光热发电接入电网的调度模型与入网关键技术分析
|
摘要
光热发电技术优点有:光热发电的汽轮机有良好的操控性,调节程度相比常规火电大得多。利用加入的储热设备可以达到储能并持续发电的目的。通过分析光热发电的特性,对光热发电站的关键因素进行分析并简化建模,结合仿真模型来分析光热发电站的发电成本和提高输电线路利用率所带来的效益。
W With solar thermal power technology gradually matures, its outstanding advantages are: solar thermal power generation steam turbine with good handling, adjusting the level is much greater compared to conventional thermal power. The use of thermal storage devices can be added to achieve the storage and continuous power generation purposes. By analyzing the characteristics of solar thermal power, thermal power stations to light the key factors to analyze and simplify the modeling, combined with simulation model to analyze the cost of power generation solar thermal power plants and transmission lines to improve the utilization of the bene?ts.
W With solar thermal power technology gradually matures, its outstanding advantages are: solar thermal power generation steam turbine with good handling, adjusting the level is much greater compared to conventional thermal power. The use of thermal storage devices can be added to achieve the storage and continuous power generation purposes. By analyzing the characteristics of solar thermal power, thermal power stations to light the key factors to analyze and simplify the modeling, combined with simulation model to analyze the cost of power generation solar thermal power plants and transmission lines to improve the utilization of the bene?ts.
引文
[1]赵争鸣,刘建政,孙晓瑛,等.太阳能光伏发电及其应用[M].北京:科学出版社,2006.
[2]杨秀媛,刘小河,张芳,等.大型太阳能并网发电模型及应用[J].中国电机工程学报,2011,31(增刊1):19-22.
[3]鲍雪娜,张建成,徐明,等.基于混合储能的并网光伏电站有功分级控制策略[J].电力系统自动化,2013,37(1):115-121.
[4]THOMBARE D G,VERMA S K.Technological developme nt in the Stirling cycle engines[J].Renewableand Sustainable Energy Reviews,2008,12:1-38.
[5]王颖,张凯峰,附嘉渝,等.抑制风电爬坡率的风储联合优化控制方法[J].电力系统自动化,2013,37(13):17-23.
[6]冉立.再生能源发电系统接入电网时需要考虑的一些问题[J].西安交通大学学报,2003,37(8):771-777.
[7]ZAVADIL R,MILLER N,ELLIS A,et al.Making connectionswind generation facilities[J].IEEE Power and Energy Magazine,2005,3(6):26-37.
[8]THIRINGERT,PETRUT,LILJGREN C.Power quality impact ofa sea located hybrid wind park[J].IEEE Transactions on EnergyConversion,2001,16(2):123-127.
[9]张桂斌,徐政,王广柱.基于VSC的直流输电系统的稳态建模及其非线性控制[J].中国电机工程学报,2002,22(1):17-22.
[10]GEDEOND.Numerical advection errors in Stirlingcycle moda l analyses[C]//Proceedings of the Interso-ciety Energy Conversi on Engineering Conference,1984:1898-1904.
[11]D I N G G U O-l i a n g.R e c e n t d e v e l o p m e n t s i n s i m u l a t i o n t e c h n i q u e s f o r v a p o u rcompression refrigeration sys-tems[J].International Journal of Refrigeration,2007(30):1119-1133.
[12]JAMES E PACHECO.Final test and evaluation results from the solartwo project[R].SAND2002-0120 Livermo,CA:Sandia National Laboratories,2002.
[13]Adkins D R,Andraka C E,Moreno J B,et a1.Heat Pipe Solar Receiver Development Activities at Sandia National Laborato ries[A].Proceedings of the Renewable and Advanced Energy conference[c].Maui,HA,1999.
[14]冉然.并网风电场无功补偿策略研究.北京:华北电力大学,2011.
[15]汪海瑛.含大规模可再生能源的电力系统可靠性问题研究.武汉:华中科技大学,2012.
[2]杨秀媛,刘小河,张芳,等.大型太阳能并网发电模型及应用[J].中国电机工程学报,2011,31(增刊1):19-22.
[3]鲍雪娜,张建成,徐明,等.基于混合储能的并网光伏电站有功分级控制策略[J].电力系统自动化,2013,37(1):115-121.
[4]THOMBARE D G,VERMA S K.Technological developme nt in the Stirling cycle engines[J].Renewableand Sustainable Energy Reviews,2008,12:1-38.
[5]王颖,张凯峰,附嘉渝,等.抑制风电爬坡率的风储联合优化控制方法[J].电力系统自动化,2013,37(13):17-23.
[6]冉立.再生能源发电系统接入电网时需要考虑的一些问题[J].西安交通大学学报,2003,37(8):771-777.
[7]ZAVADIL R,MILLER N,ELLIS A,et al.Making connectionswind generation facilities[J].IEEE Power and Energy Magazine,2005,3(6):26-37.
[8]THIRINGERT,PETRUT,LILJGREN C.Power quality impact ofa sea located hybrid wind park[J].IEEE Transactions on EnergyConversion,2001,16(2):123-127.
[9]张桂斌,徐政,王广柱.基于VSC的直流输电系统的稳态建模及其非线性控制[J].中国电机工程学报,2002,22(1):17-22.
[10]GEDEOND.Numerical advection errors in Stirlingcycle moda l analyses[C]//Proceedings of the Interso-ciety Energy Conversi on Engineering Conference,1984:1898-1904.
[11]D I N G G U O-l i a n g.R e c e n t d e v e l o p m e n t s i n s i m u l a t i o n t e c h n i q u e s f o r v a p o u rcompression refrigeration sys-tems[J].International Journal of Refrigeration,2007(30):1119-1133.
[12]JAMES E PACHECO.Final test and evaluation results from the solartwo project[R].SAND2002-0120 Livermo,CA:Sandia National Laboratories,2002.
[13]Adkins D R,Andraka C E,Moreno J B,et a1.Heat Pipe Solar Receiver Development Activities at Sandia National Laborato ries[A].Proceedings of the Renewable and Advanced Energy conference[c].Maui,HA,1999.
[14]冉然.并网风电场无功补偿策略研究.北京:华北电力大学,2011.
[15]汪海瑛.含大规模可再生能源的电力系统可靠性问题研究.武汉:华中科技大学,2012.