Investigation on Thermal Effects of Radiator Composite Fins using CFD Analysis
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Abstract
The composite fin component is developed with surface fragmentation and molecular deployment, contributing to both molecular areas and surface walls. One of the main benefits of natural contribution is the preservation of good surface conditions and wall temperatures. Composite fins regulate the quality of endurance rate and noise level. The heat flux rate and temperature distribution rate are higher compared to natural controls. Additionally, they facilitate a strong bond between composite fins and radiator pipes. The surface characteristics and heat transfer rate are greater in the fins. While normal fins partially cool the heat rates, the composite fins, with their low heat transfer rate, primarily cool the heat rates from the inlet to the outlet valve.
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