摘要
介绍了SO2的3条去除路径,高能电子的解离还原路径;自由基的氧化路径;以及与氨的热化学反应路径。提出SO2浓度测试要先去氨及NOx测试先去SO2的方案。分析了温度、氨量、烟气组分及供电情况对SO2去除的影响。认为NO及硫酸气溶胶的存在促进SO2去除的观点是错误的。本文还讨论了该技术工业应用中诸如降低能耗、余氨处理和产物收集等关键问题。讨论了放电对SO2去除的作用和脱硫与除尘结合问题。最后提出利用氨与等离子体的协同作用,以热化学反应为主路径,以等离子体活化反应为补充的脱硫思路。
hree approaches for so, removal were summarized: high energic electron bombardment induced direct dissociation,oxidation by free radicals generated in corona, and thermo-chemical reaction with ammonia. A new way put forward by the author is discussed here of removing ammonia for SO2 analysis. The performance of this method for flue gas is compared with that for simulated model gas. The differences resulted from gas comPOSition were stressed. Other factors such as temperature, dose of ammonia,puled energization conditions were also discussed which affect the Performance the most. Some incorrect conclutions in preciously published papers from different authors were examined. Some existing key problems which have to be solved for the commertial aPPlication also disscussed, including energy consumption, ammonia slip and production collection. Feasibility Of combination with ESP was also concerned too. It was concluded that the key problem of this method is how to oxidize ammonia sulfite effectively by utilization Of oxidizing environment generated by corona discharge with aims to solve simultaneously both problems of high energy consumption and ammonia slip.
出处
《环境科学》
CAS
CSSCI
CSCD
北大核心
1996年第2期86-89,共4页
Environmental Science
基金
国家自然科学基金
国家"八五"科技攻关资助
关键词
烟气
脱硫
等离子体
燃煤电站
flue gas desulfurizaiton, plasma catalysis,free radicals, high energic electron bombarment, thermochemical.
