风能与其他能源互补发电系统研究综述
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摘要
介绍了近年来国内外风能与其他能源互补发电系统研究进展,阐述了风能-太阳能互补、风能-水能互补和风能-燃气轮机等互补发电系统的技术特点。通过国内新疆和内蒙古两地以及国外美国和欧洲风能与其他能源互补系统应用情况和发展前景的比较,分析了风能互补发电技术相对于传统风能发电技术所具有的优势,同时也阐明了各项技术需要因地制宜才能取得良好节能效果的应用原则。指出了目前除了风光互补系统发电技术相对成熟外,其余的互补系统仍处于尝试阶段,有待进一步模拟分析和优化设计。
The research focuses on the development progress of hybrid power system driven by wind power and other energies,which introduces the technical features of hybrid power supply system driven by wind-solar,wind-hydro and wind-gas turbine.. Through the comparisons of application situation and development prospect of this power generation technology in Xinjiang and Inner Mongolia as well as in America and Europe,the article finds out that the hybrid power system has much more advantages than traditional system. Moreover,the application of this technology in a suitable situation can obtain much more energy-saving benefits. All in all,only wind-solar hybrid system is available to be effectively used at present. The other systems are still on the testing stage and need further simulation analysis and optimization design to improve their utilization efficiency.
The research focuses on the development progress of hybrid power system driven by wind power and other energies,which introduces the technical features of hybrid power supply system driven by wind-solar,wind-hydro and wind-gas turbine.. Through the comparisons of application situation and development prospect of this power generation technology in Xinjiang and Inner Mongolia as well as in America and Europe,the article finds out that the hybrid power system has much more advantages than traditional system. Moreover,the application of this technology in a suitable situation can obtain much more energy-saving benefits. All in all,only wind-solar hybrid system is available to be effectively used at present. The other systems are still on the testing stage and need further simulation analysis and optimization design to improve their utilization efficiency.
引文
[1]佚名.World Wind Power Capacity&an Idea.http://cleantechnica.com/.
[2]沈从举,贾首星,汤智辉,等.风光互补发电系统在农村的推广应用[J].机械研究与应用,2013(2):86~88.
[3]扁旭涛.风光互补供电系统的运行与应用分析[J].城市建设理论研究,2012(5).
[4]晁勤,陈江.风电-水电互补电力系统潮流计算[J].新疆工学院学报,2000,21(2):90~94.
[5]谭果林,刘彦,潘毅.加强水-风两种电力资源[J].产业观察,2003(6).
[6]包能胜,蔡佳炜,倪维斗.风电与燃气轮机互补发电系统发电特性分析[J].沈阳工业大学学报,2006,28(6):675~680.
[7]包能胜,倪维斗.解决新疆风能资源大规模开发瓶颈的探讨[J].研究与探讨,2006,28(1):24~29.
[8]成润奕.新疆户用风/光互补供电、汲水、供热综合利用系数应用探索[C]//中国水利学会.2003学术年会论文集.北京:化工出版社,2003.
[9]李斌,孟令达.风光互补独立供电系统在实际工程中的应用[J].城市建设理论研究,2012(7).
[10]沈从举,贾首星,汤智辉,等.小型风光互补发电系统在兵团的应用前景[J].开发研究,2012(4):5~7.
[11]孙俨.风能、太阳能互补供电型基站的应用[J].通信电源技术,2011,28(4):33~37.
[12]胡翠华,王侃宏.北疆地区风光互补发电最佳配比方案的研究[J].节能,2013,32(1):69~72.
[13]谢生清.小型风光互补发电系统的研究与应用[J].小型风光互补发电系统的研究与应用,2011(23).
[14]周先民.对新疆风光互补发电前景的展望[J].应用科技,2011(6).
[15]于午铭,蔡万文,王习红,等.构建阿勒泰地区水电-风电互补系统[J].新疆电力,1999(30):1~6.
[16]包能胜,刘军峰,倪维斗,等.新疆达坂城风电场风能资源特性分析[J].太阳能学报,2006,27(11):1073~1077.
[17]包能胜,朱瑞丹,倪维斗.风电与燃气轮机互补发电系统发电成本分析[J].燃气轮机技术,2006,19(4):1~5.
[18]包能胜,胡光旺,倪维斗.风电与燃气轮机发电互补系统结构与容量配比的研究[J].太阳能学报,2007,28(2):189~195.
[19]华嵩.巴彦淖尔地区风电的合理运行研究[D].天津:天津大学,2011.
[20]佟小林,乌兰,王超,等.内蒙古地区风能、太阳能资源互补性分析[J].内蒙古气象,2009(3):32~33.
[21]彭军,李丹,王清成,等.户用型可再生能源发电系统在苏尼特右旗应用的调查分析[J].农业工程学报,2008,24(9):193~198.
[22]崔啸鸣,乔燕军,韩晓磊.小型风光互补发电系统匹配方式的研究[J].科技信息,2011(25):368~369.
[23]陈松利,田德,孙云峰,等.离网型户用风光互补发电系统的匹配[J].吉林大学学报:工学版,2012,42(4):882~886.
[24]张峻岭,殷建英,王文军.鄂尔多斯新能源产业示范区的风光互补最优容量匹配[J].电力与能源,2011,32(3):224~227.
[25]苏龙嘎.内蒙古锡林郭勒盟农牧区移动式风光互补发电系统应用[J].农业工程,2012,2(5):27~29.
[26]佚名.内蒙古锡林郭勒盟西北部家用案例[EB/OL].http://www.gzgreenpower.com/gcal/1501.ht m L.
[27]马宏霞.包头市垃圾填埋场节能方案分析[J].山西建筑,2012,38(4):226~227.
[28]马勇.基站风光互补供电系统-设计思路、推广应用情况[J].供电系统,2010(11).
[29]佚名.内蒙古通信基站[EB/OL].http://www.chinawindenergy.com/cate-21/detail-40.ht m L.
[30]赵毅峰.二连浩特风光互补城市供电示范项目可行性研究[D].呼和浩特:内蒙古大学,2011.
[31]白学敏,无双群.清洁能源发电系统多能互补匹配计算[J].农村牧区机械化,2013(1):53~57.
[32]李文慧,田德,王海宽,等.风光互补发电系统优化配置及应用[J].农村牧区机械化,2009(6):40~43.
[33]佚名.First wind/current power system to be installed off Japanese Coast later this year[EB/OL].[2013-05-24]http://cleantechnica.com/2013/05/24/first-wind-current-power-system-to-be-installed-off-japanese-coast-later-this-year/.
[34]minna Ranjeva,Anil K.Kulkarni.Design optimization of a hybrid,small,decentralized power plant for remote/rural areas[J].Energy Procedia,2013(20):258~270.
[35]佚名.U.S.wind energy:state maps&rankings[EB/OL].http://awea.rd.net/resources/statefactsheets.aspx?itemnumber=890.
[36]佚名.American wind energy grows 28%and installs 45,100 turbines[EB/OL].http://cleantechnica.com/2013/04/16/american-wind-energy-grows-28-and-installs-45100-turbines/.
[37]Brian D Vick,Tim A Moss.Adding concentrated solar power plants to wind farms to achieve a good utility electrical load match[J].Solar Energy,2013(92):298-312.
[38]J P Reichling,F A Kulacki.Utility scale hybrid wind-solar thermal electrical generation:A case study for minnesota[J].Energy,2008(33):626~638.
[39]Ginny Fay,Nataliya Udovyk.Factors influencing success of winddiesel hybrid systems in remote Alaska co mmunities:Results of an informal survey[J].Renewable Energy,2013(57):554~557.
[40]Wilson JH,Beyene A.California wave energy resource evalution[J].Journal of Coastal Research,2007,23(3):679~690.
[41]Eric D.Stoutenburg,Nicholas Jenkins,Mark Z.Jacobson.Power output variations of co-located offshore wind turbines and wave energy converters in California[J].Renewable Energy,2010,35:2781~2791.
[42]佚名.世界风能资源分布[EB/OL].http://www.doc88.com/p-909534288336.ht m L.
[43]S.Diaf,G.Notton,M Belhamel,et al.Design and techno-economical optimization for hybrid PV/wind system under various meteorogical conditions[J].Applied Energy,2008(85):968~987.
[44]M Calderón,A J Calderón,A Ramiro,et al.Weather data and energy balance of a hybrid photovoltaic-wind system with hydrogen storage[J].International Journal of Hydrogen Energy,2010(35):7706~7715.
[45]包能胜,徐军平,倪维斗.以大型风电场为核心的多能源互补发电系统[J].中国能源,2006,28(8):29~33.
[46]F Gutiérrz-Martín,D Confente,I Guerra.Management of variable electricity loads in wind-Hydrogen systems:The case of a Spanish wind farm[J].International Journal of Hydrogen Energy,2010(35):7329~7336.
[47]Tao Zhou,Bruno Francois.Modeling and control design of hydrogen production process for an active hydrogen/wind hybrid power system[J].International Journal of Hydrogen Energy,2009(34):21~30.
[48]A Pérez-Navarro,D Alfonso,Clvarez,et al.Hybrid biomasswind power plant for reliable energy generation[J].Renewable Energy,2010(35):1436~1443.
[2]沈从举,贾首星,汤智辉,等.风光互补发电系统在农村的推广应用[J].机械研究与应用,2013(2):86~88.
[3]扁旭涛.风光互补供电系统的运行与应用分析[J].城市建设理论研究,2012(5).
[4]晁勤,陈江.风电-水电互补电力系统潮流计算[J].新疆工学院学报,2000,21(2):90~94.
[5]谭果林,刘彦,潘毅.加强水-风两种电力资源[J].产业观察,2003(6).
[6]包能胜,蔡佳炜,倪维斗.风电与燃气轮机互补发电系统发电特性分析[J].沈阳工业大学学报,2006,28(6):675~680.
[7]包能胜,倪维斗.解决新疆风能资源大规模开发瓶颈的探讨[J].研究与探讨,2006,28(1):24~29.
[8]成润奕.新疆户用风/光互补供电、汲水、供热综合利用系数应用探索[C]//中国水利学会.2003学术年会论文集.北京:化工出版社,2003.
[9]李斌,孟令达.风光互补独立供电系统在实际工程中的应用[J].城市建设理论研究,2012(7).
[10]沈从举,贾首星,汤智辉,等.小型风光互补发电系统在兵团的应用前景[J].开发研究,2012(4):5~7.
[11]孙俨.风能、太阳能互补供电型基站的应用[J].通信电源技术,2011,28(4):33~37.
[12]胡翠华,王侃宏.北疆地区风光互补发电最佳配比方案的研究[J].节能,2013,32(1):69~72.
[13]谢生清.小型风光互补发电系统的研究与应用[J].小型风光互补发电系统的研究与应用,2011(23).
[14]周先民.对新疆风光互补发电前景的展望[J].应用科技,2011(6).
[15]于午铭,蔡万文,王习红,等.构建阿勒泰地区水电-风电互补系统[J].新疆电力,1999(30):1~6.
[16]包能胜,刘军峰,倪维斗,等.新疆达坂城风电场风能资源特性分析[J].太阳能学报,2006,27(11):1073~1077.
[17]包能胜,朱瑞丹,倪维斗.风电与燃气轮机互补发电系统发电成本分析[J].燃气轮机技术,2006,19(4):1~5.
[18]包能胜,胡光旺,倪维斗.风电与燃气轮机发电互补系统结构与容量配比的研究[J].太阳能学报,2007,28(2):189~195.
[19]华嵩.巴彦淖尔地区风电的合理运行研究[D].天津:天津大学,2011.
[20]佟小林,乌兰,王超,等.内蒙古地区风能、太阳能资源互补性分析[J].内蒙古气象,2009(3):32~33.
[21]彭军,李丹,王清成,等.户用型可再生能源发电系统在苏尼特右旗应用的调查分析[J].农业工程学报,2008,24(9):193~198.
[22]崔啸鸣,乔燕军,韩晓磊.小型风光互补发电系统匹配方式的研究[J].科技信息,2011(25):368~369.
[23]陈松利,田德,孙云峰,等.离网型户用风光互补发电系统的匹配[J].吉林大学学报:工学版,2012,42(4):882~886.
[24]张峻岭,殷建英,王文军.鄂尔多斯新能源产业示范区的风光互补最优容量匹配[J].电力与能源,2011,32(3):224~227.
[25]苏龙嘎.内蒙古锡林郭勒盟农牧区移动式风光互补发电系统应用[J].农业工程,2012,2(5):27~29.
[26]佚名.内蒙古锡林郭勒盟西北部家用案例[EB/OL].http://www.gzgreenpower.com/gcal/1501.ht m L.
[27]马宏霞.包头市垃圾填埋场节能方案分析[J].山西建筑,2012,38(4):226~227.
[28]马勇.基站风光互补供电系统-设计思路、推广应用情况[J].供电系统,2010(11).
[29]佚名.内蒙古通信基站[EB/OL].http://www.chinawindenergy.com/cate-21/detail-40.ht m L.
[30]赵毅峰.二连浩特风光互补城市供电示范项目可行性研究[D].呼和浩特:内蒙古大学,2011.
[31]白学敏,无双群.清洁能源发电系统多能互补匹配计算[J].农村牧区机械化,2013(1):53~57.
[32]李文慧,田德,王海宽,等.风光互补发电系统优化配置及应用[J].农村牧区机械化,2009(6):40~43.
[33]佚名.First wind/current power system to be installed off Japanese Coast later this year[EB/OL].[2013-05-24]http://cleantechnica.com/2013/05/24/first-wind-current-power-system-to-be-installed-off-japanese-coast-later-this-year/.
[34]minna Ranjeva,Anil K.Kulkarni.Design optimization of a hybrid,small,decentralized power plant for remote/rural areas[J].Energy Procedia,2013(20):258~270.
[35]佚名.U.S.wind energy:state maps&rankings[EB/OL].http://awea.rd.net/resources/statefactsheets.aspx?itemnumber=890.
[36]佚名.American wind energy grows 28%and installs 45,100 turbines[EB/OL].http://cleantechnica.com/2013/04/16/american-wind-energy-grows-28-and-installs-45100-turbines/.
[37]Brian D Vick,Tim A Moss.Adding concentrated solar power plants to wind farms to achieve a good utility electrical load match[J].Solar Energy,2013(92):298-312.
[38]J P Reichling,F A Kulacki.Utility scale hybrid wind-solar thermal electrical generation:A case study for minnesota[J].Energy,2008(33):626~638.
[39]Ginny Fay,Nataliya Udovyk.Factors influencing success of winddiesel hybrid systems in remote Alaska co mmunities:Results of an informal survey[J].Renewable Energy,2013(57):554~557.
[40]Wilson JH,Beyene A.California wave energy resource evalution[J].Journal of Coastal Research,2007,23(3):679~690.
[41]Eric D.Stoutenburg,Nicholas Jenkins,Mark Z.Jacobson.Power output variations of co-located offshore wind turbines and wave energy converters in California[J].Renewable Energy,2010,35:2781~2791.
[42]佚名.世界风能资源分布[EB/OL].http://www.doc88.com/p-909534288336.ht m L.
[43]S.Diaf,G.Notton,M Belhamel,et al.Design and techno-economical optimization for hybrid PV/wind system under various meteorogical conditions[J].Applied Energy,2008(85):968~987.
[44]M Calderón,A J Calderón,A Ramiro,et al.Weather data and energy balance of a hybrid photovoltaic-wind system with hydrogen storage[J].International Journal of Hydrogen Energy,2010(35):7706~7715.
[45]包能胜,徐军平,倪维斗.以大型风电场为核心的多能源互补发电系统[J].中国能源,2006,28(8):29~33.
[46]F Gutiérrz-Martín,D Confente,I Guerra.Management of variable electricity loads in wind-Hydrogen systems:The case of a Spanish wind farm[J].International Journal of Hydrogen Energy,2010(35):7329~7336.
[47]Tao Zhou,Bruno Francois.Modeling and control design of hydrogen production process for an active hydrogen/wind hybrid power system[J].International Journal of Hydrogen Energy,2009(34):21~30.
[48]A Pérez-Navarro,D Alfonso,Clvarez,et al.Hybrid biomasswind power plant for reliable energy generation[J].Renewable Energy,2010(35):1436~1443.