湖南电力
湖南電力
호남전력
HUNAN ELECTRIC POWER
2014年
6期
69-71,79
,共4页
锅炉%蒸汽参数%氮氧化物%优化调整
鍋爐%蒸汽參數%氮氧化物%優化調整
과로%증기삼수%담양화물%우화조정
boiler%steam parameter%nitrogen oxide%optimal adjustment
针对某电厂330 MW对冲燃烧锅炉投产后炉膛出口氮氧化物浓度偏高的问题,对现场试验数据与设计值进行对比分析,结果表明:蒸汽温度偏低导致的燃尽风无法投入,一次风率偏高,主燃烧区域富氧燃烧是导致炉膛出口氮氧化物浓度偏高的主要原因。通过采取提高火焰中心,改善蒸汽参数,调整燃尽风等一系列措施,炉膛出口氮氧化物排放浓度得到降低。
針對某電廠330 MW對遲燃燒鍋爐投產後爐膛齣口氮氧化物濃度偏高的問題,對現場試驗數據與設計值進行對比分析,結果錶明:蒸汽溫度偏低導緻的燃儘風無法投入,一次風率偏高,主燃燒區域富氧燃燒是導緻爐膛齣口氮氧化物濃度偏高的主要原因。通過採取提高火燄中心,改善蒸汽參數,調整燃儘風等一繫列措施,爐膛齣口氮氧化物排放濃度得到降低。
침대모전엄330 MW대충연소과로투산후로당출구담양화물농도편고적문제,대현장시험수거여설계치진행대비분석,결과표명:증기온도편저도치적연진풍무법투입,일차풍솔편고,주연소구역부양연소시도치로당출구담양화물농도편고적주요원인。통과채취제고화염중심,개선증기삼수,조정연진풍등일계렬조시,로당출구담양화물배방농도득도강저。
The hedge fired boilers in a certain 330 MW power plant appeared to high concentration of nitrogen oxides after commissioning.Through the analysis of the test data and design values, the results show that the OFA (over fire air) cannot be put into, and low steam temperature, high primary air ratio and oxygen-enriched combustion in primary combustion zone is the main cause of the high concentration of nitrogen oxides on furnace outlet .By taking a series measurement of increasing the flame center, improving steam parameters and adjusting the OFA, furnace outlet nitrogen oxides emission concentration was reduced.
