摘要
为了研究槽式太阳能集热与燃煤热发电的高效集成方法,基于槽式太阳能集热器的最佳运行条件,建立300 MW燃煤机组与太阳能集热的混合发电系统,理论分析混合发电工况下机组的热力学性能和热经济性.结果表明,太阳能辐射强度为600 W/m2时,槽式集热器的最佳运行温度为306.55℃;300 MW燃煤发电机组中,离开槽式集热器的热水直接与回热器的热水混合时,太阳能热水与进入3#回热器的热水混合是槽式集热器与燃煤发电机组集成的最佳方案,此时太阳能热发电效率达到23.60%,节省煤耗5.53 g/(kW.h).
In order to investigating a high-efficient integration method of trough solar energy collection and coal-fired power generation a 300 MW mixed power generation system composed of solar energy unit and coal-burning unit was set up on the basis of optimal condition of the operation of trough solar energy collector.Then,its thermodynamic and thermo-economical performances in the operational condition of mixed power generation were analyzed theoretically for the integrated system.The results showed that,when solar irradiation was 600 W/m2,the optimum operation temperature of the collector would be 306.55 ℃.In the mixed power generation unit,the heated water from trough collector would mix directly with water from heat regenerator.The best integration mode was as follows: the solar energy heated water should mix with water from 3# heat regenerator with a solar-to-electricity conversion as 23.6% and coal-saving as 5.53 g /(kW·h).
出处
《兰州理工大学学报》
CAS
北大核心
2010年第6期37-40,共4页
Journal of Lanzhou University of Technology
基金
国家863计划(2007AA05Z261)
甘肃省科技支撑计划(0804NKCA054)
甘肃省重大专项(092NKDA035)
甘肃省教育厅硕导基金(0803-06)
兰州理工大学优秀青年教师培养计划项目(Q200801)的资助
关键词
太阳能热利用系统
最佳运行温度
集成方案
热经济性
solar energy-heat utilization system
optimum operation temperature
integration mode
thermo-economical performance
