摘要
火电站燃煤锅炉运行中受热面污染沉积使传热过程不可逆程度增大,熵产增加,能量品质下降。文中建立了锅炉对流受热面传热熵产计算模型,并针对一台大型电站锅炉,结合现场采集的实时运行数据,利用建立的熵产模型计算了各对流受热面在不同污染状态下(吹灰操作前后)的传热熵产,分析了不同受热面污染对熵产的影响规律。计算与分析表明,对于所计算的锅炉,与其他受热面相比,吹灰操作对降低省煤器和低温过热器传热熵产的效果最为显著。
For coal fired utility boilers, the ash deposition on heating surfaces can lead to increase entropy generation in heat transfer process with result of heat energy loss both in quantity and quality. The analyzing model of heat transfer entropy generation for convective heating surfaces was established. Using the real time data of a utility boiler, the heat transfer entropy generation of different convective heating surfaces under different ash deposition (before and after soot-blowing) was calculated. The influence of ash deposition on heat transfer entropy generation was analyzed. The calculating and analyzing results indicate that, comparing with the other convective heating surfaces of the boiler, more entropy generation decrements for both economizer and low temperature super heater are observed after soot-blowing.
出处
《中国电机工程学报》
EI
CSCD
北大核心
2008年第5期23-27,共5页
Proceedings of the CSEE
关键词
熵产
优化吹灰
对流受热面
电站锅炉
entropy generation
soot-blowing optimization
convective heat transfer surfaces
utility boiler
