he shell fluid,ethylene glycol, enters at 120oC and leaves at 60oCwitha flow rate of 4000 kg/h. Water flows in the tubes, entering at 35oCand leaving at85oC. The overall heat-transfer coefficient for this arrangement is 900W/m2·oC.The exchanger is a shell tube with two shell passes and two tube passes.Calculate the following: a) The water exit temperature if flow rate of glycol to the exchanger is reduced in half with the entrance temperatures of both fluids remaining the same and by how much is the heat-transfer rate reduced?; b) The percentage reduction of heat transfer if water-flow rate is reduced by 25percent,while the gas flowrate is maintained constant along with the fluid inlet temperatures. Assume that the overall heat-transfer coefficient remains the same; andc) The flow rate of water required andthe area of the heat exchanger;

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The shell fluld, ethylene glycol, enters at 120°C and leaves at 60°C with a flow rate of 4000 kg/h. Water flows In the tubes, entering at 35 C and leaving at 85°C. The overall heat-transfer coefficlent for this arrangement is 900 W/m2 .-C. The exchanger Is a shell tube with two shell passes and two tube passes. Calculate the following: a) The water exit temperature If flow rate of glycol to the exchanger Is reduced In half with the entrance temperatures of both flulds remalning the same and by how much is the heat-transfer rate reduced?; b) The percentage reduction of heat transfer If water-flow rate Is reduced by 25 percent, whlle the gas flowrate is malntalned constant along with the fluld Inlet temperatures. Assume that the overall heat-transfer coefficlent remalns the same; and c) The flow rate of water requlred and the area of the heat exchanger;