Engineering, 12.08.2020 05:01, breann6

Hot air enters a heat exchanger at 350°C and exits at (130+Ψ)°C. The heat extracted is used to boil (0.2 + Ψ/300) kg/s of 100°C water (from saturated liquid to saturated steam). The heat exchanger is a single-shell shell-and-tube heat exchanger with two tube passes. The overall heat transfer coefficient for the hot side is 240 W/(m^2°C). Assume a constant specific heat for air of cp = 1.005 kJ/(kg°C). The pressure of the hot air and the boiling water is P = 1.0 atm. Find the following: a. the NTU for the heat exchanger.
b. the effectiveness of the heat exchanger
c. the net heat transfer from the hot air.
d. the required hot-side area.

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Hot air enters a heat exchanger at 350°C and exits at (130+Ψ)°C. The heat extracted is used to boil...