中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2012年
8期
112-117
,共6页
徐二树%高维%徐蕙%杨正
徐二樹%高維%徐蕙%楊正
서이수%고유%서혜%양정
太阳能热发电%蓄热器%模型%仿真
太暘能熱髮電%蓄熱器%模型%倣真
태양능열발전%축열기%모형%방진
solar thermal power steam accumulator model simulation
以八达岭塔式太阳能热发电实验电站蒸汽蓄热器为研究对象,根据蒸汽蓄热器的结构和工作机制,建立蒸汽蓄热器的全工况动态仿真数学模型。该模型以汽液两相分界面为界,分别建立汽相区和液相区动态能量和质量守恒方程式,引入动态汽化量和蒸汽凝结量,实现汽、液相区之间能质传递。在此基础上,利用STAR-90仿真平台模拟八达岭塔式太阳能热发电站蓄热器的充热和放热过程,进行充、放热蒸汽流量阶跃扰动实验。仿真实验表明:蒸汽蓄热器在充热过程和放热过程具有不同的压力变化特性;放热过程中,蒸汽流量增加对蒸汽温度影响幅度较大,容易导致汽轮机入口蒸汽过热度偏低。该结论对具有蓄热系统太阳能热发电电站运行策略的制定具有一定的指导意义。
以八達嶺塔式太暘能熱髮電實驗電站蒸汽蓄熱器為研究對象,根據蒸汽蓄熱器的結構和工作機製,建立蒸汽蓄熱器的全工況動態倣真數學模型。該模型以汽液兩相分界麵為界,分彆建立汽相區和液相區動態能量和質量守恆方程式,引入動態汽化量和蒸汽凝結量,實現汽、液相區之間能質傳遞。在此基礎上,利用STAR-90倣真平檯模擬八達嶺塔式太暘能熱髮電站蓄熱器的充熱和放熱過程,進行充、放熱蒸汽流量階躍擾動實驗。倣真實驗錶明:蒸汽蓄熱器在充熱過程和放熱過程具有不同的壓力變化特性;放熱過程中,蒸汽流量增加對蒸汽溫度影響幅度較大,容易導緻汽輪機入口蒸汽過熱度偏低。該結論對具有蓄熱繫統太暘能熱髮電電站運行策略的製定具有一定的指導意義。
이팔체령탑식태양능열발전실험전참증기축열기위연구대상,근거증기축열기적결구화공작궤제,건립증기축열기적전공황동태방진수학모형。해모형이기액량상분계면위계,분별건립기상구화액상구동태능량화질량수항방정식,인입동태기화량화증기응결량,실현기、액상구지간능질전체。재차기출상,이용STAR-90방진평태모의팔체령탑식태양능열발전참축열기적충열화방열과정,진행충、방열증기류량계약우동실험。방진실험표명:증기축열기재충열과정화방열과정구유불동적압력변화특성;방열과정중,증기류량증가대증기온도영향폭도교대,용역도치기륜궤입구증기과열도편저。해결론대구유축열계통태양능열발전전참운행책략적제정구유일정적지도의의。
A whole working condition mathematical model for the steam accumulator in Badaling solar power tower plant was developed.According to the structure and working mechanism of the steam accumulator,the dynamic energy and mass conservation equations in both the vapor region and the liquid region were established.Dynamic mass and energy transport between the vapor region and the liquid region was considered by introducing the vaporization and condensation through the vapor-liquid interface.Based on STAR-90 simulation platform,the charging and discharging processes of the steam accumulator were simulated,and the step disturbance of steam flow during the charging and discharging processes was numerically investigated.The results show that the characteristics of pressure variation in the steam accumulator in the charging process are different from that in the discharging process.In the discharging process,the steam temperature can be evidently influenced when increasing the steam flow rate,easily causing a low superheat steam at the turbine inlet.The findings in this paper provide valuable insights into the design and control strategy of solar thermal power plants with thermal storage systems.