动力工程学报
動力工程學報
동력공정학보
JOURNAL OF POWER ENGINEERING
2012年
6期
430-434,475
,共6页
高继录%邹天舒%李志山%纪宏舜%冷杰%吴景兴%李含琼
高繼錄%鄒天舒%李誌山%紀宏舜%冷傑%吳景興%李含瓊
고계록%추천서%리지산%기굉순%랭걸%오경흥%리함경
1000MW机组%掺烧试验%燃烧调整%神华煤%霍林河褐煤
1000MW機組%摻燒試驗%燃燒調整%神華煤%霍林河褐煤
1000MW궤조%참소시험%연소조정%신화매%곽림하갈매
1 000 MW power unit%mixed combustion experiment%combustion adjustment%Shenhua coal%Huolinhe lignite
在某电厂1 000MW机组上进行了神华煤与霍林河褐煤掺烧试验,研究了褐煤掺烧比例对磨煤机最大出力、机组最大出力和机组性能的影响,在最佳褐煤掺烧比例下进行了燃烧优化试验并提出了掺烧褐煤后产生的问题及解决措施.结果表明:随着褐煤掺烧比例的增大,磨煤机最大出力逐渐降低;当褐煤掺烧比例大于40%时,机组最大出力将受到明显影响;在目前设备条件下,褐煤最佳掺烧比例为30%.在最佳褐煤掺烧比例下,额定负荷时省煤器最佳出口氧量偏置为+0.4,最佳燃尽风挡板开度偏置为-10%.通过燃烧调整,基本上解决了掺烧褐煤后炉膛结焦问题,锅炉效率提高了0.07%,NOx排放质量浓度为293.2mg/m3.
在某電廠1 000MW機組上進行瞭神華煤與霍林河褐煤摻燒試驗,研究瞭褐煤摻燒比例對磨煤機最大齣力、機組最大齣力和機組性能的影響,在最佳褐煤摻燒比例下進行瞭燃燒優化試驗併提齣瞭摻燒褐煤後產生的問題及解決措施.結果錶明:隨著褐煤摻燒比例的增大,磨煤機最大齣力逐漸降低;噹褐煤摻燒比例大于40%時,機組最大齣力將受到明顯影響;在目前設備條件下,褐煤最佳摻燒比例為30%.在最佳褐煤摻燒比例下,額定負荷時省煤器最佳齣口氧量偏置為+0.4,最佳燃儘風擋闆開度偏置為-10%.通過燃燒調整,基本上解決瞭摻燒褐煤後爐膛結焦問題,鍋爐效率提高瞭0.07%,NOx排放質量濃度為293.2mg/m3.
재모전엄1 000MW궤조상진행료신화매여곽림하갈매참소시험,연구료갈매참소비례대마매궤최대출력、궤조최대출력화궤조성능적영향,재최가갈매참소비례하진행료연소우화시험병제출료참소갈매후산생적문제급해결조시.결과표명:수착갈매참소비례적증대,마매궤최대출력축점강저;당갈매참소비례대우40%시,궤조최대출력장수도명현영향;재목전설비조건하,갈매최가참소비례위30%.재최가갈매참소비례하,액정부하시성매기최가출구양량편치위+0.4,최가연진풍당판개도편치위-10%.통과연소조정,기본상해결료참소갈매후로당결초문제,과로효솔제고료0.07%,NOx배방질량농도위293.2mg/m3.
An experimental study was carried out on the mixed combustion of Shenhua coal with Huolinhe lignite in a 1 000 MW power plant, so as to analyze the effect of blending ratio on the maximum mill out put, maximum unit output and the unit performance. Combustion optimization tests were performed at an optimal blending ratio, during which problems that may be produced by blending lignite were proposed, while corresponding countermeasures suggested. Results show that the maximum mill output reduces gradually with rising blending ratio of lignite; the effect will be obvious especially when the ratio gets a bove 40% ; the optimal blending ratio of lignite is 30% under the test conditions, in which case the optimal bias of oxygen at outlet of economizer is +0.4, and the optimal bias of baffle opening for over-fire air is -10% at rated load. Based on combustion adjustment, the coking problems occurring on boiler rear wall due to mixed combustion with lignite has basically been solved, with a 0.07 % increase of boiler efficiency and a NOx emission of 293.2 mg/m^3.