机械工程学报
機械工程學報
궤계공정학보
CHINESE JOURNAL OF MECHANICAL ENGINEERING
2014年
24期
171-178
,共8页
汽轮机%中压平衡活塞%汽封间隙%在线监测
汽輪機%中壓平衡活塞%汽封間隙%在線鑑測
기륜궤%중압평형활새%기봉간극%재선감측
steam turbine%intermediate pressure(IP) balance piston%seal clearance%on-line monitoring
现有的测定中压平衡活塞汽封漏汽量的变汽温试验法存在一定的误差且不能实现在线监测。分析变汽温试验法存在的误差,并考虑中压平衡活塞汽封漏汽的影响,对某300 MW汽轮机进行变工况详细计算。结果表明,中压缸效率基本不受再热蒸汽流量、中压平衡活塞汽封漏汽量及再热蒸汽温度的影响。基于相邻两工况下中压平衡活塞汽封间隙一定及中压缸相对内效率相等的原理,提出中压平衡活塞汽封间隙、漏汽量及中压缸相对内效率的计算方法。利用变工况详细计算数据进行检验,以及与变汽温试验法测定结果进行比较,证明所提出的计算方法的有效性。利用所提出的计算方法,对某高中压合缸汽轮机在某一运行时段内的中压平衡活塞汽封间隙、中压平衡活塞汽封漏汽量、再热蒸汽流量及中压缸相对内效率进行实例计算。
現有的測定中壓平衡活塞汽封漏汽量的變汽溫試驗法存在一定的誤差且不能實現在線鑑測。分析變汽溫試驗法存在的誤差,併攷慮中壓平衡活塞汽封漏汽的影響,對某300 MW汽輪機進行變工況詳細計算。結果錶明,中壓缸效率基本不受再熱蒸汽流量、中壓平衡活塞汽封漏汽量及再熱蒸汽溫度的影響。基于相鄰兩工況下中壓平衡活塞汽封間隙一定及中壓缸相對內效率相等的原理,提齣中壓平衡活塞汽封間隙、漏汽量及中壓缸相對內效率的計算方法。利用變工況詳細計算數據進行檢驗,以及與變汽溫試驗法測定結果進行比較,證明所提齣的計算方法的有效性。利用所提齣的計算方法,對某高中壓閤缸汽輪機在某一運行時段內的中壓平衡活塞汽封間隙、中壓平衡活塞汽封漏汽量、再熱蒸汽流量及中壓缸相對內效率進行實例計算。
현유적측정중압평형활새기봉루기량적변기온시험법존재일정적오차차불능실현재선감측。분석변기온시험법존재적오차,병고필중압평형활새기봉루기적영향,대모300 MW기륜궤진행변공황상세계산。결과표명,중압항효솔기본불수재열증기류량、중압평형활새기봉루기량급재열증기온도적영향。기우상린량공황하중압평형활새기봉간극일정급중압항상대내효솔상등적원리,제출중압평형활새기봉간극、루기량급중압항상대내효솔적계산방법。이용변공황상세계산수거진행검험,이급여변기온시험법측정결과진행비교,증명소제출적계산방법적유효성。이용소제출적계산방법,대모고중압합항기륜궤재모일운행시단내적중압평형활새기봉간극、중압평형활새기봉루기량、재열증기류량급중압항상대내효솔진행실례계산。
The existing method of measuring intermediate pressure(IP) balance piston seal leakage by temperature variation test exists some errors and cannot achieve on-line monitoring. The errors of the temperature variation test method are analyzed, and the detailed variable condition calculations which considering IP balance piston seal leakage for a 300 MW steam turbine are performed. The results show that the IP turbine efficiency is basically not influenced by reheated steam flow, IP balance piston seal leakage and reheat steam temperature. The new calculation methods of balance piston seal clearance, IP balance piston seal leakage and IP turbine efficiency are put forward which based on the balance piston seal clearance and IP turbine efficiency are equivalent at two adjacent working conditions. By the detailed variable condition calculations results and temperature variation test results, the effectiveness of the new calculation methods is proved. The IP balance piston seal clearance, IP balance piston seal leakage flow, reheated steam flow and IP turbine efficiency for a steam turbine in a certain period are computed.
