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6.1 Basic concepts 
Humidification is the process of constituting the water-vapor content in a gas. The reverse of the operation is called dehumidification. Both are important for many industrial operations such as air conditioning, gas cooling, controlled drying of wet solids, comfort heating etc. When a gas is brought in contact with a pure liquid in which it is essentially insoluble, interphase mass and heat transfer takes place [1-3].

Four major applications of humidification operations are as follows:
a) Humidification of gases for controlled drying of wet solids
b) Dehumidification and cooling of gas in air conditioning
c) Gas cooling with the help of water
d) Cooling of liquid (e.g. water) before reuse

6.1.1 Terminologies and definitions 
Three most important quantities, namely, ‘temperature’, ‘humidity’ and ‘enthalpy’, are essential terminologies in dealing humidification.
1) Dry-bulb temperature: It is true temperature of air measured (or, any noncondensable and condensable mixture) by a thermometer whose bulb is dry.

2) Wet-bulb temperature: It is the steady-state temperature attained by a small amount of evaporating water in a manner such that the sensible heat transferred from the air to the liquid is equal to the latent heat required for evaporation.

3) Relative humidity: It is the ratio of partial pressure of water vapor (pA) in air at a given temperature to the vapor pressure of water ( p0A ) at the same temperature.
Basic Concepts of Humidification And Air Conditioning | Mass Transfer - Chemical Engineering                    (6.1)
“Relative humidity does not ‘explicitly’ give the moisture content of a gas, but gives the ‘degree of saturation’ of the gas at a given temperature.

4) Absolute humidity (simply humidity): It is the direct measurement of moisture content in a gas. The mass of water vapor per unit mass of dry gas is called absolute humidity, Basic Concepts of Humidification And Air Conditioning | Mass Transfer - Chemical Engineering
Basic Concepts of Humidification And Air Conditioning | Mass Transfer - Chemical Engineering                           (6.2)
It is occasionally called ‘Grosvenor humidity’ after the name of the inventor.

5) Percent humidity or percent saturation: It is the relation between absolute humidity to that of saturation humidity at the same temperature and pressure.
Basic Concepts of Humidification And Air Conditioning | Mass Transfer - Chemical Engineering                     (6.3)
where, Basic Concepts of Humidification And Air Conditioning | Mass Transfer - Chemical Engineering is absolute humidity of sample of air and Basic Concepts of Humidification And Air Conditioning | Mass Transfer - Chemical Engineering is humidity at same temperature and pressure if saturated with water vapor.
Basic Concepts of Humidification And Air Conditioning | Mass Transfer - Chemical Engineering                           (6.4)
and vapor pressure of water can be calculated by Antoine Equation:  Basic Concepts of Humidification And Air Conditioning | Mass Transfer - Chemical Engineeringwhere, pressure is in bar and temperature is in K.

6) Dew point: Dew point is a temperature at which a vapor-gas mixture must be cooled (at constant humidity) to become saturated. The dew point of a saturated gas equals the gas temperature. If a vapor-gas mixture is gradually cooled at a constant pressure, the temperature at which it just becomes saturated is also called its dew point. 

7) Humid volume: The humid volume, Basic Concepts of Humidification And Air Conditioning | Mass Transfer - Chemical Engineering , is defined as the volume of unit mass of dry air with accompanying water vapor at a given temperature and pressure.

Basic Concepts of Humidification And Air Conditioning | Mass Transfer - Chemical Engineering              (6.5)

assuming ideal gas behavior. TG is gas temperature in ºC.

8) Humid heat: The humid heat, cH, is the heat energy required to raise the temperature of unit mass of dry air with the accompanying water vapor by one
(1) degree. Basic Concepts of Humidification And Air Conditioning | Mass Transfer - Chemical Engineering first part of right hand side is heat capacity of dry air in kJ/kg.K and second part is heat capacity of water vapor in kJ/kg.K.

9) Enthalpy: The enthalpy of a vapor-gas mixture is the sum of the relative enthalpies of gas and vapor content.
Basic Concepts of Humidification And Air Conditioning | Mass Transfer - Chemical Engineering    (6.6)
where λ0 is latent heat of vaporization of water, 2500 kJ/Kg

The document Basic Concepts of Humidification And Air Conditioning | Mass Transfer - Chemical Engineering is a part of the Chemical Engineering Course Mass Transfer.
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FAQs on Basic Concepts of Humidification And Air Conditioning - Mass Transfer - Chemical Engineering

1. What is the purpose of humidification in air conditioning?
Ans. Humidification in air conditioning is the process of adding moisture to the air to increase the humidity level. It is necessary to maintain a comfortable indoor environment, as low humidity can cause dryness of the skin, throat, and eyes. Additionally, proper humidity levels help to reduce static electricity, prevent damage to furniture and wooden floors, and improve the efficiency of some industrial processes.
2. How does humidification work in air conditioning systems?
Ans. Humidification in air conditioning systems typically involves using devices such as humidifiers or evaporative pads. These devices introduce water vapor into the air stream, either by evaporating water or by creating a fine mist. The moisture is then distributed throughout the building by the air conditioning system, increasing the humidity level in the desired areas.
3. What are the different types of humidification methods used in air conditioning?
Ans. There are several types of humidification methods used in air conditioning systems. These include steam humidification, evaporative humidification, ultrasonic humidification, and misting systems. Steam humidification involves boiling water to produce steam, which is then added to the air. Evaporative humidification uses pads or filters that absorb water and allow it to evaporate into the air. Ultrasonic humidification uses ultrasonic waves to create a fine mist, while misting systems spray a mist of water into the air.
4. Is it necessary to humidify the air in all types of air conditioning systems?
Ans. No, it is not necessary to humidify the air in all types of air conditioning systems. The need for humidification depends on factors such as the climate, the required comfort level, and the specific application. In regions with naturally high humidity, humidification may not be required. However, in dry climates or in environments where precise humidity control is necessary (e.g., museums, data centers), humidification may be essential to maintain optimal conditions.
5. Can air conditioning systems also dehumidify the air?
Ans. Yes, air conditioning systems can also dehumidify the air. Dehumidification is the process of removing moisture from the air to decrease the humidity level. Air conditioning systems achieve this by cooling the air below its dew point temperature, causing the moisture to condense and be removed. Dehumidification is particularly important in hot and humid climates, as it helps to reduce discomfort, prevent mold growth, and improve indoor air quality.
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