Impact of using different numbers of fins on heat transfer augmentation in a phase-change material helical coil latent energy storage system
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Elsevier BV
Reference62 articles.
1. A thermal-dissipation correction method for in-situ soil thermal response test: experiment and simulation under multi-operation conditions;Ma;Energ. Build.,2019
2. Eco-friendly coffee-based colloid for performance augmentation of solar stills;Essa;Process. Saf. Environ. Prot.,2020
3. Performance prediction and techno-economic analysis of solar dish/Stirling system for electricity generation;Zayed;Appl. Therm. Eng.,2020
4. Thin film technology for solar steam generation: a new dawn;Elsheikh;Sol. Energy,2019
5. Energy storage systems—characteristics and comparisons;Ibrahim;Renew. Sust. Energ. Rev.,2008
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3. The effects of fins number, metal foam, and helical coil on the thermal storage enhancement of the phase change material: An experimental study;Applied Thermal Engineering;2024-09
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