Question

Thermodynamics Problem 12.85 Imagine a 2000 ft^(3) of an air-water vapor mixture at 14.7 psi, 90...

Thermodynamics Problem 12.85

Imagine a 2000 ft^(3) of an air-water vapor mixture at 14.7 psi, 90 Fahrenheit, 70 % relative humidity. Calculate the:

A. Humidity Ratio

B. Dew Point in Fahrenheit

C.Mass of Air

D. Mass of Vapor

E. Saturated Pressure for the water vapor in the mixture.

F. Vapor Pressure

G. Partial Pressure for Dry Air

H. Mass of dry air

I. Pressure for the water vapor leaving the duct in psi

J. Entalphy of saturated Vapor in BTU/lbm

Engineering   Mechanical-Engineering   
0 0
Add a commentTranscribed image text
Next >

Homework Answers

Answer #1

0 0
Know the answer?
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Log In

Sign Up

Not the answer you're looking for?
Ask your own homework help question
Similar Questions
An air-water vapor mixture containing 20% ​​humidity at a dry thermometer temperature of 40 ° C...
An air-water vapor mixture containing 20% ​​humidity at a dry thermometer temperature of 40 ° C A tunnel is fed to the dryer by being heated to 70 ° C. Red pepper samples It is dried in adiabatic conditions. Leave the dryer system saturated For the mixing air-water vapor mixture, find the following. a) 10000 m3 of moist air at 40 ° C (air-water vapor mixture) warmth Required heat to increase to 70 ° C b) Air temperature at dryer...
A natural draft-cooling tower is to remove 50 MW of waste heat from cooling water, which...
A natural draft-cooling tower is to remove 50 MW of waste heat from cooling water, which enters the tower at 42 °C and leaves at 27 °C. Atmospheric air enters the tower at standard atmospheric pressure with dry and wet bulb temperatures of 23 °C and 18 °C respectively (approximately 62% relative humidity), and leaves saturated at 37 °C. a) Sketch a fully labelled schematic diagram of the system identifying all the state points. Illustrate the process on a psychrometric...
The next three questions go together. 21. Expired air is saturated with water vapor and generally...
The next three questions go together. 21. Expired air is saturated with water vapor and generally contains more of it than does inspired air. There is usually a net loss of water from the body due to breathing. Water vapor pressure in the at saturation in the lungs (at 37°C) is 47 mmHg, while in expired air at 33°C it is 37.7 mmHg. Consider the case of someone who is breathing dry air in and moist air out at a...
ADVERTISEMENT
Need Online Homework Help?

Get Answers For Free
Most questions answered within 1 hours.

Ask a Question
ADVERTISEMENT