Study on SO₃ Cooperative Removal Effect of Ultra-low Emission Technology in Coal-fired Power Plants

¹ School of Metallurgy, Northeastern University, 110819 Shenyang, China
² State Environmental Protection Engineering and Technology Center For Power Industrial Dust Control, 364000 Longyan, China
³ Experimental and Research Centre, Fujian Longking Co., Ltd., Longyan 364000, China

^* Corresponding author: XingLian Ye: yexinglian1228@126.com

Abstract

SO₃ is one of the main precursors of atmospheric PM_2.5, and its emission has attracted more and more attention in the industry. This paper briefly analyzes the harm of SO₃ and the method of controlled condensation to test SO₃. The effect of cooperative removal of SO₃ by ultra-low emission technology in some coal-fired power plants has been tested by using the method of controlled condensation. The results show that the cooperative removal of SO₃ by ultra-low emission technology in coal-fired power plants is effective. The removal rate of SO₃ by low-low temperature electrostatic precipitators and electrostatic-fabric integrated precipitators can be exceeded 80%, while the removal rate of SO₃ by wet flue gas desulfurization equipment displays lower than the above two facilities, and the wet electrostatic precipitator shows a better removal effect on SO₃. With the use of ultra-low emission technology in coal-fired power plants, the SO₃ emission concentration of the tail chimney reaches less than 1 mg / Nm³.