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Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE) PDF Download

REMOVAL OF VOCs BY AERATION IN COMPLETE STIRRED TANK REACTOR (CSTR) [1]

[A] VOC removal by surface aeration in CSTR 

A mass balance for VOC in CSTR having surface aeration is given as: 

Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)

Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE) (3.4.1) 

Where, V is the volume of the CSTR (m3), dC/dt is the rate of change of VOC in the CSTR, Q is the liquid flow rate in and out of the reactor (m3/s), Cin is the VOC concentration in influent to the CSTR (µg/m3) and C is the VOC concentration in effluent from the CSTR (µg/m3). RVOC is the rate of VOC mass transfer (µg/m3s) and is given as: 

Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE) (3.4.2) 

Where, CS is the saturation concentration of VOC in the liquid (µg/m3) and (kLa)VOC is overall mass transfer coefficient (s-1) and it is determined using the oxygen mass transfer coefficient, (kLa)O2 using the following equation:  

Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)

(3.4.3) 
 Where, DVOC and DO2 are the diffusion coefficients of VOC and O2 in water, respectively (cm2/s) and n is an empirical constant.  Assuming steady state condition, V/Q=τ and CS=0, equation 1 becomes: 

Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)(3.4.4) 

Fraction of VOC removed=Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)(3.4.5) 

[B] VOC removal by diffused aeration in CSTR

At steady state, mass balance on VOC in diffused aeration system in CSTR is given as:  

Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)

Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE) (3.4.6)  
 Where, Qg is the diffused gas flow rate inside the CSTR (m3/s), Cg,e is the VOC concentration in exit gas (µg/m3). Bielefeldt and Stensel [2] gave the following relationship for Cg,e with C: 

Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)(3.4.7) 
 Where, Hu=(H/RT) is the dimensionless value of Henry’s constant and f is VOC saturation parameter. After putting the value of Cg,e and rearranging, we get 

Fraction of V OC removed =Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)(3.4.8)

 

Problem 3.4.1: Wastewater flow rate in a complete-mix activated sludge reactor having volume=2000 m3 and depth=8 m is 6000 m3/d. If the influent concentration of benzene is 200 µg/m3 and that the air flow rate (at standard condition) is 100 m3/min, determine the fraction of benzene that can be stripped off if the complete mix activated sludge reactor is equipped with 

(a) surface aeration system  
 (b) diffused-air aeration system

Also given that: Oxygen diffusivity=2.11 × 10-5 cm2/s, benzene diffusivity=0.96 × 10-5 cm2/s, temperature=20 oC, n=1, Henry’s constant=5.49×10-3 m3atm/mol.

Solution: First the value of (kLa)VOC is determined.

Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)
Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)
Case a: Surface aeration system  

t= ( V Q) = ( 2000 6000) = 0.333 d = 7.992 h

Fraction of VOC removed=Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)


Fraction of VOC removed =  1- 1 + 2.8208 x 7.992]-1 =0.9575 

Case b: Diffused aeration system  

Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)

We need gas flow rate at the actual condition i.e. at half of the tank depth (=4 m) and at 20 oC.  We know:  

Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)
Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)
Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)
Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)

Q=6000 m3/d = 4.1667 m3/min 
Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)

Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)

 

PACKED TOWER AERATION 

In packed tower aeration (PTA), wastewater to be treated in sprayed on the top of a tower. The tower is about 3-10 m in height and is packed with various types of packing which provide high surface area to volume ratio. Air is pumped simultaneously counter-currently through the packing from the bottom and removes the VOC from wastewater which itself in trickling over the packing. Air along with the VOC gets removed from the top while treated water is collected at the bottom. 

Design of Packed-tower aeration unit 

The height of the tower can be calculated using the following equation: 

Z = HTU × NTU           (3.4.8) 
 Where, HTU is the height of transfer unit and NTU is the number of transfer units. HTU represents the rate of mass transfer for a particular type of packing. It determines the efficiency of mass transfer from liquid to gas phase. It is related to liquid loading rate and is given by: 

Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)

(3.4.9) 
 Where, L is the ratio of superficial molar to mass liquid flow, KLa is the overall mass transfer coefficient; Co is the molar density of VOC in water (kmol/m3) 

Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE)

(3.4.10) 
 Where, R=HuG/L is called the stripping factor, Hu is Henrys’ constant dimensionless, G=(QG/A) is the superfacial gas flow rate (kmol/h m2), A is the crosssectional area of packed bed (m2) and QG is the gas flow rate (kmol/h).

The document Pre Treatment & Physical Treatment: Aeration - 2 | Environmental Engineering - Civil Engineering (CE) is a part of the Civil Engineering (CE) Course Environmental Engineering.
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FAQs on Pre Treatment & Physical Treatment: Aeration - 2 - Environmental Engineering - Civil Engineering (CE)

1. What is aeration in the context of pre-treatment and physical treatment?
Ans. Aeration is a process used in pre-treatment and physical treatment of water and wastewater. It involves the exposure of water to air, allowing the transfer of oxygen from the air to the water. This process helps to remove volatile compounds, control odors, and enhance the biological treatment of organic matter.
2. How does aeration help in the pre-treatment and physical treatment of water?
Ans. Aeration plays a crucial role in pre-treatment and physical treatment of water. It helps in the oxidation of contaminants, such as iron and manganese, making them easier to remove through filtration. Aeration also promotes the growth of aerobic bacteria, which aids in the breakdown of organic matter, reducing its concentration in the water.
3. What are the different methods of aeration used in pre-treatment and physical treatment?
Ans. There are various methods of aeration used in pre-treatment and physical treatment, including surface aeration, diffused aeration, mechanical aeration, and cascading aeration. Surface aeration involves the introduction of air into the water through mechanical means, while diffused aeration uses air diffusers placed at the bottom of the water to release fine bubbles. Mechanical aeration utilizes mechanical devices to agitate the water and introduce air, and cascading aeration involves the water flowing over inclined planes to increase contact with air.
4. Can aeration be used to remove dissolved gases from water during pre-treatment and physical treatment?
Ans. Yes, aeration can be used to remove dissolved gases from water during pre-treatment and physical treatment. When water is exposed to air, gases such as carbon dioxide and hydrogen sulfide can be released into the atmosphere, reducing their concentration in the water. This helps to improve the water quality and minimize the presence of undesirable gases.
5. What are the benefits of aeration in pre-treatment and physical treatment processes?
Ans. Aeration offers several benefits in pre-treatment and physical treatment processes. It improves the taste and odor of water by removing volatile compounds. Aeration also promotes the growth of beneficial bacteria that aid in the breakdown of organic matter, enhancing the overall treatment efficiency. Additionally, aeration helps to reduce the concentration of dissolved gases, improves the effectiveness of subsequent treatment steps, and prevents the formation of biofilms and algae in water systems.
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