Write give some suggestions to stop pollution caused by industries
Answers
Answered by
7
Answer:
Explanation:
suggestions to control industrial pollution in India are as follows
(i) Particulate matter in the air can be reduced by fitting smoke stacks to factories with electrostatic precipitators, fabric filters, scrubbers and inertial separators.
(ii) Smoke can be reduced by using oil or gas instead of coal in factories.
(iii) Machinery and equipment can be used and generators should be fitted with silencers.
(iv) Pollution check certificates should be made compulsory.
(v) Machineries used in the industries can be redesigned to increase energy efficiency and reduce noise. Noise absorbing material may also be used.
Answered by
4
Paint manufacturing facilities and other operations need to meet specific EPA requirements in order to stay open. At the same time, many factory managers and company owners focus on reducing air pollution because they are aware of the potential negative impact it may have.
The two most common ways companies can reduce their air pollution emissions are:
Optimizing the factory’s operations
Greener, more energy-efficient operations tend to reduce the amount of pollution a factory generates. Companies can optimize different parts of their operation to save energy, thus reducing the facility’s overall emissions.
Destroying pollutants before they enter the atmosphere
Factory operators can also employ abatement mechanisms that help destroy VOCs, HAPs, and other pollutants before they enter the environment. Different abatement techniques are efficient for specific types of pollutants, so you need to evaluate your operation to find the ideal technique. Four of the most commonly used abatement techniques include:
Regenerative Thermal Oxidizer
Known as RTOs, regenerative thermal oxidizers employ high temperatures to destroy pollutants before they are released into the environment. The energy of the actual industrial operation is used in the abatement process whenever possible, which involves a network of high-efficiency heat exchangers.
Recuperative Thermal Oxidizer
Recuperative thermal oxidizers also referred to as TOs, rely on high temperatures and heavy-duty steel heat exchangers to destroy VOCs before they enter the atmosphere.
Catalytic Oxidizer
Catalytic oxidizers use a combination of chemical catalysts and high temperatures to break down pollutants into harmless compounds.
The two most common ways companies can reduce their air pollution emissions are:
Optimizing the factory’s operations
Greener, more energy-efficient operations tend to reduce the amount of pollution a factory generates. Companies can optimize different parts of their operation to save energy, thus reducing the facility’s overall emissions.
Destroying pollutants before they enter the atmosphere
Factory operators can also employ abatement mechanisms that help destroy VOCs, HAPs, and other pollutants before they enter the environment. Different abatement techniques are efficient for specific types of pollutants, so you need to evaluate your operation to find the ideal technique. Four of the most commonly used abatement techniques include:
Regenerative Thermal Oxidizer
Known as RTOs, regenerative thermal oxidizers employ high temperatures to destroy pollutants before they are released into the environment. The energy of the actual industrial operation is used in the abatement process whenever possible, which involves a network of high-efficiency heat exchangers.
Recuperative Thermal Oxidizer
Recuperative thermal oxidizers also referred to as TOs, rely on high temperatures and heavy-duty steel heat exchangers to destroy VOCs before they enter the atmosphere.
Catalytic Oxidizer
Catalytic oxidizers use a combination of chemical catalysts and high temperatures to break down pollutants into harmless compounds.
Similar questions