A shell-and-tube heat exchanger with one shell pass and two tube passes is constructed from 25.4 mm outside-diameter tube to be used to cool 7 kg/s of 95% ethyl alcohol solution (specific heat...


A shell-and-tube heat exchanger with one shell pass and two tube passes is constructed<br>from 25.4 mm outside-diameter tube to be used to cool 7 kg/s of 95% ethyl alcohol solution<br>(specific heat capacity = 3810 J/kg K) from 65°C to 40°C using untreated water from a local<br>reservoir (specific heat capacity = 4180 J/kg K) available at a temperature of 10°C. The outlet<br>temperature of the water is limited to 25°C while the mass flow rate per tube is limited to<br>0.1 kg/s. The overall heat-transfer coefficient, based on the outside diameter of the tubes, is<br>568 W/m? K,<br>a) Calculate the total heat transfer rate in the heat exchanger, the maximum allowable heat<br>transfer rate per tube, and hence the number of tubes required.<br>b) Calculate the total surface area required and hence the length of the tubes.<br>c) Referring where necessary to your results from a) and b) above, discuss the advantages<br>and disadvantages of using the following alternative types of heat exchanger for the<br>above task.<br>i)<br>ii)<br>Double pipe<br>Plate and Frame<br>Brazed Plate<br>

Extracted text: A shell-and-tube heat exchanger with one shell pass and two tube passes is constructed from 25.4 mm outside-diameter tube to be used to cool 7 kg/s of 95% ethyl alcohol solution (specific heat capacity = 3810 J/kg K) from 65°C to 40°C using untreated water from a local reservoir (specific heat capacity = 4180 J/kg K) available at a temperature of 10°C. The outlet temperature of the water is limited to 25°C while the mass flow rate per tube is limited to 0.1 kg/s. The overall heat-transfer coefficient, based on the outside diameter of the tubes, is 568 W/m? K, a) Calculate the total heat transfer rate in the heat exchanger, the maximum allowable heat transfer rate per tube, and hence the number of tubes required. b) Calculate the total surface area required and hence the length of the tubes. c) Referring where necessary to your results from a) and b) above, discuss the advantages and disadvantages of using the following alternative types of heat exchanger for the above task. i) ii) Double pipe Plate and Frame Brazed Plate

Jun 09, 2022
SOLUTION.PDF

Get Answer To This Question

Related Questions & Answers

More Questions »

Submit New Assignment

Copy and Paste Your Assignment Here