Deep neural network-based heat radiation modelling between particles and between walls and particles-Reference-Cited by-同舟云学术

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Deep neural network-based heat radiation modelling between particles and between walls and particles

Published:2021-10 Issue: Volume:177 Page:121557
ISSN:0017-9310
Container-title:International Journal of Heat and Mass Transfer
language:en
Short-container-title:International Journal of Heat and Mass Transfer

Author:

Tausendschön Josef,Radl Stefan

Publisher

Elsevier BV

Subject

Fluid Flow and Transfer Processes,Mechanical Engineering,Condensed Matter Physics

Reference67 articles.

1. An accurate evaluation of geometric view factors for modelling radiative heat transfer in randomly packed beds of equally sized spheres;Feng;Int. J. Heat Mass Transf.,2012

2. Numerical and experimental study of gas-particle radiative heat exchange in a fluidized-bed reactor for steam-gasification of coal;von Zedtwitz;Chem. Eng. Sci.,2007

3. A review and perspective of efficient hydrogen generation via solar thermal water splitting;Muhich;Wiley Interdiscip. Rev. Energy Environ.,2016

4. A numerical investigation of gas-particle suspensions as heat transfer media for high-temperature concentrated solar power;Marti;Int. J. Heat Mass Transf.,2015

5. Heat transfer simulations of selective laser melting process based on volumetric heat source with powder size consideration;Tran;J. Mater. Process. Technol.,2018

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1. Approximate relation of radiation distribution function between particles and wall in the near-wall region considering wall effect;International Communications in Heat and Mass Transfer;2024-08

2. Rapid heat source layout optimization in three‐dimensional integrated circuits using artificial neural network reduced‐order model in combination with Bayesian optimization;Heat Transfer;2024-05-27

3. GPU-DEM-based heat transfer model for an HTGR pebble bed;International Journal of Thermal Sciences;2024-04

4. Fast long-term simulations of hot, reacting, moving particle beds with a melting zone;Chemical Engineering Science;2024-01

5. Performance prediction of VO2-based smart radiation devices through semi-self-supervised learning with phase transition adaptation;Next Energy;2023-12

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