Cooling conditions are an initial condition of 92F and a wet bulb temperature of 75F. The...

Compare the sea level relative humidity, enthalpy, specific volume, wet-bulb temperature, and dew point using (a)...

Compare the sea level relative humidity, enthalpy, specific volume, wet-bulb temperature, and dew point using (a) steam tables and ideal gas mixture relations and (b) the psychrometric chart for the following conditions: (a) 16°C dry-bulb, W = 0.001. (b) 32°C dry-bulb, W = 0.002. (c) 32°c dry-bulb, W = 0.001.

This is problem 7-13 from El-Wakil’s Powerplant Technology book -- a wet-dry cooling tower receives 20x106...

This is problem 7-13 from El-Wakil’s Powerplant Technology book -- a wet-dry cooling tower receives 20x106 lbm/h of condenser cooling water at 110 degF. The water is cooled in the dry section to 90 degF and in the wet section to 70 degF. The outside air is at 1 standard atmosphere, 60 degF, and 40 percent relative humidity. The air leaves both dry and wet sections at 81 degF. Calculate (a) for the dry section the outside cooling air required,...

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...

QUESTION 15 – COOLING TOWERS AND EVAPORATIVE CONDENSERS A cooling tower is a device that cools...

QUESTION 15 – COOLING TOWERS AND EVAPORATIVE CONDENSERS A cooling tower is a device that cools a spray of water by passing it through a stream of air. If 15 m3/s of air is at 35 °C dry-bulb and 24 °C wet-bulb temperature and an atmospheric pressure of 101 kPa enters the tower and the air leaves saturated at 31 °C, (a) to what temperature can this airstream cool a spray of water entering at 38 °C with a flow...

How much moisture per pound of dry air is removed by air entering moist grain at...

How much moisture per pound of dry air is removed by air entering moist grain at 110 degrees F dry bulb temperature and exiting the grain at 90% RH and 68 degrees F wet bulb?

When do we need a hypothetical process path to calculate ΔH of a process? What are...

When do we need a hypothetical process path to calculate ΔH of a process? What are its basic components? Simplifications of energy balance? What are sensible heat effect and latent heat effect? How do we calculate them? What is wet bulb temperature? What is a reference state? Two air streams: one is more humid than the other. Which one will have lower wet bulb T? (the dry). Why? Which parameter is constant throughout an Adiabatic Cooling Process? (the wet bulb...

B1. 15,000 CFM of air is flowing across a cooling coil and being cooled from 91...

B1. 15,000 CFM of air is flowing across a cooling coil and being cooled from 91 degrees F dry bulb and 71 degrees F wet bulb (coil entering condition) to a saturated condition of 54 degrees F (coil leaving condition). a.       What are the sensible, latent and total rates of heat transfer from the air into the cooling fluid? Use the attached psychrometric chart. Submit the chart, showing the process (i.e. show the line the air “follows” to get from...

The air in a building has a dry bulb temperature of 72F and 50% relative humidity....

The air in a building has a dry bulb temperature of 72F and 50% relative humidity. Final dry bulb should be 65F and a relative humidity of 40%. The building is 60’ long, 45’ wide, and has a 12’ ceiling. Find the quantity of water required to raise the relative humidity to 65%

Saturated air at 100 kPa, 30 deg-C is is cooled and dehumidified. If the exit temperature...

Saturated air at 100 kPa, 30 deg-C is is cooled and dehumidified. If the exit temperature is 10 deg-C, and the volume flow rate is 300 m3/min, determine the cooling load (how much heat heat has to be removed in kW, absolute amount please, no negative sign)

You have been asked to evaluate the economic implications of various methods for cooling condenser effluents...

You have been asked to evaluate the economic implications of various methods for cooling condenser effluents from a​ 200-MW steamelectric plant. There are two basic types of cooling​ towers: wet and dry.​ Furthermore, heat may be removed from condenser water by​ (1) forcing​ (mechanically) air through the tower or​ (2) allowing heat transfer to occur by making use of natural draft.​ Consequently, there are four basic cooling tower designs that could be considered. Assuming that the cost of capital to...