Ringhals Unit 3 PWR fuel assemblies are then employed to validate the decay heat calculation results.^{[1]}This study is then complemented with decay heat calculations for the assembly of interest, consistent with the PIE study.

^{[2]}To explore the calculation method and distribution of the decay heat of lower head molten pool under IVR conditions, the decay heat calculation method is developed based on Reactor Monte Carlo Code (RMC).

^{[3]}The approach introduced is then tested with the decay heat calculations of the deterministic code STREAM.

^{[4]}85 measurements of decay heat from decay heat measurement facilities GE-Morris and CLAB are used to validate the decay heat calculation in NECP-X.

^{[5]}A large impact on antineutrino spectrum calculations was already reported and here we detail the significant impact on decay heat calculations.

^{[6]}The main objective of this work is to further verify the decay heat calculation capabilities of DYN3D by applying it to a considerably more realistic and detailed full core model.

^{[7]}Therefore, the uncertainty quantification step is of paramount importance in order to increase the reliability and accuracy of decay heat calculations.

^{[8]}

## Isosteric Heat Calculation

Also, an isosteric heat calculation and radial distribution function analysis were performed to prove that the water molecules interact more with MCM-41 than other gases.^{[1]}Enthalpy values obtained by Van't Hoff method was confirmed by isosteric heat calculation, evidencing that this methodology can be used for systems whose compositions are unknown, but detectable by indirect form.

^{[2]}

## heat calculation result

Eighteen decay heat measurements of Ringhals Unit 3 PWR fuel assemblies are then employed to validate the decay heat calculation results.^{[1]}The reaction heat calculation results indicated that the gasification of Ca-LHG process could shift from endothermic to exothermic as the pressure increasing to higher than 2.

^{[2]}

## heat calculation method

To explore the calculation method and distribution of the decay heat of lower head molten pool under IVR conditions, the decay heat calculation method is developed based on Reactor Monte Carlo Code (RMC).^{[1]}This article takes the hydrogen-fueled scramjet as the research object, considering the mixing and combustion of the hydrogen fuel with the airflow, to propose a variable specific heat calculation method which considering the chemical equilibrium of the hydrogen-fueled combustion products.

^{[2]}