Humid air at 75 °C, 1.1 bar and 30% relative humidity is fed at a rate...

Humid air at 75 °C, 1.1 bar and 30% relative humidity is fed at a rate...

Humid air at 75 °C, 1.1 bar and 30% relative humidity is fed at a rate of 1000 m3/h. Vapor pressure at 75 °C = 289 mm g. Determine the Molal Humidity Absolute humidity, Percentage humidity

In a condenser, humid air at atmospheric pressure, 35 degree celsius and 90% relative humidity enters...

In a condenser, humid air at atmospheric pressure, 35 degree celsius and 90% relative humidity enters the process at a rate of 2.12 m3/s. Liquid water exits as a condensate. If the air exits at 20 degree celsius, determine the molal humidity of outlet air, absolute humidities of inlet and outlet air and flow rate of condensate in L/s.

A humid air stream enters a process at 35 C, 20 atm, and 50% relative humidity....

A humid air stream enters a process at 35 C, 20 atm, and 50% relative humidity. The oxygen flows at 900kmol/h. Determine the molar flow rate of water in the stream.

Moist air at 30 °C and 50% relative humidity enters a dehumidifier operating at steady state...

Moist air at 30 °C and 50% relative humidity enters a dehumidifier operating at steady state with a mass flow rate of 319.35 kg/min. The moist air passes over a cooling coil and water vapor condenses. Condensate (condensed water) exits at 10 °C. Saturated moist air exits in a separate stream at the same temperature. The pressure remains constant at 1 bar. Determine (a) the rate at which water is condensed, in kg/min, and (b) the heat transfer rate during...

Air at T1 = 32°C, p1 = 1 bar, 50% relative humidity enters an insulated chamber...

Air at T1 = 32°C, p1 = 1 bar, 50% relative humidity enters an insulated chamber operating at steady state with a mass flow rate of 3 kg/min and mixes with a saturated moist air stream entering at T2 = 7°C, p2 = 1 bar. A single mixed stream exits at T3 = 17°C, p3 = 1 bar. Neglect kinetic and potential energy effects A) Determine mass flow rate of the moist air entering at state 2, in kg/min. (Answer...

Part. 1 (2.5 marks): An air mass is at a temperature of 28°C with relative humidity...

Part. 1 (2.5 marks): An air mass is at a temperature of 28°C with relative humidity of 70 percent. Determine: (a) Saturation vapor pressure, (b) Saturation deficit, (c) Actual vapor pressure in mbar and mm Hg, (d) Dewpoint Note: 1 mb = 0.75 mmHg Part. 2 (2.5 marks): Assuming that evaporation for an area is given by E(mm/day) = 0.24(es – e) u Where (es – e) in mb and u in m/s Given that saturation deficit is 7.6 mb...

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 room has a relative humidity of 43% at 75 F = 23.9 C, and a...

A room has a relative humidity of 43% at 75 F = 23.9 C, and a pressure of 0.99 atm. What is the concentration of water in the air in ppm (by mol)?

An air conditioning system is to take in outdoor air at 283K and 30percent relative humidity...

An air conditioning system is to take in outdoor air at 283K and 30percent relative humidity at a steady rate of 45 m3/min and to condition it to 298K and 60% relative humidity. The outdoor air is first heated to 295K in the heating section and then humidified by the injection of hot steam in the humidifying section. Assuming the entire process takes place at a pressure of 100kPa, determine (i) the rate of heat supply in the heating section...

Air from outside (5 deg-C, 50% relative humidity) is heated by an electrical heater to a...

Air from outside (5 deg-C, 50% relative humidity) is heated by an electrical heater to a temperature of 35 deg-C at a mass flow rate of 10 kg/s (dry air). Determine the relative humidity of the conditioned air at the exit