吉林化工学院学报
吉林化工學院學報
길림화공학원학보
JOURNAL OF JILIN INSTITUTE OF CHEMICAL TECHNOLOGY
2012年
5期
18-20
,共3页
防渣低污染双区燃烧技术%锅炉效率%氮氧化物
防渣低汙染雙區燃燒技術%鍋爐效率%氮氧化物
방사저오염쌍구연소기술%과로효솔%담양화물
anti-slag lOw-pollution dual-zone combustion technology%boiler efficiency%nitrogen oxides
对锅炉燃烧系统改造,并进行锅炉燃烧系统改造,解决锅炉结焦、低负荷稳燃、提高锅炉效率、降低煤耗、降低自用设备电耗、降低氮氧化物排放量等问题,从而提高机组安全性、经济性、环保性能.改造后的锅炉能满负荷长期稳定运行,锅炉主要运行参数达到设计值.
對鍋爐燃燒繫統改造,併進行鍋爐燃燒繫統改造,解決鍋爐結焦、低負荷穩燃、提高鍋爐效率、降低煤耗、降低自用設備電耗、降低氮氧化物排放量等問題,從而提高機組安全性、經濟性、環保性能.改造後的鍋爐能滿負荷長期穩定運行,鍋爐主要運行參數達到設計值.
대과로연소계통개조,병진행과로연소계통개조,해결과로결초、저부하은연、제고과로효솔、강저매모、강저자용설비전모、강저담양화물배방량등문제,종이제고궤조안전성、경제성、배보성능.개조후적과로능만부하장기은정운행,과로주요운행삼수체도설계치.
The boiler combustion system was transformed, such as solving coked boiler and low-load stablecombustion, increasing the efficiency and reducing coal consumption, power consumption and equipment nitrogen oxide emissions, so as tO raise the safety, economic, and environmental protection performance of the boiler. The transformed boiler can operate full load long-term and stablely and the boiler operation parameters meet to the design value.
