Energy

At JEG Filtration, we provide a range of advanced filtration solutions designed specifically for the energy sector. Our filtration products and services are backed by extensive research and testing. They are proven to deliver significant benefits in terms of efficiency, reliability and cost savings.

Liquid filtration is a cornerstone in coal-fired power plants, crucial for addressing environmental concerns and ensuring efficient operations. It plays a vital role in treating and purifying water used in various processes, maintaining machinery efficiency, and preventing corrosion.

In PV solar cell manufacturing, liquid chemical filtration is essential for ensuring the purity and quality of chemicals used throughout various production stages. By removing impurities, particles, and contaminants from chemical baths, photoresist processing, cleaning solutions and slurries, filtration systems contribute to the precision and reliability of solar cell manufacturing. This process not only safeguards the integrity of the semiconductor materials but also enhances the overall efficiency and performance of the solar cells.

Thermal Power Generation

Filtration is crucial in the energy industry for better efficiency, less downtime, and lower maintenance costs. By removing impurities from cooling water, lubricants, fuel, and gas, it optimizes energy equipment performance, resulting in cost savings and improved reliability. For instance, in cooling water filtration, removal of contaminants like suspended solids, bacteria, and algae helps prevent issues such as scaling, corrosion, and biofouling. Similarly, in fuel and gas filtration, removing impurities enhances combustion efficiency, reduces emissions, and extends equipment life.

Combined Cycle Power Generation

This method of generating electric power incorporates a gas turbine whose waste heat is reused to drive a steam turbine. The gas turbine is powered by high-temperature combustion gas that, after being discharged from the gas turbine, is efficiently recovered by means of a heat recovery boiler. This produces steam of sufficient temperature and pressure to drive the steam turbine and generate electricity. This configuration ensures high thermal efficiency, as the cost per unit of power generated is lower than that of oil-fired thermal power. It is used to provide the base-to-middle-load supply.

This method of generating electric power incorporates a gas turbine whose waste heat is reused to drive a steam turbine. The gas turbine is powered by high-temperature combustion gas that, after being discharged from the gas turbine, is efficiently recovered by means of a heat recovery boiler. This produces steam of sufficient temperature and pressure to drive the steam turbine and generate electricity. This configuration ensures high thermal efficiency, as the cost per unit of power generated is lower than that of oil-fired thermal power. It is used to provide the base-to-middle-load supply.

Gas Turbine Power Generation

This electricity generating system makes electricity by burning fuels such as LNG (liquefied natural gas) or kerosene to produce high-temperature combustion gases with sufficient energy to rotate a gas turbine.

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