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Coal Carbonization and Coke Oven Plant 

Coal carbonization is used for processing of coal to produce coke using metallurgical grade coal. Coal carbonization involves heating of coal in the absence of air. Coke making process is multistep complex process and variety of solid liquids and gaseous products are produced  which contain many valuable products. Various products from coal carbonization in addition to coke are coke oven gases. coal tar, light oil,  and aqueous  solution of ammonia and ammonia salt. Coke oven gases are about 310-340 cum per tone of dry coal which contains gaseous products, coal tar vapours, light oil and water. With the development of steel industry there has been continuous development in coke oven plant since latter half of nineteenth century. to improve the process conditions, recovery of chemicals  and environmental pollution control strategies  and energy consumption measures

Carbonization can be carried out at low temperature or high temperature. Low temperature carbonization is used to produce liquid fuels while high temperature carbonization is used to produce gaseous products .

 Low temperature carbonization (450-750oC):  In low temperature carbonization quantity of gaseous product is less while liquid products are large.

High temperature carbonization (above 900oC): In high temperature carbonization, the yield of gaseous product is more than liquid products with production of tar relatively low.

The potential availability of chemicals from high temperature carbonization (above 900oC) and low temperature carbonization (450-750oC) is given in Table M-II 2.1 and Table M-II 2.2 respectively. 

Coke Oven Plant 

Due to the development of iron and steel industry coke oven plant has become an integral part of iron and steel industry. Due to increasing demand of iron and steel, there has been a considerable increase in the coke oven capacity which resulted increase output of coal chemicals.

Two types of coke manufacturing technologies use are:

  • Coke making through by product recovery
  • Coke making through non-recovery/ heat recovery

 In India, building of coke oven batteries was initiated in the beginning of the ninth century, now about 3000 ovens are in operation/ construction in the coke oven plant. By the year 2011-12 ,the world coking coal requirement will be about 433 million metric tones in which India’s requirement is estimated to about 54 million tones. By product from coal gasification plant includes coke, coal tar, sulphur, ammonia. Coal tar distillation produces tar, benzol, cresol, phenol, creosote.

 Coking Coals: Blast furnace requires coke of uniform size, high mechanical strength, and porosity with minimum volatile matter and minimum ash. Coking coal may be dived I on the basis of their coking properties: prime coking coal, medium coking coal, semi coking coal. The prime coking coal produce strong metallurgical coke while coals of other groups yield hard coke only the concentration of moisture ash, sulphur and sometime phosphorous and ash fusion temperature are important in determining the grade of coking coal since they influence the quality of coke produced. Low moisture, ash, sulphur and phosphorous content in the coal are desirable for production of good quality coke. The desired analysis of typical coal charge to coke oven is.

Ash content       : 16% ±0.5%  

Moisture            :    6-7%

Volatile matter  :   22-25%

Fixed carbon      :  58-60%%

Sulphur               :  0.56%

Phosphorous        :    0.09%

Some of the other factors affecting quality of  coke are rank of coal, particle size, bulk density, weathering of coal, coking temperature and coking rate, soaking time, quenching practice. 

Coke Oven Plant: Various sections in coke oven plant are given in Table M-II 2.1.

Table M-II 2.1 Various section in coke oven plant are 

Coal Handling Plant and

Coal Preparation Section

To prepare coal blend suitable for carbonization. various steps

involved are unloading and storage of coal, blending of coal of

various grade, coal crushing and transport to coal storage tower

Partial briquetting

To prepare briquette of coal to charge along with coal into the

coke oven.

Coke oven Batteries

To convert coal into coke by carbonizing coal in absence of air.

The process steps involved are coal charging and coal

carbonisation

Coke sorting Plant

Crushing and sorting of coke to suitable size for use in blast

furnace. The steps involved are coke pushing, coke quenching,

coke crushing/ screening

Coke oven gas recovery

Collection and cleaning of coke oven gas and recovery of by

products. . This involves gas cooling, tar recovery,

desulphurization of coke oven gas , recovery of ammonia,

recovery of light oil

Ammonia recovery and

Ammonium             Sulphate

Recovery of ammonia and neutralization with sulphuric acid or

nitric acid in case of ammonium nitrate/ calcium ammonium

Production.

nitrate.

Waste water treatment

Treatment of phenolic waste water

 
 Coal Handling Plant and Coal Preparation Section

Coal needs to be stored at various stages of the preparation process, and conveyed around the coal preparation section. Crushing and screening are the important part of coal handling plant. Crushing reduces the overall size of the coal so that it can be more easily processed and handled. Screens are used to ranges the size of coal. Screens can be static, or mechanically vibrated. Dewatering screens are used to remove water from the product.

Partial Briquetting: Briquettes of low grade coal are prepared using a binder (pitch/ pitch+tar) upto 2 to 3.0% of charge. This partial briquette of coal is charged with coal into coke oven which significantly improve the quality of coke.

Coke oven Batteries: Coke oven plant consists of Coke oven batteries containing number of oven (around 65 ovens in each battery). The coal is charged to the coke oven through charging holes. The coal is then carbonized for 17-18 hours, during which volatile matter of coal distills out as coke oven gas and is sent to the recovery section for recovery of valuable chemicals. The ovens are maintained under positive pressure by maintaining high hydraulic main pressure of 7 mm water column in batteries. The coking is complete when the central temperature in the oven is around 950-1000 oC. At this point the oven is isolated from hydraulic mains and after proper venting of residual gases, the doors are opened for coke pushing. At the end of coking period the coke mass has a high volume shrinkage which leads to detachment of mass from the walls ensuring easy pushing. The coke is then quenched and transferred to coke sorting plant. The control of oven pressure is quite important because lower pressure leads to air entry while higher pressure leads to excessive gassing, leakage of doors, stand pipe etc. Proper leveling of coal is important and care is taken so that free board space above (300 mm) is maintained to avoid choking.

Coke oven plants are integral part of a steel plant to produce coke, which is used as fuel in the blast furnace. Coke oven plant produces important by product coal chemical tar, ammonia, crude benzoyl which is fractionated to produce aromatics-benzene toluene, xylene. Typical flow diagram of coke oven plant is shown in Figure M-II 2.1. The Coke Oven Plant consists of following sections: 

Coal Carbonization and Coke Oven Plant | Chemical Technology - Chemical Engineering

Coal Carbonization and Coke Oven Plant | Chemical Technology - Chemical Engineering

 

Figure M-II 2.1: Flow Diagram of Coke Oven Plant 

Coke Oven Batteries

Coke oven are used to convert coal into coke by carbonizing coal in absence of air and there by distilling the volatile matter out of coal. Coke is taken as product which is use as fuel and as a reducing agent in smelting iron ore in a blast furnace and coke oven gas as byproduct is treated for recovery of coal chemicals. The coke oven temperature is keep as high as 2000 oC. Crushing and screening of coke is done to obtain suitable size for use in blast furnace. Typical analysis of blast furnace coke is given in Table M-II 2.2.

Table M-II 2.2: Typical Analysis of Blast Furnace Coke  

Sr. No.

Parameter

Value in percentage

1

Moisture

3.5-6%

2

Ash

15.5-17.0%

3

V.M.

<1.00

4

Sulphur

0.65%

5

Fixed carbon

79-81%

 Coke Oven Gas plant

Coke oven gas produce during the process of coking of coal are used in coke oven gas plant for the recovery of various valuable chemicals like tar, ammonia and benzoyl. Typical analysis of coke oven gas is mention in Table M-II 2.3. These chemicals are recovered and gas is cleaned this comprises following sections:

By-product from Coke Oven Plant 

The high temperature carbonization is used for production of coke for use in blast furnace. Various by-products obtained from coal carbonization are crude tar, crude benzoyl, and ammonia. Typical yield of some important byproduct are: Tar 3.2%, ammonium sulphate 1.1%, crude benzoyl 0.9%.

Gas Condensation section: Coke oven gas containing water vapours and chemical products of coking (tar, ammonia, benzoyl etc. at temperature about 750-800oC from the coke oven plant is cooled to temperature of 80-82oC. During gas cooling 65-70% of the tar is condensed. Further cooling of gas, the water vapors and the remaining part of the tar get condensed along with some ammonia and other chemicals. 

Table M-II 2.3: Typical Analysis of Coke Oven Gas 

Methane

26.0%

Hydrogen

56.5%

Hydrocarbons

2.3%

Carbon monoxide

8.5%

Carbon dioxide

3.0%

Oxygen

0.4%

Nitrogen

3.3%

Density

0.4848 kg/m3

Calorific value

4300 kcal/m3

Ammonium Sulphate Plant 

The gases from exhaust goes to ESP where tar is separated and the tar free gases goes bubbled through dil. solution of sulphuric acid in saturators. Ammonia is absorbed by sulphuric acid and ammonium sulphate is formed. One tonne of coal yields about 0.3 tonne tar and 5-8 gm ammonia per m3 of gas.

Benzoyl Recovery Section 

The gases from saturator goes to series of coolers and then to benzoyl scrubbers where benzoyl is scrubbed with wash oil. Benzoyl crude oil goes to benzoyl recovery section where benzoyl is removed and the wash oil after treatment is sent to the scrubbers. Crude Benzoyl thus recovered goes to benzoyl rectification plant. Light crude benzoyl contains low boiling sulphur compound, BTX, solvents, still bottom residue. Benzoyl after washing and neutralization with caustic soda is send to benzoyl column for fractionating into different fraction. Various products of coke oven and after distillation of  benzoyl are given in Table M-II 2.4.

Table M-II 2.4: Various products of Coke Oven and Distillation of Benzoyl 

 

 

Coke (76%)

76%

Tar Productions (3.3%)

(pitch, PCM, anthracene oil, naphthalene, Road tar,

cresolate, sodium phenolate, dephenolised oil, other

oil)

Ammonia (0.28%)

Used for production of ammonium sulphate

Crude benzoyl (0.85%)

Benzene Toluene, Xylene, Still bottom, Solvent oils

Coke oven gas

For industrial use as fuel

Moisture and other losses

5.04%

 Coal Tar Distillation 

Coal tar is produced as result of high temperature carbonization and is a viscous dark brown product with characteristic odour and consists of about 300 different products. some of the major constituents are the aromatics and heterocyclic compounds; benzene, toluene, xylene, phenol cresol, naphthalene, anthracene, phenanthrene, pyridine, carbazole, coumarone etc.. Typical composition of coal tar is given in Table M-II 2.5.

The tar distillation  unit consists of:

  • Distillation section
  • Fractional crystallization and washing section
  • Combustible mixture preparation section
  • Phenol rectification section
  • dolomite tar preparation unit
  • Extra hard pitch preparation 

Tar containing around 5% moisture is first dehydrated before distillation. The dehydrated tar is heated to 375-400oC using superheated steam to drive out the flashed vapour and the residue is taken as pitch. The oil vapour is sent to anthracite column for anthracite recovery while the vapour is sent to other column for recovery of various fraction light oil, phenol, naphthalene and heavy oil fraction. Naphthalene fraction is sent to crystalliser to separate naphthalene. Phenol is recovered from various fractions by treating with a sodium hydroxide to form sodium phenolate which is reacted with CO2 to release phenol. Pyridine is recovered by washing different fraction with sulphuric acid. 

Table M-II 2.5: Typical Component of Coal Tar  

Constituents

Content,%

Naphthalene

5-10

Phenanthrene

4-6

Carb azole

1-2

Anthracene

0.5-1.5

Phenol

0.2-0.5

Crezol

0.6-1.2

Pyridine Compounds

0.5-1.5

 
Cleaner Technologies in Coke Oven Plant: Coke oven plants are one of the highly polluting industries. Continuous development has been there to reduce the pollution load and energy consumption. Some of the cleaner technology are modified wet quenching, coke dry quenching, coal moisture control,, high pressure ammonia aspiration system, modern leak proof doors, advance technologies for desulphurization of coke oven plant. 
The document Coal Carbonization and Coke Oven Plant | Chemical Technology - Chemical Engineering is a part of the Chemical Engineering Course Chemical Technology.
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FAQs on Coal Carbonization and Coke Oven Plant - Chemical Technology - Chemical Engineering

1. What is coal carbonization and how is it related to chemical engineering?
Ans. Coal carbonization is a process of converting coal into coke, which is a fuel used in various industries. It involves heating coal in the absence of air at high temperatures to drive off volatile components and leave behind carbon-rich coke. Chemical engineering plays a crucial role in designing and optimizing the coal carbonization process to ensure efficient production of coke with desired properties.
2. What is a coke oven plant and what is its purpose in coal carbonization?
Ans. A coke oven plant is a facility where coal carbonization takes place. It consists of a series of ovens where coal is heated in a controlled manner to produce coke. The purpose of a coke oven plant is to convert coal into coke, which is a vital raw material for iron and steel production. The plant also captures valuable by-products like coal tar, ammonia, and benzene during the carbonization process.
3. What are the main challenges in operating a coke oven plant?
Ans. Operating a coke oven plant poses several challenges, including the emission of harmful gases, high energy consumption, and the need for proper waste management. The control and reduction of emissions like sulfur dioxide and nitrogen oxide is a significant challenge. Additionally, the efficient utilization of heat and the safe handling of by-products are crucial aspects that require constant attention in operating a coke oven plant.
4. How does chemical engineering contribute to the sustainability of coke oven plants?
Ans. Chemical engineering plays a vital role in improving the sustainability of coke oven plants. It focuses on developing and implementing innovative technologies to reduce environmental impact, increase energy efficiency, and optimize resource utilization. Chemical engineers work on developing advanced emission control systems, energy recovery methods, and waste treatment techniques, thus ensuring the sustainable operation of coke oven plants.
5. What are the safety measures implemented in coke oven plants to protect workers?
Ans. Coke oven plants implement various safety measures to protect workers from potential hazards. These include the use of personal protective equipment (PPE) such as gloves, masks, and goggles to minimize exposure to harmful gases and chemicals. Adequate ventilation systems are installed to maintain air quality and minimize the risk of explosions. Regular training programs, emergency response plans, and strict adherence to safety protocols are also essential aspects of ensuring worker safety in coke oven plants.
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