Department of Mechanical Engineering ME 322 – Mechanical Engineering Thermodynamics Lecture 35 Analysis of Air Conditioning Processes.

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Presentation transcript:

Department of Mechanical Engineering ME 322 – Mechanical Engineering Thermodynamics Lecture 35 Analysis of Air Conditioning Processes

The Five HVAC Processes Heating –With and without humidification Adiabatic humidification Cooling –With and without dehumidification Adiabatic mixing of moist air streams Evaporative cooling 2

Heating Without Humidification 3 Constant humidity ratio Relative humidity decreases Outlet relative humidity may be too dry to be comfortable

Heating with Humidification 4

Adiabatic Humidification 5 The location of state 2 (2a, 2b, or 2c) depends on the state of the water being injected for humidification

Cooling Without Dehumidification 6 This process is not very common in HVAC systems. Often, the surface of the heat exchanger is below the dew point which causes water to condense

Cooling With Dehumidification 7 If T water is not given, it is common to assume that it is equal to T 2

Adiabatic Mixing are on a straight line!

Evaporative Cooling 9 This is the adiabatic humidification process when the water used for humidification is colder than T 1 This system works very well in hot, dry climates. Notice that there can be a significant increase in the humidity levels (both relative humidity and humidity ratio).

Department of Mechanical Engineering ME 322 – Mechanical Engineering Thermodynamics Example Combined Cooling and Heating Processes

Example 11 Given: In a combined cooling/heating system, moist air enters the cooling section at 90°F,  = 50% at a volumetric flow rate of 5000 cfm. Saturated, moist air and liquid condensate leave the cooling section at a temperature that is 15 degrees below the dew point of the entering moist air. After leaving the cooling section, the saturated, moist air enters the heating section. After passing through the heater, the moist air leaves the heating section at 68°F. The pressure throughout the system can be assumed to be constant at normal sea-level pressure ( inHg – consistent with the psychrometric chart). Find: (a)The volumetric flow rate of the condensate (gpm) (b)The required refrigeration capacity of the cooling section (tons) (c)The relative humidity of the air leaving the heating section (d)The heat transfer rate required in the heating section (Btu/hr)

Example 12 A sketch of the system and a psychrometric chart showing the processes is shown below.

Properties from the Chart and Tables 13

Example 14 Cooling section analysis …

Example 15 The condensate flow is determined by conservation of mass around the cooling section,

Example 16 The relative humidity leaving the heating section can be read from the psychrometric chart, Heating section analysis …

Example 17 EES Solution (Key Variables) These are a bit different due to reading the psychrometric chart