Experimental and Simulation Investigation of Pipe Tube Heat Exchanger

Jignesh M. Chaudhari; Ashish Patel; Kevin Bhandari; chetan patel

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25-Feb-26

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Experimental and Simulation Investigation of Pipe Tube Heat Exchanger

Author(s):

Jignesh M. Chaudhari , Mechanical Dept. & LIT,Sarigam Valsad; Ashish Patel, Mechanical Dept. & LIT,Sarigam Valsad; Kevin Bhandari, Mechanical Dept. & LIT,Sarigam Valsad; chetan patel, Mechanical Dept. & LIT,Sarigam Valsad

Keywords:

Pipe Tube Heat Exchanger, Water, Temperature, Overall Heat Transfer Coefficient, Pump, Performance

Abstract:

As far today's demand is to manufacture a compact car so there is an urgent need to design an effective heat exchanger. In this paper the effect of fluid on pipe heat exchanger on overall heat transfer coefficient is studied. The overall heat transfer coefficient is studied for pipe heat exchanger with different mass flow rate 1 Lit/hr, 2 Lit/hr and 3 Lit/hr coolant flow Lit/hr @ same surface heating on pipe heat exchanger. Pipe tube heat exchangers are common and vital components in many energy systems. Pipe tube heat exchangers are widely used in several domains such as heating, ventilating, refrigeration and air conditioning systems A fluid fin performance is commonly expressed in terms of pipe tube heat transfer. This case is the one experimental performance on Pipe Tube Heat exchanger for finding Heat Transfer Co-efficient of fluid because this corresponds to the maximum driving potential (temperature difference) for convection heat transfer. The research work summarized in this presents a combined analytical, experimental and numerical investigation of Overall heat transfer coefficient of coolant as water by use of pipe tube heat exchanger force convection. The results for the fluid on pipe tube heat transfer were compared with simulation of pipe heat exchanger by software Ansys 14.1. The experimental system is for investigation for Heat transfer co-efficient of fluid as water from the experiment pipe tube heat exchanger gives the heat transfer coefficient 401.9212W/m2K.and by software simulation its heat transfer co-efficient valid of 383.73W/m2K.