农业工程能源互联网发展展望
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摘要
我国是农业大国,农业方面的用电用能或产电产能都具有潜力。农业工程能源互联网是在能源互联网的基础上,将现有农业工程中的用电用能或产电产能引入能源互联网技术,是当前国内外产业界和学术界关注的焦点。介绍了农业工程能源互联网的相关概念及其产生背景,梳理了农业工程能源互联网国内外发展现状,分析了日后农业工程能源互联网发展趋势。农业工程能源互联网的发展不仅能够减少当前世界各国对化石能源的依赖,还可以节约资源,保护环境,促进世界各国农业的进一步发展。
China is a large agricultural country, and there is a certain potential in the use of electricity or the production capacity of electricity in agriculture. The agricultural engineering energy Internet refers to the use or the production of electricity in existy agricultural projects on the basis of the energy Internet, which is the focus of current domestic and foreign industries and academic circles.Therelatedconceptsandbackgroundofagriculturalengineeringenergy Internet is introduced, the development status of agricultural engineering energy Internet at home and abroad is sorted out, and the development trend of agricultural engineering energy Internet in the future is analyzed.The development of agricultural engineering energy Internet can not only reduce the current world's dependence on fossil energy, but also save resources, protect the environment, and promote the further development of the world's agriculture. As the concept of energy conservation and emission reduction is deeply rooted in the hearts of the people, the agricultural engineeringenergyInternetwillsurelyflourishinthefuture.
China is a large agricultural country, and there is a certain potential in the use of electricity or the production capacity of electricity in agriculture. The agricultural engineering energy Internet refers to the use or the production of electricity in existy agricultural projects on the basis of the energy Internet, which is the focus of current domestic and foreign industries and academic circles.Therelatedconceptsandbackgroundofagriculturalengineeringenergy Internet is introduced, the development status of agricultural engineering energy Internet at home and abroad is sorted out, and the development trend of agricultural engineering energy Internet in the future is analyzed.The development of agricultural engineering energy Internet can not only reduce the current world's dependence on fossil energy, but also save resources, protect the environment, and promote the further development of the world's agriculture. As the concept of energy conservation and emission reduction is deeply rooted in the hearts of the people, the agricultural engineeringenergyInternetwillsurelyflourishinthefuture.
引文
[1]李可.农村地区秸秆-太阳能-沼气循环利用技术[J].农业工程,2018,8(6):71-73.LI Ke. Recycling utilization technology of straw, solar energy and biogas in rural areas[J]. Agricultural Engineering, 2018, 8(6):71-73.
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[3]王瑞雪,郭小英.光伏设施农业滴灌技术研究[J].产业创新研究,2018(3):108-110.WANG Ruixue, GUO Xiaoying. Industrial research on agricultural drip irrigation technology for photovoltaic facilities[J]. Innovation, 2018(3):108-110.
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[7]贾宏杰,穆云飞,余晓丹.对我国综合能源系统发展的思考[J].电力建设,2015,36(1):16-25.JIA Hongjie, MU Yunfei, YU Xiaodan. Thought about the integrated energy system in China[J]. Electric Power Construction,2015,36(1):16-25.
[8] ZHI H J, JIAN H, WEN Z L, et al. Energy Internet-a new driving force for sustainable urban development[J]. Energy Procedia, 2018, 152(10):1 206-1 211.
[9] MONLAU F, SAMBUSITI C, ANTONIOU N, et al. A new concept for enhancing energy recovery from agricultural residuesbycouplinganaerobicdigestionandpyrolysisprocess[J].AppliedEnergy,2015,148(3):32-38.
[10] RAVI S, MACKNICK J, LOBELL D, et al. Colocation opportunities for large solar infrastructures and agriculture in drylands[J]. Applied energy, 2016, 165:383-392.
[11] SONG J, YANG W, HIGANO Y, et al. Dynamic integrated assessment of bioenergy technologies for energy production utilizing agricultural residues:An input-output approach[J]. Applied energy, 2015, 158:178-189.
[12] PUIG-ARNAVAT M, BRUNO J C, CORONAS A. Modeling of trigeneration configurations based on biomass gasification and comparison of performance[J]. Appl Energy,2014,114:845-56.
[13] FARRELL E, HASSAN M I, TUFA R A, et al. Reverse electrodialysis powered greenhouse concept for waterand energy-self-sufficient agriculture[J]. Applied Energy, 2017, 187:390-409.
[14] LIU G W, LU Q, ZENG R, et al. Energy Internet in China[M]. London:Woodhead Publishing, 2019, 265-282.
[15]蒋大华,孙康泰,亓伟,等.我国生物质发电产业现状及建议[J].可再生能源,2014,32(4):542-546.JIANG Dahua, SUN Kangtai, QI Wei, et al. Development of biomass power generation industry and suggestions in China[J]. Renewable Energy Resources, 2014,32(4):542-546.
[16]朱永迪.光伏发电技术在设施农业中应用的关键问题研究[J].农业机械,2018(8):113-115.ZHUYongdi.Researchonkeyissuesofphotovoltaicpower generation technology in facility agriculture[J]. Farm Machinery,2018(8):113-115.
[17]隋猛,李法社,苏有勇.分布式能源系统在农业循环经济中的应用研究[J].农业工程学报,2018,34(Z1):181-185.SUI Meng, LI Fashe, SU Youyong. Application of distributed energy system in agricultural circular economy[J].Transactions of the Chinese Society of Agricultural Engineering, 2018, 34(Z1):181-185.
[18]王维洲,刘福潮,杨建华,等.基于可时移农业负荷的光伏智慧农业大棚微型能源网优化调度[J].中国农业大学学报,2018,23(6):160-168.WANG Weizhou, LIU Fuchao, YANG Jianhua, et al. Optimization of the micro energy grid of PV intelligent agricultural greenhouse based on time-shifting agricultural load[J]. Journal of China Agricultural University, 2018,23(6):160-168.
[19]张鹏,陈强,肖令禄.农业光伏发电系统局部阴影条件下的建模与输出特性[J].江苏农业科学,2018,46(23):249-252.ZHANG Peng, CHEN Qiang, XIAO Linglu. Modeling and output characteristics of agriculture PV power system under partial shading[J]. Jiangsu Agricultural Sciences,2018,46(23):249-252.
[20] LIU T, MCCONKEY B, HUFFMAN T, et al. Potential and impacts of renewable energy production from agricultural biomass in Canada[J]. Applied energy, 2014,130:222-229.
[21]向驰,徐鸥洋,王福润,等.分布式户用光伏对农村配电台区电压质量的影响与消纳措施[J].智能电网,2016,4(10):1 040-1 045.XIANG Chi, XU Ouyang, WANG Furun, et al. Influence of distributed residential PV systems on voltage quality of rural power distribution area and its accommodation measure[J].SmartGrid,2016,4(10):1040-1045.
[22]唐巍,白牧可.农村电网电压降落的影响因素分析[J].供用电,2016,33(7):2-7.TANG Wei, BAI Muke. Analysis of effect factors of voltage drop in rural power network[J]. Distribution&Utilization, 2016, 33(7):2-7.
[2]王立舒,徐子哲,贾棋然,等.农业温室太阳能供电系统最大功率点跟踪算法设计[J].农机化研究,2018,40(1):234-240.WANG Lishu, XU Zizhe, JIA Qiran, et al. MPPT algorithm design of agriculturalgreenhouse solar power supply system[J]. Journal of Agricultural Mechanization Research, 2018, 40(1):234-240.
[3]王瑞雪,郭小英.光伏设施农业滴灌技术研究[J].产业创新研究,2018(3):108-110.WANG Ruixue, GUO Xiaoying. Industrial research on agricultural drip irrigation technology for photovoltaic facilities[J]. Innovation, 2018(3):108-110.
[4]吴帆.双轴智能光电互补农业大棚控制系统的设计[J].江苏农业学,2018,46(12):169-172.WU Fan. Design of two-axis intelligent photoelectric complementary agricultural greenhouse control system[J]. Jiangsu Agricultural Sciences,2018,46(12):169-172.
[5]孙宏斌,郭庆来,潘昭光,等.能源互联网:驱动力、评述与展望[J].电网技术,2015,39(11):3 005-3 013.SUN Hongbin, GUO Qinglai, PAN Zhaoguang, et al. Energy Internet:driving force, review and outlook[J]. Power System Technology,2015,39(11):3 005-3 013.
[6]孙宏斌,郭庆来,潘昭光.能源互联网:理念、架构与前沿展望[J].电力系统自动化,2015,39(19):1-8.SUN Hongbin, GUO Qinglai, PAN Zhaoguang. Energy Internet:concept,architecture and frontier outlook[J]. Automation of Electric Power Systems, 2015, 39(19):1-8.
[7]贾宏杰,穆云飞,余晓丹.对我国综合能源系统发展的思考[J].电力建设,2015,36(1):16-25.JIA Hongjie, MU Yunfei, YU Xiaodan. Thought about the integrated energy system in China[J]. Electric Power Construction,2015,36(1):16-25.
[8] ZHI H J, JIAN H, WEN Z L, et al. Energy Internet-a new driving force for sustainable urban development[J]. Energy Procedia, 2018, 152(10):1 206-1 211.
[9] MONLAU F, SAMBUSITI C, ANTONIOU N, et al. A new concept for enhancing energy recovery from agricultural residuesbycouplinganaerobicdigestionandpyrolysisprocess[J].AppliedEnergy,2015,148(3):32-38.
[10] RAVI S, MACKNICK J, LOBELL D, et al. Colocation opportunities for large solar infrastructures and agriculture in drylands[J]. Applied energy, 2016, 165:383-392.
[11] SONG J, YANG W, HIGANO Y, et al. Dynamic integrated assessment of bioenergy technologies for energy production utilizing agricultural residues:An input-output approach[J]. Applied energy, 2015, 158:178-189.
[12] PUIG-ARNAVAT M, BRUNO J C, CORONAS A. Modeling of trigeneration configurations based on biomass gasification and comparison of performance[J]. Appl Energy,2014,114:845-56.
[13] FARRELL E, HASSAN M I, TUFA R A, et al. Reverse electrodialysis powered greenhouse concept for waterand energy-self-sufficient agriculture[J]. Applied Energy, 2017, 187:390-409.
[14] LIU G W, LU Q, ZENG R, et al. Energy Internet in China[M]. London:Woodhead Publishing, 2019, 265-282.
[15]蒋大华,孙康泰,亓伟,等.我国生物质发电产业现状及建议[J].可再生能源,2014,32(4):542-546.JIANG Dahua, SUN Kangtai, QI Wei, et al. Development of biomass power generation industry and suggestions in China[J]. Renewable Energy Resources, 2014,32(4):542-546.
[16]朱永迪.光伏发电技术在设施农业中应用的关键问题研究[J].农业机械,2018(8):113-115.ZHUYongdi.Researchonkeyissuesofphotovoltaicpower generation technology in facility agriculture[J]. Farm Machinery,2018(8):113-115.
[17]隋猛,李法社,苏有勇.分布式能源系统在农业循环经济中的应用研究[J].农业工程学报,2018,34(Z1):181-185.SUI Meng, LI Fashe, SU Youyong. Application of distributed energy system in agricultural circular economy[J].Transactions of the Chinese Society of Agricultural Engineering, 2018, 34(Z1):181-185.
[18]王维洲,刘福潮,杨建华,等.基于可时移农业负荷的光伏智慧农业大棚微型能源网优化调度[J].中国农业大学学报,2018,23(6):160-168.WANG Weizhou, LIU Fuchao, YANG Jianhua, et al. Optimization of the micro energy grid of PV intelligent agricultural greenhouse based on time-shifting agricultural load[J]. Journal of China Agricultural University, 2018,23(6):160-168.
[19]张鹏,陈强,肖令禄.农业光伏发电系统局部阴影条件下的建模与输出特性[J].江苏农业科学,2018,46(23):249-252.ZHANG Peng, CHEN Qiang, XIAO Linglu. Modeling and output characteristics of agriculture PV power system under partial shading[J]. Jiangsu Agricultural Sciences,2018,46(23):249-252.
[20] LIU T, MCCONKEY B, HUFFMAN T, et al. Potential and impacts of renewable energy production from agricultural biomass in Canada[J]. Applied energy, 2014,130:222-229.
[21]向驰,徐鸥洋,王福润,等.分布式户用光伏对农村配电台区电压质量的影响与消纳措施[J].智能电网,2016,4(10):1 040-1 045.XIANG Chi, XU Ouyang, WANG Furun, et al. Influence of distributed residential PV systems on voltage quality of rural power distribution area and its accommodation measure[J].SmartGrid,2016,4(10):1040-1045.
[22]唐巍,白牧可.农村电网电压降落的影响因素分析[J].供用电,2016,33(7):2-7.TANG Wei, BAI Muke. Analysis of effect factors of voltage drop in rural power network[J]. Distribution&Utilization, 2016, 33(7):2-7.