All Title Author
Keywords Abstract

热力发电  2015 

低品位能源发电系统研究进展

, PP. 8-13

Keywords: 低品位能源,发电系统,有机朗肯循环,有机工质,太阳能,光伏光热

Full-Text   Cite this paper   Add to My Lib

Abstract:

介绍了适用于低品位能源的有机朗肯循环余热发电、卡琳娜循环余热发电、温差发电、热声发电4种热发电形式的原理和特点,分析了有机朗肯循环工质对系统性能的影响和热声发电系统的转换效率,指出太阳能的综合利用具有良好的发展前景。提出了可有效利用太阳能的太阳能电池余热方案,即光伏光热联合发电的有机朗肯循环系统,该系统的两相升压装置将太阳能电池的余热转化为液轮机的电力输出,实现了将太阳能转化为电能的过程,提高了太阳能的综合利用率。

References

[1]  周然,韩吉田,于泽庭.基于太阳能卡琳娜循环的冷热电联供系统热力学分析[j].制冷技术,2013(3):13-15.zhouran,hanjitian,yuzeting.cchpsystembasedonthermodynamicanalysisofthesolarcyclekarina[j].refrigerationtechnology,2013(3):13-15.
[2]  赵建云,朱冬生,周泽广,等.温差发电技术的研究进展及现状[j].电源技术,2010(3):310-313.zhaojianyun,zhudongsheng,zhouzeguang,etal.researchprogressandpresentsituationoftemperaturedifferencepowergenerationtechnology[j].powertechnology,2010(3):310-313.
[3]  齐凤河,胡家旺,熊春宇.基于ltc3108的电焊热能收集转换装置的研究[j].大庆师范学院学报,2012(3):17-19.qifenghe,hujiawang,xiongchunyu.basedontheweldingheatcollectionltc3108conversiondevice[j].daqingnormaluniversity,2012(3):17-19.
[4]  潘玉灼,林比宏.结构参数与不可逆性对热电发电器性能的影响[j].泉州师范学院学报,2007,24(6):13-18.panyuzhuo,linbihong.structuralparametersandirreversibilityontheperformanceofthermoelectricgeneratoreffect[j].journalofquanzhounormalcollege,2007,24(6):13-18.
[5]  罗二仓.热声技术研究进展[j].中国基础科学,2007(4):14-15.luoercang.thermoacoustictechnologyresearchprogress[j].chinabasicscience,2007(4):14-15.
[6]  miglioria,swiftgw.liquid-sodiumthermoacousticengine[j].appliedphysicsletters,1988,53(5):355-357.
[7]  wuz,daiw,manm,etal.asolar-poweredtraveling-wavethermoacousticelectricitygenerator[j].solarenergy,2012,86(9):2376-2382.
[8]  wuz,manm,luoe,etal.experimentalinvestigationofa500wtraveling-wavethermoacousticelectricitygenerator[j].chinesesciencebulletin,2011,56(19):1975-1977.
[9]  sundm,wangk,zhangxj,etal.atraveling-wavethermoacousticelectricgeneratorwithavariableelectricrcload[j].appliedenergy,2013,106:377-382.
[10]  李银宾,谢海波,牛越,等.行波热声热机的理论与实验研究进展[j].真空与低温,2013(1):7-13.liyinbin,xiehaibo,niuyue,etal.theoreticalandexperimentalstudyprogressofthetravellingthermoacousticengine[j].vacuumandcryogenics,2013(1):7-13.
[11]  魏晨光,邓晓颖,刘正权,等.基于太阳能光伏热利用的光伏/热电(pv/tv)建筑一体化试验研究[j].可再生能源,2012,30(7):5-7.weichenguang,dengxiaoying,liuzhengquan,etal.basedonsolarheatutilizationofphotovoltaic/thermal(pv/tv)buildingintegratedexperimentalstudy[j].journalofrenewableenergy,2012,30(7):5-7.
[12]  陈润拓.光伏光热联合发电系统中的有机朗肯循环研究[d].南宁:广西大学,2014.chenruntuo.jointphotovoltaicsolar-thermalpowergenerationsystemoforganicrankinecirculationresearch[d].nanning:guangxiuniversity,2014.
[13]  袁晓红.汽车发动机尾气余热温差发电装置热电转换技术研究[d].武汉:武汉理工大学,2012.yuanxiaohong.automobileengineexhaustheatthermoelectricpowergenerationunitthermoelectricconversiontechnicalresearch[d].wuhan:wuhanuniversityoftechnology,2012.
[14]  任德鹏,贾阳.温差发电器工作特性的数值研究[j].航天器工程,2008,17(4):56-61.rendepeng,jiayang.temperaturedifferencegeneratoroperatingcharacteristicsofthenumericalstudy[j].journalofspacecraftengineering,2008,17(4):56-61.
[15]  罗二仓,吴张华,戴巍,等.百瓦级行波热声发电机实验样机研究[j].科学通报,2008,52(23):2818-2820.luoercang,wuzhanghua,daiwei,etal.theclasstravelling-wavethermoacousticgeneratorprototypestudy[j].chinesesciencebulletin,2008,52(23):2818-2820.
[16]  backhauss,twarde,petachm.traveling-wavethermoacousticelectricgenerator[j].appliedphysicsletters,2004,85(6):1085-1087.
[17]  吴张华,罗二仓,李海冰,等.1kw碟式太阳能行波热声发电系统[j].工程热物理学报,2012,33(1):19-22.wuzhanghua,luoercang,lihaibing,etal.1kwdisctypesolarpowertravellingwavethermoacousticsystem[j].journalofengineeringthermohysics,2012,33(1):19-22.
[18]  deblokk,systemenat.multi-stagetravelingwavethermoacousticsinpractice[c].19thinternationalcongressonsoundandvibration.vilnius,lithuania:internationalinstituteofacousticsandvibration(iiav)andvilniusuniversity,2012.
[19]  梅映新,李志,夏焕锦.低品位热能回收发电应用研究[j].船电技术,2012,32(8):1-3.meiyingxin,lizhi,xiahuanjin.lowgradeheatrecoverypowergenerationapplications[j].marineelectrictechnology,2012,32(8):1-3.
[20]  王书鹏,李建新.温差发电技术在低品位热能中的应用研究[j].宁波节能,2009(4):14-17.wangshupeng,lijianxin.applicationofthermoelectricpowergenerationtechnologyinthelow-gradeheat[j].ningbosaving,2009(4):14-17.
[21]  张传强,洪慧,金红光.聚光式太阳能热发电技术发展状况[j].热力发电,2010,39(12):5-9.zhangchuanqiang,honghui,jinhongguang.concentratedsolarthermalpowergenerationtechnologydevelopment[j].thermalpowergeneration,2010,39(12):5-9.
[22]  顾伟.低品位热能有机物朗肯动力循环机理研究和实验验证[d].上海:上海交通大学,2010.guwei.lowgradethermalenergyorganicrankinepowercyclemechanismresearchandexperiment[d].shanghai:shanghaijiaotonguniversity,2010.
[23]  冯惠生,徐菲菲,刘叶凤,等.工业过程余热回收利用技术研究进展[j].化学工业与工程,2012,29(1):57-64.fenghuisheng,xufeifei,liuyefeng,etal.researchprogressprocessofindustrialwasteheatrecyclingtechnology[j].journalofchemicalindustryandengineering,2012,29(1):57-64.
[24]  朱江,鹿院卫,马重芳,等.低温地热有机朗肯循环(orc)工质选择[j].可再生能源,2009,27(2):76-79.zhujiang,luyuanwei,machongfang,etal.lowtemperaturegeothermalorganicrankine'scycle(orc)workingmediumselection[j].journalofrenewableenergy,2009,27(2):76-79.
[25]  lakewaa,bollando.workingfluidsforlow-temperatureheatsource[j].appliedthermalengineering,2010,30(10):1262-1268.
[26]  magopj,chamralm,somayajic.performanceanalysisofdifferentworkingfluidsforuseinorganicrankinecycles[j].proceedingsoftheinstitutionofmechanicalengineers,parta:journalofpowerandenergy,2007,221(3):255-263.
[27]  drescheru,brüggemannd.fluidselectionfortheorganicrankinecycle(orc)inbiomasspowerandheatplants[j].appliedthermalengineering,2007,27(1):223-228.
[28]  tchanchebf,papadakisg,lambrinosg,etal.fluidselectionforalow-temperaturesolarorganicrankinecycle[j].appliedthermalengineering,2009,29(11/12):2468-2476.
[29]  salehb,koglbauerg,wendlandm,etal.workingfluidsforlow-temperatureorganicrankinecycles[j].energy,2007,32(7):1210-1221.
[30]  chenh,goswamidy,stefanakosek.areviewofthermodynamiccyclesandworkingfluidsfortheconversionoflow-gradeheat[j].renewableandsustainableenergyreviews,2010,14(9):3059-3067.
[31]  wangjl,zhaol,wangxd.acomparativestudyofpureandzeotropicmixturesinlow-temperaturesolarrankinecycle[j].appliedenergy,2010,87(11):3366-3373.
[32]  罗琪,翁一武,顾伟.抽汽回热式有机工质发电系统的热力特性分析[j].现代电力,2009(6):39-44.luoqi,wengyiwu,guwei.extractionregenerativethermalcharacteristicsanalysisoforganicworkingmediumpowersystems[j].journalofmodernelectricpower,2009(6):39-44.
[33]  连红奎,李艳,束光阳子,等.我国工业余热回收利用技术综述[j].节能技术,2011(2):123-128.lianhongkui,liyan,suguanyangzi.theoverviewofindustrialwasteheatrecoveryandusingtechnology[j].energy-savingtechnologies,2011(2):123-128.

Full-Text

comments powered by Disqus