Mitigation approaches and techniques for combustion power plants flue gas emissions: A comprehensive review

Population growth and urbanization are driving energy demand. Despite the development of renewable energy technologies, most of this demand is still met by fossil fuels. Flue gases are the main air pollutants from combustion power plants. These pollutants include particulate matter (PM), sulfur oxides (SOx), nitrogen oxides (NOx), and carbon oxides (COx). The release of these pollutants has adverse effects on human health and the environment, including serious damage to the human respiratory system, acid rain, climate change, and global warming. In this review, a wide range of conventional and new technologies that have the potential to be used in the combustion power plant sector to manage and reduce flue gas pollutants have been examined. Nowadays, conventional approaches to emissions control and management, which focus primarily on post-combustion techniques, face several challenges despite their widespread use and commendable effectiveness. Therefore, studies that have proposed alternative approaches to achieve improved and more efficient methods are reviewed. The results show that new advances such as novel PM collectors, attaining an efficiency of nearly 100 % for submicron particles, microwave systems, boasting an efficiency of nearly 90 % for NO and over 95 % for SO2, electrochemical systems achieving above 90 % efficiency for NOx reduction, non-thermal plasma processes demonstrating an efficiency close to 90 % for NOx, microalgae-based methods with efficiency ranging from 80 % to 99 % for CO2, and wet scrubbing, exhibit considerable potential in addressing the shortcomings of conventional systems. Furthermore, the integration of hybrid methods, particularly in regions prioritizing environ-mental concerns over economic considerations, holds promise for enhanced control and removal of flue gas pollutants with superior efficiency.

Automated summary

Population growth and urbanization drive energy demand, primarily met by fossil fuels, causing adverse effects on human health and the environment. Flue gases from combustion power plants release air pollutants, such as PM, SOx, NOx, and COx, resulting in respiratory damage, acid rain, climate change, and global warming. This review examines various conventional and new technologies for managing and reducing flue gas pollutants in the combustion power plant sector. New advances including novel PM collectors, microwave systems, electrochemical systems, non-thermal plasma processes, microalgae-based methods, and wet scrubbing show potential in addressing the shortcomings of conventional systems. Integration of hybrid methods holds promise for superior control and removal of flue gas pollutants.