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Liquid water enters a cooling tower operating at steady state at 40°C with a mass flow rate of 10s kg/hr Cooled water at 25°C exits the cooling tower at the same mass flow rate. Makeup water is supplied
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Liquid water enters a cooling tower operating at steady state at 40°C with a mass flow rate of 10s kg/hr Cooled water at 25°C exits the cooling tower at the same mass flow rate. Makeup water is supplied at 23℃ Atmospheric air enters the tower at 30°C, 1 bar, 35% relative humidity. A saturated moist air stream exits at 34°C, 1 bar. Ignoring the effects of KE and PE, determine

a. The mass flow rate of the dry air and makeup water, each in kg/hr
b. The rate of exergy destruction within the cooling tower, in kW, for To 23°C

User Raphael Bossek
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Answer:

a. 2378.5kg/h

b. 37.6 kw

Step-by-step explanation:

Please kindly check attachment for detailed step by step solution.

Liquid water enters a cooling tower operating at steady state at 40°C with a mass-example-1
Liquid water enters a cooling tower operating at steady state at 40°C with a mass-example-2
Liquid water enters a cooling tower operating at steady state at 40°C with a mass-example-3
User Amanjot
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