Coke Oven-Functions and Importance of Waste Heat Recovery
Waste heat is commonly derived through the process of waste heat recovery.
It is a process through which fuel is combusted in a coke oven with the help of a chemical reaction.
The waste heat that comes out of such chemical reaction gets disposed in the surrounding environment only to be used later to serve various essential economic purpose.
The major point that comes under consideration is to measure the quality of heat generated and not the value.
The main aim should be to recover the amount of heat which again to a large extent is dependent on the temperature that comes out of the gases produced by waste heat.
There is a huge amount of gas that can be derived from the hot fuels coming out of boilers, brick kilns, coke ovens, furnaces etc.
This procedure further helps in saving on a lot of primary fuel which can be saved or trapped later as waste heat emitted from various gases only to be recovered with the help of a few small measures for future usage.
Waste heat recovery process enables the process of deriving waste heat from all almost every possible temperature.
For instance, this kind of waste heat can be derived from either freezing cold water or that high temperature heat coming out of an industrial kiln, furnace or coke oven.
The quality of heat that is derived out of such waste heat recovery is invariably dependent on higher temperature that is hugely responsible for ensuring superior quality heat.
This will again prove to be a cost-effective solution in the whole process related to heat recovery.
There are innumerous benefits that can be derived through such heat recovery which includes pre-heating the air in question for the sake of combustion, heating space, heating in advance the water of the feed boiler or processed water.
The more the amount of heat derived through such waste gases the more it would be easy to recover heat of maximum potential.
The technique which is applied for recovering heat is primarily necessary for pre-heating the air at a lower temperature which is further used for heating feed water or deriving steam.
Before recovering waste heat it becomes important to do a thorough analysis of the heat amount that can be recovered from such coke oven.
The gases which are emitted during the process of coal carbonization through such furnace are available at a temperature of 900 degree centigrade and a rate of 2100 m3/hour.
The amount of heat which can be recovered from coal carbonization comes to a total of 180 degree centigrade.
There are three major types which are available for recovering heat.
This includes recovery at a high temperature, heat recovery at a medium temperature and heat recovery at a low temperature.
Waste heat can thereby help in reducing the pollution levels, size of equipments and other auxiliary forms of energy consumption.
It can be well-defined as a process which involves everything related to distillation of organic substances through forced destruction during coal carbonization.
Carbonization of coal mostly takes place at vacuum alongside carbonaceous, liquid and gaseous products.
It is a process through which fuel is combusted in a coke oven with the help of a chemical reaction.
The waste heat that comes out of such chemical reaction gets disposed in the surrounding environment only to be used later to serve various essential economic purpose.
The major point that comes under consideration is to measure the quality of heat generated and not the value.
The main aim should be to recover the amount of heat which again to a large extent is dependent on the temperature that comes out of the gases produced by waste heat.
There is a huge amount of gas that can be derived from the hot fuels coming out of boilers, brick kilns, coke ovens, furnaces etc.
This procedure further helps in saving on a lot of primary fuel which can be saved or trapped later as waste heat emitted from various gases only to be recovered with the help of a few small measures for future usage.
Waste heat recovery process enables the process of deriving waste heat from all almost every possible temperature.
For instance, this kind of waste heat can be derived from either freezing cold water or that high temperature heat coming out of an industrial kiln, furnace or coke oven.
The quality of heat that is derived out of such waste heat recovery is invariably dependent on higher temperature that is hugely responsible for ensuring superior quality heat.
This will again prove to be a cost-effective solution in the whole process related to heat recovery.
There are innumerous benefits that can be derived through such heat recovery which includes pre-heating the air in question for the sake of combustion, heating space, heating in advance the water of the feed boiler or processed water.
The more the amount of heat derived through such waste gases the more it would be easy to recover heat of maximum potential.
The technique which is applied for recovering heat is primarily necessary for pre-heating the air at a lower temperature which is further used for heating feed water or deriving steam.
Before recovering waste heat it becomes important to do a thorough analysis of the heat amount that can be recovered from such coke oven.
The gases which are emitted during the process of coal carbonization through such furnace are available at a temperature of 900 degree centigrade and a rate of 2100 m3/hour.
The amount of heat which can be recovered from coal carbonization comes to a total of 180 degree centigrade.
There are three major types which are available for recovering heat.
This includes recovery at a high temperature, heat recovery at a medium temperature and heat recovery at a low temperature.
Waste heat can thereby help in reducing the pollution levels, size of equipments and other auxiliary forms of energy consumption.
It can be well-defined as a process which involves everything related to distillation of organic substances through forced destruction during coal carbonization.
Carbonization of coal mostly takes place at vacuum alongside carbonaceous, liquid and gaseous products.
