am ice plant of 200 tons refrigeration capacity makes use of the shell and tub e remover. the temperature is discharge is 112 C and vapor is cooler to 52 C. water enters at 24 C and is heated during ther counterflow with vapor to 70 C. the compressor operature at 1352.2 kpaa condenser pressure and 247.14 kpaa evaporates pressure. the overall coefficient of the heat transfer is 390 kj/hr-m-c. calculate the LMTD.
am ice plant of 200 tons refrigeration capacity makes use of the shell and tub e remover. the temperature is discharge is 112 C and vapor is cooler to 52 C. water enters at 24 C and is heated during ther counterflow with vapor to 70 C. the compressor operature at 1352.2 kpaa condenser pressure and 247.14 kpaa evaporates pressure. the overall coefficient of the heat transfer is 390 kj/hr-m-c. calculate the LMTD.
Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)
8th Edition
ISBN:9781305387102
Author:Kreith, Frank; Manglik, Raj M.
Publisher:Kreith, Frank; Manglik, Raj M.
Chapter10: Heat Exchangers
Section: Chapter Questions
Problem 10.25P
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am ice plant of 200 tons refrigeration capacity makes use of the shell and tub e remover. the temperature is discharge is 112 C and vapor is cooler to 52 C. water enters at 24 C and is heated during ther counterflow with vapor to 70 C. the compressor operature at 1352.2 kpaa condenser pressure and 247.14 kpaa evaporates pressure. the overall coefficient of the heat transfer is 390 kj/hr-m-c. calculate the LMTD.
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