Question: Humid air is enclosed in a 2.00-liter flask at 40C. The flask is slowly cooled. When the temperature reaches 20C, drops of moisture become visible
Humid air is enclosed in a 2.00-liter flask at 40°C. The flask is slowly cooled. When the temperature reaches 20°C, drops of moisture become visible on the flask wall. Although the pressure in the flask changes when the temperature drops, it remains close enough to 1 atm for the psychometric chart to provide a close representation of the behavior of the system throughout the process. Use the chart to solve the following problems.
(a) What were the relative humidity, absolute humidity, and wet-bulb temperature of the air at 40°C?
(b) Calculate the mass of the water in the flask.
(c) Calculate the enthalpy change in joules undergone by the air in going from 40°C to 20°C.
(d) Write an energy balance for this closed-system process taking the wet air in the flask as the system and use it to calculate the heat in joules that must be transferred from the air to accomplish the cooling. (Assume ideal gas behavior, so that H = U + RT.)
Step by Step Solution
3.46 Rating (159 Votes )
There are 3 Steps involved in it
a Td 40C Idew point b Mass of dry air mda 20C Mass of water AH 4... View full answer
Get step-by-step solutions from verified subject matter experts
Document Format (1 attachment)
13-E-C-E-C-P (480).docx
120 KBs Word File