MODULE 6 HUMIDIFICATION AND AIR CONDITIONING

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MODULE 6 HUMIDIFICATION AND AIR CONDITIONING LECTURE NO. 3 6.3 Humidification and dehumidification operations and design calculations Humidification operations: In this operation, water transfers from liquid phase to gas phase. Hence, moisture content of air increases. Air with particular moisture content is useful for drying of a solid under controlled condition. Dehumidification operations: It is the reverse phenomena of humidification. A portion of water vapor from moist warm air is condensed by contacting cold water in air conditioning. 6.4 Cooling tower principle and operation A cooling tower is a special type of heat exchanger in which the warm water and the air are brought in direct contact for evaporative cooling. It provides a very good contact of air and water in terms of the contact area and mass transfer coefficient of water vapor while keeping air pressure drop low. Enthalpy of air is lower than enthalpy of water. Sensible heat and latent heat transfer take place from water drop to surrounding air. Schematic of heat transfer from water drop to surrounding air is presented in Figure 6.3. Joint initiative of IITs and IISc Funded by MHRD Page 1 of 5

Interfacial film Water drop at temperature T w Air temperature at T w Figure 6.3: Schematic of heat transfer from water drop to surrounding air. Thus, cooling is accomplished by sensible heat transfer from water to air and evaporation of a small portion of water. A generalized cooling tower system is shown in Figure 6.4. The hot water which is coming from heat exchanger is sprayed at the top of the cooling tower. Air enters through the louvers at the two opposite walls of the cooling tower. During cooling process of water, around 2% water is evaporated. Make water is used to compensate the water loss due to evaporation. Blowdown is there to drain a part of water containing solid deposit. The exit cold water from the cooling tower is used in the heat exchanger or other unit operation. Joint initiative of IITs and IISc Funded by MHRD Page 2 of 5

Water cooling tower Humid air Hot water Air Air Heat exchanger Make-up water Blowdown Cold water Pump Figure 6.4: Generalized cooling tower system. Factors govern the operation of cooling tower i. The dry-bulb and wet-bulb temperatures of air ii. Temperature of warm water iii. The efficiency of contact between air and water in terms of volumetric mass transfer coefficient ( k y / a ) iv. Contact time between air and water v. The uniformity of the distribution of the phases within the tower vi. Air pressure drop vii. Desired temperature of cooled water Joint initiative of IITs and IISc Funded by MHRD Page 3 of 5

6.5 Types of equipment Classification of Cooling Towers Based on air draft Based on air flow pattern Atmospheric Natural draft Mechanical draft Cross-flow Counter-flow Induced draft Forced draft (A) Atmospheric Towers It is a big rectangular chamber with two opposite louvered walls. Tower is packed with a suitable tower fill. Atmospheric air enters the tower through louvers driven by its own velocity. Direction and velocity of wind greatly influence its performance. Figure 6.5 shows the schematic of the atmospheric cooling tower. Hot air out Hot water in Louvers Cold water out Louvers Figure 6.5: Schematic of atmospheric cooling tower. Joint initiative of IITs and IISc Funded by MHRD Page 4 of 5

(B) Natural Draft Towers A natural draft cooling tower has a large reinforced concrete shell of hyperbolic shape (also called hyperbolic tower ). Natural flow of air occurs through the tower; hence it is called natural draft (refer Figure 6.6). Factors responsible for creating natural draft (a) A rise in temperature and humidity of air in the column reduces its density (b) Wind velocity at the tower bottom Fan is used to enhance the air flow rate in fan assisted natural draft tower. The typical diameter of tower is 150 m and capacity is 5,00,000 gallon/minute. Hot air out Concrete shell wall Drift eliminator Packing material Hot water in Cold water out Figure 6.6: Schematic of natural draft tower. Why hyperbolic shape? (i) More packing materials can be placed at the bottom (ii) The entering air gets smoothly directed towards the centre (iii) Greater structural strength and stability Joint initiative of IITs and IISc Funded by MHRD Page 5 of 5

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