热力发电
熱力髮電
열력발전
Thermal Power Generation
2015年
10期
112-115
,共4页
超(超)临界%600 MW机组%汽轮机%滑压运行%调节方式%高压缸效率%热耗率
超(超)臨界%600 MW機組%汽輪機%滑壓運行%調節方式%高壓缸效率%熱耗率
초(초)림계%600 MW궤조%기륜궤%활압운행%조절방식%고압항효솔%열모솔
(ultra)super critical%600 MW unit%steam turbine%slide pressure operation%regulation mode%high pressure cylinder efficiency%heat loss rate
为实现火电机组节能减排的目标,需要在不同机组运行工况下降低汽轮机发电热耗率.通常认为汽轮机喷嘴调节方式有利于机组低负荷运行,因此大部分机组汽轮机均采用喷嘴调节方式.对此,以2台超(超)临界600 MW机组为例,根据蒸汽在汽轮机内的过程损失特点,结合试验数据对汽轮机在滑压运行方式下采用不同调节方式的节能效果进行对比分析.结果表明:对于600 MW及以上的大型机组汽轮机采用滑压运行方式时,在不同负荷下汽轮机采用节流调节方式较喷嘴调节方式高压缸效率提高4.36%~5.50%,热耗率降低130~160 kJ/(kW?h),在低负荷下高压缸效率增加更明显,热耗率降低幅度更大;喷嘴调节仅适用于定压运行方式或小型汽轮机.
為實現火電機組節能減排的目標,需要在不同機組運行工況下降低汽輪機髮電熱耗率.通常認為汽輪機噴嘴調節方式有利于機組低負荷運行,因此大部分機組汽輪機均採用噴嘴調節方式.對此,以2檯超(超)臨界600 MW機組為例,根據蒸汽在汽輪機內的過程損失特點,結閤試驗數據對汽輪機在滑壓運行方式下採用不同調節方式的節能效果進行對比分析.結果錶明:對于600 MW及以上的大型機組汽輪機採用滑壓運行方式時,在不同負荷下汽輪機採用節流調節方式較噴嘴調節方式高壓缸效率提高4.36%~5.50%,熱耗率降低130~160 kJ/(kW?h),在低負荷下高壓缸效率增加更明顯,熱耗率降低幅度更大;噴嘴調節僅適用于定壓運行方式或小型汽輪機.
위실현화전궤조절능감배적목표,수요재불동궤조운행공황하강저기륜궤발전열모솔.통상인위기륜궤분취조절방식유리우궤조저부하운행,인차대부분궤조기륜궤균채용분취조절방식.대차,이2태초(초)림계600 MW궤조위례,근거증기재기륜궤내적과정손실특점,결합시험수거대기륜궤재활압운행방식하채용불동조절방식적절능효과진행대비분석.결과표명:대우600 MW급이상적대형궤조기륜궤채용활압운행방식시,재불동부하하기륜궤채용절류조절방식교분취조절방식고압항효솔제고4.36%~5.50%,열모솔강저130~160 kJ/(kW?h),재저부하하고압항효솔증가경명현,열모솔강저폭도경대;분취조절부괄용우정압운행방식혹소형기륜궤.
In order to realize energy conservation and emissions reduction,the generating heat consumption rate of the steam turbine under various load conditions need to be reduced.It is generally thought that the nozzle adj ustment is helpful to the unit low load operation,thus a large amount of units apply the nozzle ad-justment mode.In this paper,by taking two (ultra)super critical 600MW units as the example and combing with the test data,the energy saving effects of the unit employing different adj ustment methods during slide pressure operation were compared,according to the steam loss characteristics.The results show that, for large scale units in slide pressure operation under various load conditions,the HP cylinder efficiency with throttling nozzle regulation was about 4.36% to 5.50% higher than that with nozzle regulation,and the heat loss rate was about 130 kJ/(kW?h)to 160 kJ/(kW?h)lower.At low load conditions,the HP cylinder efficiency increased more obviously and the heat loss reduced more dramatically.The nozzle adj ust-ment is only suitable to constant pressure operation or small steam turbine operation.
