河北沧县台拱带中、低温地热资源ORC发电与综合梯级利用
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摘要
京津冀地热资源梯级综合开发利用(献县)科研基地大地构造位置位于华北平原沧县台拱带之献县断凸,利用其地下蓟县系岩溶裂隙热储层热水开展中低温地热发电与综合梯级利用研究。地热发电装机容量280 kW,采用ORC向心透平膨胀技术,系统工质为R245fa。分别于2018年2月4—6日(冬季)、2018年3月6—16日(春季)进行两次试运行,累计发电时长274h,累计发电量36956kWh,平均发电效率9.1%,最高10.4%。发电效率高于我国已有中低温地热发电项目,在目前国际中低温ORC地热发电项目中处于较高水平。试运行期间发电机组整体运行效果较好且运行稳定,冬季地热发电机组运行效果好于春季。科研基地建设完成后,将进行发电、供暖、地热生态园三级利用,按照90~95/25℃的地热水热能潜力,综合发电供暖两级利用计算能源综合利用率将达70%~76%。
The geotectonic position of Beijing–Tianjin–Hebei Region research base(Xianxian county) is Xianxian county fault arch, formerly Cangxian County uplift, in North China Plain. The research base has studied medium-low temperature geothermal power generation and integrated cascade utilization by using the thermal water in Jxz karst fissures geothermal reservoir. The capacity of the geothermal power generation is 280 kW, ORC centripetal turbine technology is used, and the system working fluid is R245 fa. Two test runs were carried out on February 4–6(in winter) and March 6–16(in spring) of 2018. The cumulative power generation time was 274 hours, the cumulative power generation was 36 956 kWh, and the average power generation efficiency was 9.1%,with a maximum of 10.4%. The power generation efficiency is higher than that of China's existing low-temperature geothermal power generation projects, and is also at a relatively high level in the current international projects. The generator set worked well and stably during the test run. The geothermal generator operated better in winter than in spring. After the construction of the scientific research base, three levels of utilization of power generation, heating and geothermal ecological parks will be carried out. According to the thermal energy potential of geothermal water at 90~95/25 °C, the comprehensive utilization rate of the two-stage utilization of integrated power generation and heating will achieve 70%~76%.
The geotectonic position of Beijing–Tianjin–Hebei Region research base(Xianxian county) is Xianxian county fault arch, formerly Cangxian County uplift, in North China Plain. The research base has studied medium-low temperature geothermal power generation and integrated cascade utilization by using the thermal water in Jxz karst fissures geothermal reservoir. The capacity of the geothermal power generation is 280 kW, ORC centripetal turbine technology is used, and the system working fluid is R245 fa. Two test runs were carried out on February 4–6(in winter) and March 6–16(in spring) of 2018. The cumulative power generation time was 274 hours, the cumulative power generation was 36 956 kWh, and the average power generation efficiency was 9.1%,with a maximum of 10.4%. The power generation efficiency is higher than that of China's existing low-temperature geothermal power generation projects, and is also at a relatively high level in the current international projects. The generator set worked well and stably during the test run. The geothermal generator operated better in winter than in spring. After the construction of the scientific research base, three levels of utilization of power generation, heating and geothermal ecological parks will be carried out. According to the thermal energy potential of geothermal water at 90~95/25 °C, the comprehensive utilization rate of the two-stage utilization of integrated power generation and heating will achieve 70%~76%.
引文
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廖月芝,龚宇烈,刘国钦.2011.广东省丰顺县地热资源利用现状及开发模式探讨[J].中国人口·资源与环境,21:92-95.
刘凤钢,任舒平,张小强.2016.西藏羊易地热电站超大型螺杆膨胀发电机组应用研究[J].能源研究与管理,(01):58-61,70.
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王建永,王江峰,王红阳,戴义平,赵攀.2017.有机朗肯循环地热发电系统工质选择[J].工程热物理学报,38(1):11-17.
谢飞博,朱彤,高乃平.2016.冷源温度对小型ORC低温余热发电系统的影响[J].化工学报,67(10):4111-4117.
谢和平,昂然,李碧雄,邓建辉,莫思特,陈志禹,唐明静,尹聪.2018.基于热伏材料中低温地热发电原理与技术构想[J].工程科学与技术,50(02):1-12.
徐名捷,罗楚豪,李颂哲.1995.广东省丰顺县的地热资源及地热电站[J].太阳能学报,(01):121-124.
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AN Qing-song,WANG Yong-zhen,ZHAO Jun,LUO Chao,WANGYan.2016.Direct utilization status and power generation potential of low-medium temperature hydrothermal geothermal resources in Tianjin,China:A review[J].Geothermics,64:426-438.
GU Wei.2010.Theoretical and Experimental Study of Organic Rankine Cycle for Low and Medium Grade Heat Source Utilization[D].Shanghai:Shanghai Jiao Tong University(in Chinese with English abstract).
HETTIARACHCHI H D M,GOLUBOVIC M,WOREK W M,IKEGAMI Y.2007.Optimum design criteria for an organic Rankine cycle using low-temperature geothermal heat sources[J].Energy,32(9):1698-1706.
HOLDMANN G.2007.The Chena Hot Springs 400kW geothermal power plant:experience gained during the first year of operation[J].Geotherm Res Council Trans,31:515-9.
K?HLER S.2005.Analysis of the combined heat and power plant Neustadt-Glewe[C]//Proc.World Geothermal Congress,1309.
LI Ke-wen,BIAN Hui-yuan,LIU Chang-wei,ZHANG Dan-feng,YANG Ya-nan.2015.Comparison of geothermal with solar and wind power generation systems[J].Renewable and Sustainable Energy Reviews,42:1464-1474.
LIAO Yue-zhi,GONG Yu-lie,LIU Guo-qin.2011.Discussion on the present situation and development mode of geothermal resources utilization in Fengshun county,Guangdong province[J].China Population Resources and Environment,21:92-95(in Chinese).
LIU Feng-gang,REN Shu-ping,ZHANG Xiao-qiang.2016.Application of Very Large Screw Expansion Generator Units of Geothermal Power Plant in Yangyi,Tibet[J].Energy Research and Management,(01):58-61,70(in Chinese with English abstract).
LUND J W,BERTANI R,BOYD T.2015.Worldwide Geothermal Energy Utilization 2015[J].GRC Trans,39:79-92.
TCHANCHE B F,LAMBRINOS G,FRANGOUDAKIS A,PAPADAKIS G.2011.Low-grade heat conversion into power using organic Rankine cycles-A review of various applications[J].Renewable and Sustainable Energy Reviews,15(8):3963-3979.
WANG Gui-ling,ZHANG Wei,LIANG Ji-yun,LIN Wen-jing,LIUZhi-ming,WANG Wan-li.2017.Evaluation of Geothermal Resources Potential in China[J].Acta Geoscientica Sinica,38(4):449-459(in Chinese with English abstract).
WANG Jian-yong,WANG Jiang-feng,WANG Hong-yang,DAIYi-ping,ZHAO Pan.2017.Selection of Working Fluid for Organic Rankine Cycle Used in Geothermal Power Plant[J].Journal of Engineering Thermophysics,38(1):11-17(in Chinese with English abstract).
WEI Dong-hong,LU Xue-sheng,LU Zhen,GU Jian-ming.2007.Performance analysis and optimization ot organic ran-kine cycle(ORC)for waste heat recovery[J].Energy Conversion and Management,48(4):1113-1119.
XIE Fei-bo,ZHU Tong,GAO Nai-ping.2016.Effect of cold source temperature on power generation of small organic Rankine cycle system with low-grade waste heat[J].CIESCJournal,67(10):4111-4117(in Chinese with English abstract).
XIE He-ping,ANG Ran,LI Bi-xiong,DENG Jian-hui,MO Si-te,CHEN Zhi-yu,TANG Ming-jing,YIN Cong.2018.Principle and Technological Conception of Middle-low Temperature Geothermal Power Generation Based on Large-scale Single Crystals of Thermovoltaic Materials[J].Advanced Engineering Sciences,50(02):1-12(in Chinese with English abstract).
XU Ming-jie,LUO Chu-hao,LI Song-zhe.1995.Geothermal Resources and The Continuous Operation of Power Station for The Last Decade in Fengshun County,Guangdong Province[J].Acta Energiae Solaris Sinica,(01):121-124(in Chinese with English abstract).
YE Wei-nian.1994.Geothermal power stations in the central China power grid[J].Central China Electric Power,(04):65-66(in Chinese).
ZARROUK S J,MOON H.2014.Efficiency of geothermal power plants:A worldwide review[J].Geothermics,51:142-153.
ZHENG Ke-yan,PAN Xiao-ping.2009.Status and Prospect of Geothermal Generation Development in China[J].Sino-Global Energy,14(02):45-48(in Chinese with English abstract).
ZHOU Nian-hu.2005.A practical book on the exploitation and utilization of geothermal resources[M].Beijing:China Geological Science Publishing House(in Chinese).
廖月芝,龚宇烈,刘国钦.2011.广东省丰顺县地热资源利用现状及开发模式探讨[J].中国人口·资源与环境,21:92-95.
刘凤钢,任舒平,张小强.2016.西藏羊易地热电站超大型螺杆膨胀发电机组应用研究[J].能源研究与管理,(01):58-61,70.
王贵玲,张薇,梁继运,蔺文静,刘志明,王婉丽.2017.中国地热资源潜力评价[J].地球学报,38(4):449-459.
王建永,王江峰,王红阳,戴义平,赵攀.2017.有机朗肯循环地热发电系统工质选择[J].工程热物理学报,38(1):11-17.
谢飞博,朱彤,高乃平.2016.冷源温度对小型ORC低温余热发电系统的影响[J].化工学报,67(10):4111-4117.
谢和平,昂然,李碧雄,邓建辉,莫思特,陈志禹,唐明静,尹聪.2018.基于热伏材料中低温地热发电原理与技术构想[J].工程科学与技术,50(02):1-12.
徐名捷,罗楚豪,李颂哲.1995.广东省丰顺县的地热资源及地热电站[J].太阳能学报,(01):121-124.
叶慰年.1994.华中电网的地热电站[J].华中电力,(04):65-66.
郑克棪,潘小平.2009.中国地热发电开发现状与前景[J].中外能源,14(02):45-48.
周念沪.2005.地热资源开发利用实务全书[M].北京:中国地质科学出版社.
AN Qing-song,WANG Yong-zhen,ZHAO Jun,LUO Chao,WANGYan.2016.Direct utilization status and power generation potential of low-medium temperature hydrothermal geothermal resources in Tianjin,China:A review[J].Geothermics,64:426-438.
GU Wei.2010.Theoretical and Experimental Study of Organic Rankine Cycle for Low and Medium Grade Heat Source Utilization[D].Shanghai:Shanghai Jiao Tong University(in Chinese with English abstract).
HETTIARACHCHI H D M,GOLUBOVIC M,WOREK W M,IKEGAMI Y.2007.Optimum design criteria for an organic Rankine cycle using low-temperature geothermal heat sources[J].Energy,32(9):1698-1706.
HOLDMANN G.2007.The Chena Hot Springs 400kW geothermal power plant:experience gained during the first year of operation[J].Geotherm Res Council Trans,31:515-9.
K?HLER S.2005.Analysis of the combined heat and power plant Neustadt-Glewe[C]//Proc.World Geothermal Congress,1309.
LI Ke-wen,BIAN Hui-yuan,LIU Chang-wei,ZHANG Dan-feng,YANG Ya-nan.2015.Comparison of geothermal with solar and wind power generation systems[J].Renewable and Sustainable Energy Reviews,42:1464-1474.
LIAO Yue-zhi,GONG Yu-lie,LIU Guo-qin.2011.Discussion on the present situation and development mode of geothermal resources utilization in Fengshun county,Guangdong province[J].China Population Resources and Environment,21:92-95(in Chinese).
LIU Feng-gang,REN Shu-ping,ZHANG Xiao-qiang.2016.Application of Very Large Screw Expansion Generator Units of Geothermal Power Plant in Yangyi,Tibet[J].Energy Research and Management,(01):58-61,70(in Chinese with English abstract).
LUND J W,BERTANI R,BOYD T.2015.Worldwide Geothermal Energy Utilization 2015[J].GRC Trans,39:79-92.
TCHANCHE B F,LAMBRINOS G,FRANGOUDAKIS A,PAPADAKIS G.2011.Low-grade heat conversion into power using organic Rankine cycles-A review of various applications[J].Renewable and Sustainable Energy Reviews,15(8):3963-3979.
WANG Gui-ling,ZHANG Wei,LIANG Ji-yun,LIN Wen-jing,LIUZhi-ming,WANG Wan-li.2017.Evaluation of Geothermal Resources Potential in China[J].Acta Geoscientica Sinica,38(4):449-459(in Chinese with English abstract).
WANG Jian-yong,WANG Jiang-feng,WANG Hong-yang,DAIYi-ping,ZHAO Pan.2017.Selection of Working Fluid for Organic Rankine Cycle Used in Geothermal Power Plant[J].Journal of Engineering Thermophysics,38(1):11-17(in Chinese with English abstract).
WEI Dong-hong,LU Xue-sheng,LU Zhen,GU Jian-ming.2007.Performance analysis and optimization ot organic ran-kine cycle(ORC)for waste heat recovery[J].Energy Conversion and Management,48(4):1113-1119.
XIE Fei-bo,ZHU Tong,GAO Nai-ping.2016.Effect of cold source temperature on power generation of small organic Rankine cycle system with low-grade waste heat[J].CIESCJournal,67(10):4111-4117(in Chinese with English abstract).
XIE He-ping,ANG Ran,LI Bi-xiong,DENG Jian-hui,MO Si-te,CHEN Zhi-yu,TANG Ming-jing,YIN Cong.2018.Principle and Technological Conception of Middle-low Temperature Geothermal Power Generation Based on Large-scale Single Crystals of Thermovoltaic Materials[J].Advanced Engineering Sciences,50(02):1-12(in Chinese with English abstract).
XU Ming-jie,LUO Chu-hao,LI Song-zhe.1995.Geothermal Resources and The Continuous Operation of Power Station for The Last Decade in Fengshun County,Guangdong Province[J].Acta Energiae Solaris Sinica,(01):121-124(in Chinese with English abstract).
YE Wei-nian.1994.Geothermal power stations in the central China power grid[J].Central China Electric Power,(04):65-66(in Chinese).
ZARROUK S J,MOON H.2014.Efficiency of geothermal power plants:A worldwide review[J].Geothermics,51:142-153.
ZHENG Ke-yan,PAN Xiao-ping.2009.Status and Prospect of Geothermal Generation Development in China[J].Sino-Global Energy,14(02):45-48(in Chinese with English abstract).
ZHOU Nian-hu.2005.A practical book on the exploitation and utilization of geothermal resources[M].Beijing:China Geological Science Publishing House(in Chinese).
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