The Role of Catalysts in Industrial Emission Control

Catalysts are the magical inputs in industrial emission control processes that break down harmful gases into less dangerous forms, sometimes even into naturally occurring gases and compounds such as carbon dioxide and water. As a result, it’s easier to curb some of the adverse effects of air pollution from intensive industrial processes that release greenhouse gases in millions of tons per year.

Using Catalysts in Industrial Emission Control

Industrial processes are one of the top culprits as far as air pollution goes. These processes result in the production of pollutants such as carbon dioxide (CO2), sulfur oxides (SOx), nitrogen oxides (NOx), Methane (CH4), and others. Because of that, these harmful gases result in lower air quality, and can even cause other nasty effects such as acid rain which is dangerous to the environment.

By using catalysts as a countermeasure, companies can facilitate a more efficient process of breaking down pollutants being released into the atmosphere. Applied Catalysts, a global leader in catalyst manufacturing is committed to developing the best catalysts for different use cases while leveraging the newest techniques and technologies to guarantee maximum effectiveness.

What Roles Do Catalysts Play in Industrial Emission Control?

Here are some of the roles of catalysts in industrial emission control:

1. Facilitating Effective Breaking down of Harmful Gases

One of the most important roles of catalysts in industrial emission control is breaking down harmful gases into a less harmful form. Not only do they do so effectively, but they also require less energy, thus increasing the efficiency of these conversion processes.

A good example is the conversion of nitrogen oxides into elemental nitrogen and oxygen. Since these gases exist freely in the atmosphere, they won’t cause pollution when released into the air, as opposed to released nitrogen oxides.

2. Facilitating the Oxidation of Harmful Gases

Catalysts are also used in industrial emission control processes to enable the conversion of compounds such as hydrocarbons into carbon dioxide and water. They can also facilitate the oxidation of unnatural gases such as carbon monoxide into carbon dioxide.

When added to industrial exhaust systems, as such, these substances reduce the amount of harmful gases being released into the atmosphere, thus lowering the emission factor of the company.

3. Promoting the Filterting of Particulate Matter

More complex industrial processes may require diesel engines since they are known to handle greater loads than petrol engines. Moreover, they are more reliable and have a higher fuel efficiency. However, they pollute more than petrol engines, thus requiring more clever setups to clean their exhaust gases.

Particulate Matter (PM) catalysts come in quite handy in this case, as they facilitate effective trapping and oxidization of particulate matter from diesel engines. As a result, these catalysts help to reduce the emission of harmful particles from these engines, contributing to an overall better air quality.

Summing Up,

Catalysts are crucial in industrial emission control processes, and not just the processes directly linked to the purification of exhaust gases or waste elements from manufacturing processes.

They can also be used in chemical reactions during production to reduce the amount of energy and, thus the quantity of fuel required during production cycles. As a result, industrial production processes become more energy-efficient and have a lesser carbon footprint.

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