Steam at a pressure of 0.08 bar and a quality of 93.2 % enters a shell-and-tube heat exchanger where it condenses on the outside of tubes through which cooling water flows, exiting as saturated liquid at 0.08 bar. The mass flow rate of the condensing steam is 2.4 x 105 kg/h. Cooling water enters the tubes at 15°C and exits at 35°C with negligible change in pressure. Neglecting stray heat transfer and ignoring kinetic and potential energy effects, determine the mass flow rate of the cooling water, in kg/h, for steady-state operation. m water x 106 kg/h

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Steam at a pressure of 0.08 bar and a quality of 93.2 % enters a shell-and-tube heat exchanger where it
condenses on the outside of tubes through which cooling water flows, exiting as saturated liquid at 0.08
bar. The mass flow rate of the condensing steam is 2.4 x 105 kg/h. Cooling water enters the tubes at 15°C
and exits at 35°C with negligible change in pressure. Neglecting stray heat transfer and ignoring kinetic and
potential energy effects, determine the mass flow rate of the cooling water, in kg/h, for steady-state
operation.
m water
x 106 kg/h
Transcribed Image Text:Question 15 < > Steam at a pressure of 0.08 bar and a quality of 93.2 % enters a shell-and-tube heat exchanger where it condenses on the outside of tubes through which cooling water flows, exiting as saturated liquid at 0.08 bar. The mass flow rate of the condensing steam is 2.4 x 105 kg/h. Cooling water enters the tubes at 15°C and exits at 35°C with negligible change in pressure. Neglecting stray heat transfer and ignoring kinetic and potential energy effects, determine the mass flow rate of the cooling water, in kg/h, for steady-state operation. m water x 106 kg/h
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