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ABSORPTION 

Absorption is a process where transfer of a gaseous component from gas phase to liquid phase takes place. More specifically in air pollution control, absorption involves the removal of objectionable gaseous contaminant from a process stream by dissolving them in liquid. Common terms used in absorption process are as follows: 

1. Absorbent: the liquid, usually water, into which contaminant is absorbed  

2. Absorbate or solute : The gaseous contaminant being absorbed, such as SO2, H2S, etc.  

3. Carrier gas: the inert portion of gas stream, usually air, from which the contaminant is to be removed . 

4. Interface: the area where the gas phase and the absorbent contact each other.

5. Solubility: the capability of the gas to be dissolved in a liquid. 

Absorption equipment used to remove gaseous contaminants are referred to as absorber or wet scrubber. Wet scrubbers usually cannot be operated to optimize simultaneous removal of both gases and particulate matter. In designing absorber from gaseous emissions, optimum mass transfer can be accomplished by: 

1. Providing a large interfacial contact area. 

2. Providing good mixing between gas and liquid phases. 

3. Allowing sufficient residence or contact time between the phases.

4. Ensuring a high degree of solubility of the contaminant in the absorbent . 


MECHANISM OF ABSORPTION 

The gaseous contaminant are removed in absorption process by passing (contacting) a contaminated laden gas through a liquid. The following three steps occur during this process: 

Step1: The pollutant diffuses from bulk area of the gas phases to the gas liquid interface. 

Step2: gaseous pollutant transfer across the interface to the liquid phase. This second step is extremely rapid. 

Step3: The pollutant diffuses bulk area of the liquid, making room for additional gas molecule to absorb. 

The rate of mass transfer (absorption) is dependent on the diffusion rate in either the gas phase or liquid phase. The diffusion rate of gaseous pollutant molecule through a gas is always faster than its diffusion rate through the liquid because molecules in the gas are further apart than are molecules in the liquid. However the mass transfer rate depends primarily upon the solubility of the pollutant in the liquid . 


SOLUBILITY 

Solubility of contaminant affects the amount of contaminant that can be adsorbed. It is a function of both the temperature and, to a lesser extent pressure of a system. As we increase the temperature of the system the amount of gas that can be absorbed by liquid decreases, while as with increasing the pressure generally absorption increases. The solubility data are analyzed by equilibrium diagram [2]. 

Under certain conditions, Henry’s law may also be used to express equilibrium solubility of gas liquid system, henry’s is expresses as  
 p* = Hx           (2.8.1) 

Where:  
 p*=partial pressure of solute at equilibrium  
 x=mole fraction of solute in the liquid
  H=Henry’s law constant, pressure/mole fraction Henry’s law can be rearranged as  
 y* = mx
 Where:  
 y*=mole fraction in gas phase in equilibrium with liquid.  
 H=Henry’s law constant, mole fraction in vapour phase/mole fraction in liquid phase 

Restriction on Henry’s law:  

1. Henry’s law can be used to predict solubility only when the equilibrium line is straight.
 2. Henry’s law does not hold good for gases that react or dissociate upon dissolution. 


ABSORPTION UNIT 

SPRAY TOWER 

Spray towers are useful for large volume handling with relatively low pressure drop and high efficiency. In general smaller the droplet size the greater the turbulence, the more chance for absorption of the gas. Absorbing liquid usually water is sprayed through the contaminated gas and the absorbent contaminant solution falls downwards for removal while clean gas exits through an outlet valve in the top of unit. Moisture eliminator reduces the amount of moisture in the gases being released. Spray tower has less gas liquid interfacial area so they are less effective in removal of gaseous contaminant.

Gaseous Emission Control by Absorption | Environmental Engineering - Civil Engineering (CE)

Figure 2.8.1. Spray Tower  
 

PLATE OR TRAY TOWER 

This type of tray contains horizontal trays or plate that provides large gas liquid interfacial areas. The polluted air is introduced from one side of the bottom of the column, rise up through the opening in each tray, and the rising gas prevents the liquid from draining through the opening. Due to repeated contact of gas and liquid the contaminant are removed and the clean air emerges from the top. In bubble cap tray column, the contaminated gas moves upward until they strike the cap, at which point they are diverted downward and discharged as small bubbles from slots at the bottom of the caps [3]. Since gas continues flow in upward direction so repeated interaction takes place and contaminated gas is removed and clean gas emerged from the top. The contaminantladen liquid flows to the bottom and is drawn off.  

Gaseous Emission Control by Absorption | Environmental Engineering - Civil Engineering (CE)
Gaseous Emission Control by Absorption | Environmental Engineering - Civil Engineering (CE)

Figure 2.8.2. Schematic diagram of bubble cap tray tower  

PACKED TOWER: In packed tower the contact time between vapour and liquid is increased by introducing packing. The packing material has a large surface to volume ratio and a large void ratio that offers minimum resistance to gas flow. Generally packed tower are operated counter currently, with gas entering at the bottom of tower and liquid entering from the top. Liquid flows over the surface of the packing in a thin film causing continuous contact with the gases. 

Packed towers are highly efficient but they become easily clogged when gas with high particulate loads are introduced. 

Gaseous Emission Control by Absorption | Environmental Engineering - Civil Engineering (CE)

Figure 2.8.3. Counter current flow packed tower 

The document Gaseous Emission Control by Absorption | Environmental Engineering - Civil Engineering (CE) is a part of the Civil Engineering (CE) Course Environmental Engineering.
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FAQs on Gaseous Emission Control by Absorption - Environmental Engineering - Civil Engineering (CE)

1. What is gaseous emission control by absorption?
Ans. Gaseous emission control by absorption is a process that involves removing harmful gases from industrial exhaust gases by dissolving them in a liquid absorbent. This is done to reduce the emission of pollutants into the atmosphere.
2. How does absorption help in controlling gaseous emissions?
Ans. Absorption is an effective method for controlling gaseous emissions because it allows for the removal of pollutants from exhaust gases. The liquid absorbent used in the process can effectively capture and dissolve harmful gases, thereby reducing their release into the environment.
3. What are some common absorbents used in gaseous emission control?
Ans. There are several common absorbents used in gaseous emission control, including water, activated carbon, caustic solutions (such as sodium hydroxide), and amine solutions. These absorbents have different properties and are selected based on the specific pollutants and industrial processes involved.
4. How is gaseous emission control by absorption different from other control methods?
Ans. Gaseous emission control by absorption differs from other control methods, such as filtration or catalytic converters, in that it involves the dissolution of gases into a liquid absorbent. This method is particularly effective for capturing and removing gases that are not easily filtered or converted through other means.
5. What are the advantages of gaseous emission control by absorption?
Ans. Gaseous emission control by absorption offers several advantages. It is a versatile method that can effectively remove a wide range of pollutants. It is also cost-effective and can be easily integrated into existing industrial processes. Additionally, it can be combined with other control methods for even greater efficiency in reducing gaseous emissions.
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