Use of a Shroud and Baffle to Improve Natural Convection to Immersed Heat Exchangers
Author:
Affiliation:
1. Department of Mechanical Engineering, Embry-Riddle Aeronautical University, Daytona Beach, FL 32114
2. Department of Mechanical Engineering, University of Minnesota, Minneapolis, MN 55455
Abstract
Publisher
ASME International
Subject
Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment
Link
http://asmedigitalcollection.asme.org/solarenergyengineering/article-pdf/doi/10.1115/1.4005089/5632751/011010_1.pdf
Reference17 articles.
1. Natural Convection from a Tube Bundle in a Thin Inclined Enclosure;Liu;ASME J. Sol. Energy Eng.
2. Thermal Characterization of Prototypical ICS Systems With Immersed Heat Exchangers;Liu;ASME J. Sol. Energy Eng.
3. Natural Convection From a Horizontal Tube Heat Exchanger Immersed in a Tilted Enclosure;Liu;ASME J. Sol. Energy Eng.
4. Natural Convective Flow and Heat Transfer in a Collector Storage With an Immersed Heat Exchanger: Numerical Study;Su;ASME J. Sol. Energy Eng.
5. Transient Natural Convection Heat Transfer Correlations for Tube Bundles Immersed in a Thermal Storage;Su;ASME J. Sol. Energy Eng.
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1. Effects of an Annular Baffle on Heat Transfer to an Immersed Coil Heat Exchanger in Thermally Stratified Tanks;Journal of Solar Energy Engineering;2024-04-03
2. The Effect of Pitch on Heat Transfer to an Immersed Heat Exchanger in a Solar Thermal Storage Tank With and Without a Baffle;Journal of Solar Energy Engineering;2022-06-24
3. Experimental study on heat discharging characteristic of single tank with different annular baffle conditions;International Journal of Energy Research;2020-08-12
4. Effects of Baffle Width on Heat Transfer to an Immersed Coil Heat Exchanger: Experimental Optimization;Journal of Energy Resources Technology;2019-12-10
5. Numerical simulations of storage-side natural convection to an immersed coiled heat exchanger with baffle-shrouds;Solar Energy;2019-04
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