Air at 40oCDB & 15%RH is conditioned to 20oCDB & 75%RH first by adiabatic humidifying then...

Room air at 20°C DBT and 60% RH is mixed with outdoor air at 40°C DBT...

Room air at 20°C DBT and 60% RH is mixed with outdoor air at 40°C DBT and 40% RH in the ratio 4:1. The mixture is passed through a cooling coil whose temperature is maintained at 9°C and whose bypass factor is 0.25, Find the following: a) Condition of air entering the coil b) Condition of air leaving the coil c) If 250 m3 /min of air is supplied to the room, find the refrigeration load on the cooling coil

Moist air is heated and humidified by passing it first over a heating coil and then...

Moist air is heated and humidified by passing it first over a heating coil and then adding moisture. The moist air enters the system at 6°C DBT and 4°C WBT at a rate of 100 kg/min. The humidifier injects saturated steam at 108°C. The moist air exits the system at 30°C DBT and 40% RH. Determine the rate of heat addition by heating coil and the rate of mass addition by the humidifier.

The following data is available for the design of air conditioning of a small theatre: Outdoor...

The following data is available for the design of air conditioning of a small theatre: Outdoor design conditions = 34ºC DBT and 70% RH Comfort conditions required = 22ºC DBT and 50% RH Total seating capacity = 350 persons Sensible heat gain per person = 90 W Latent heat gain per person = 30 W Sensible heat due to solar gain and infiltrated air = 46.6 kW Latent heat gain due to infiltrated air = 23.3 kW Fresh air supplied...

The design data for an air-conditioning plant of a restaurant is given below Outdoor design conditions...

The design data for an air-conditioning plant of a restaurant is given below Outdoor design conditions = 35ºC DBT and 24ºC WBT Indoor design conditions = 27ºC DBT and 55% RH Seating capacity of the restaurant = 50 Latent heat gain per person = 44 W Latent heat gain from meals per person = 6 W Sensible heat gain per person =58 W Sensible heat gain from meals per person = 3.5 W Number of service employees = 5 Latent...

An adiabatic gas turbine uses air to produce work. Air expands adiabatically from 600 kPa and...

An adiabatic gas turbine uses air to produce work. Air expands adiabatically from 600 kPa and 287 C to 90 kPa and 67 C. Take specific heats at room temperature (300 K). a) Find the isentropic efficiency of the turbine. b) Find the work produced by the turbine for a mass flow rate of 2.5 kg/s. c) If the mass flow rate of air is again 2.5 kg/s, find the entropy generation under steady conditions.

On a warm summer day, a large mass of air (atmospheric pressure 1.01×105Pa) is heated by...

On a warm summer day, a large mass of air (atmospheric pressure 1.01×105Pa) is heated by the ground to a temperature of 26.0 ∘C and then begins to rise through the cooler surrounding air. 1.Calculate the temperature of the air mass when it has risen to a level at which atmospheric pressure is only 8.60×104 Pa . Assume that air is an ideal gas, with γ=1.40. (This rate of cooling for dry, rising air, corresponding to roughly 1 ∘C per...

A reciprocating compressor takes a charge of air at 1 bar and 200C and compresses it...

A reciprocating compressor takes a charge of air at 1 bar and 200C and compresses it to 5 bar. Assuming that the compression is reversible and has an index, n, of 1.3, find the final temperature and heat per unit mass that must be extracted by a cooling jacket if the compressor is to run at a steady temperature.

- a vapour-compression air-conditioning cycle where the compressor has an isentropic efficiency of 75%. Refrigerant (R12)...

- a vapour-compression air-conditioning cycle where the compressor has an isentropic efficiency of 75%. Refrigerant (R12) is used as the working fluid with a mass now rate of 0.04kg/s. saturated vapour eaters the compressor at 0.5 MPa and leaves to the condenser at 1.2IMPa. The air-conditioner cools down the station to 26°C through an evaporator, and rejects heat to the 34°C ambient through a condenser. (a) Sketch and label the schematic of the air-conditioning cycle and its T-S and P-h...

A two-part compressor operates with steady state conditions. The exit of the first part of the...

A two-part compressor operates with steady state conditions. The exit of the first part of the compressor is also the inlet of the second part of the compressor. In the first part of the compressor, air is compressed from 1.5 bar, 350 K to 5.5 bar with a mass flow rate of 7.2 kg/sec. In the second part of the compressor, air is compressed from 5.5 bar to 9.5 bar with a mass flow rate of 5.8 kg/sec. Each unit...

We have air in the piston that is undergoes 2 process in series. in the first...

We have air in the piston that is undergoes 2 process in series. in the first step. the air is compressed such a way that the process is described a polytropic where PVn = constant . The initial state of air is 100Kpa. 0.04m3/kg. the final specific volume at the end of first process is 0.02m3/kg. n= 1.3 in the second step. the air is subject to constant pressure process where the final specific volume is equal to the initial...