【摘 要】
:
In China, the pollution problems of PM2.5 have become increasingly serious.In recent years, the haze phenomenon caused by PM2.5 in many cities was for a wid
【机 构】
:
EnergyandEnvironmentEngineeringInstitute,ShanghaiUniversityofElectricPower,Shanghai200090,China
【出 处】
:
亚洲垃圾(生物质)转能源技术与装备大会(Asia Waste to Energy Confress 2015)
论文部分内容阅读
In China, the pollution problems of PM2.5 have become increasingly serious.In recent years, the haze phenomenon caused by PM2.5 in many cities was for a wide range of frequent outbreaks, resulting in the serious deterioration of air quality.PM2.5 is rich in a large number of toxic and hazardous substances and stays a long time in the atmosphere, which makes a great impact on human health and quality of atmospheric environment.Coal-fired power plant is an important source of PM2.5 emissions.In this paper, briefly describes the status of the PM2.5 emissions from coal-fired power plants and control technologies.Analyzes the pros and cons of various technologies, application status and future applications.
其他文献
As per Census 2011:377 million i.e approximately 31.2% of the total population live in towns No.of towns increased from 5161 in 2001 to 7933 in 2011.India's urba
Overview of waste-to-energy project development.One ton of MSW fuel in a modern WTE plant generates a net of 500 kWh of electricity.To generate this much electr
活性炭是—种孔隙发达的广谱吸附剂,用于垃圾焚烧尾气处理的活性炭,—般比表面积约为600-1000m2/g,浸渍活性炭可用于化学吸附,能带来更高效率,高稳定的产品,为了安全去除汞,推荐
介绍了当前大气污染物排放负荷巨大,传统空气污染依然严重等情况,阐述了污染防治措施,重点分析了生物质成型燃料的污染减排作用。
Segregation of waste at source is a key to any feasible concept.Any step upward within the waste management hierarchy is a better move than no move.More recover
The incinerator will be exposed.Thermal demands:-Temperatures between 800°-950°C;-Thermal cycling;-Thermal shocks.Mechanical demands:-Heavy erosion'-Sand/ash
本公司今年来研究开发出一种新型催化法低温SCR脱硝技术,该技术基于一种低温SCR脱硝催化剂,其活性温度窗口为90-210℃.本技术已经顺利通过实验室小试验证及工况烟气中试验证,
Fneton absorption solution was used to removal of the Hg0 under UV light.UV light intensity,H2O2 concentration, Fe2+ concentration, concentration, reaction