Study on a Concentric Tube Heat Exchanger with Helical Baffle - Chada, Jithendra Sai Raja;R., Dharmalingam
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Heat exchangers are the most common equipment used to transfer heat from high-temperature fluid to low-temperature fluid without direct contact. The present study considers the analytical approach on a concentric tube heat exchanger with the helical baffle. The objective of the study is to reduce the size with effect to increase the effectiveness of the heat exchanger. A heat exchanger with 100mm external diameter and 560mm length contains a helical baffle with 20 - degrees inclination. The designed heat exchanger is analyzed by varying the mass flow rate of hot water from 0.25Kg/s to 2Kg/s at…mehr

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Produktbeschreibung
Heat exchangers are the most common equipment used to transfer heat from high-temperature fluid to low-temperature fluid without direct contact. The present study considers the analytical approach on a concentric tube heat exchanger with the helical baffle. The objective of the study is to reduce the size with effect to increase the effectiveness of the heat exchanger. A heat exchanger with 100mm external diameter and 560mm length contains a helical baffle with 20 - degrees inclination. The designed heat exchanger is analyzed by varying the mass flow rate of hot water from 0.25Kg/s to 2Kg/s at an interval of 0.25kg/s at three different temperatures i.e. 363.16K, 368.16K, 373.16K. A nanofluid is applied to cool the hot water without any loss. The mass flow rate of cold fluid is 2Kg/s at 30 degrees Celsius. The results have displayed that the heat exchanger exhibited appreciable effectiveness at a flow rate of 0.25Kg/s for hot water at 373.16K temperature. Thereby suggesting it as the optimum model of the heat exchanger.
Autorenporträt
Mr. Jithendra Sai Raja Chada is an undergraduate student pursuing his Bachelor¿s Degree (BTech) in Mechanical Engineering at Pragati Engineering College. He has published 7 papers in refereed international journals. His current research interests include CFD, Industrial Design, Nano Materials, Manufacturing Processes, Heat Transfer.