As one of the primary methods of modern energy production, thermal power plants play a vital role in meeting society's electricity demands.
However, the emissions and waste materials generated during the process, such as sulfur dioxide and coal ash, have severe implications for the environment and air quality.
Hence, the environmental protection and energy-saving transformation of thermal power plants have become crucial issues in the present day.
Against this backdrop, lime, as a versatile inorganic substance, assumes a significant role in thermal power plants, with its diverse applications holding paramount importance in enhancing operational efficiency and environmental performance.
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Flue Gas Desulfurization (FGD):
Lime, being an alkaline substance, finds application in the flue gas desulfurization systems of thermal power plants.
It effectively captures and neutralizes sulfur oxides in the flue gases, reducing atmospheric pollutant emissions and preserving air quality.
Flue Gas Desacidification:
Lime can also be used in deacidification systems to neutralize acidic components in flue gases, diminishing adverse environmental impacts.
Wastewater Treatment:
The wastewater generated by thermal power plants often contains various harmful substances.
Lime is employed in wastewater treatment processes to neutralize and precipitate pollutants, minimizing the impact on water environments.
Waste Management:
Lime is also applied in solid waste management, contributing to waste solidification and reducing the release of hazardous substances. This action lowers the risk of soil and groundwater contamination.
In conclusion, the applications of lime in thermal power plants are diverse and critical.
From flue gas desulfurization and coal ash treatment to combustion control, calcium carbonate plays a vital role in addressing environmental pollution, enhancing power generation efficiency, and promoting energy conservation and emission reduction.
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