In a TEMA – E type shell-and-tube exchanger, as shown in the schematic diagram, water enters the shell at 218 °C at a rate of 1.4 kg/s. Engine oil flows through the tubes at a rate of 1.0 kg/s. The inlet and outlet temperatures of the oil are 150 °C and 90 °C, respectively. Determine the surface area of the exchanger by both the LMTD and E-NTU methods if U = 225W / (m ^ 2) * K The specific heats of water and oil are 4.19 and 1.67 J/g K respectively.

Report
Question

Please briefly explain why you feel this question should be reported.

Report
Cancel
In a TEMA – E type shell-and-tube exchanger, as shown in the schematic diagram, water enters the shell at 218 °C at a rate of 1.4 kg/s. Engine oil flows through the tubes at a rate of 1.0 kg/s. The inlet and outlet temperatures of the oil are 150 °C and 90 °C, respectively. Determine the surface area of the exchanger by both the LMTD and E-NTU methods if U = 225W / (m ^ 2) * K The specific heats of water and oil are 4.19 and 1.67 J/g K respectively.

5. In a TEMA – E type shell-and-tube exchanger, as shown in the schematic diagram, water enters the shell at 218 °C at a rate of 1.4 kg/s. Engine oil flows through the tubes at a rate of 1.0 kg/s. The inlet and outlet temperatures of the oil are 150 °C and 90 °C, respectively. Determine the surface area of the exchanger by both the LMTD and E-NTU methods if U = 225W / (m ^ 2) * K The specific heats of water and oil are 4.19 and 1.67 J/g K respectively.

in progress 0
Nisar 2025-02-12T19:58:25+05:00 1 Answer 14 views Beginner
0
MathJax Example

Answer ( 1 )

  1. Mechanical Engineering Expert
    0
    2025-02-16T23:59:07+05:00
    Report Reply

    Please briefly explain why you feel this answer should be reported.

    Report
    Cancel

Leave an answer

Browse

By answering, you agree to the Terms of Service and Privacy Policy.