2017年我国光伏技术发展报告(8)
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摘要
<正>5.4多能互补系统研究进展5.4.1分布式光/储系统控制技术储能技术在电力系统中的应用是近年来的研究热点。储能有助于平滑光伏及其他新能源发电系统的输出功率,提高系统电能质量,保证发电顺利并网。2016年全球各类型储能的新装机容量的比重如图28所示。
引文
[191] Sheikh M R I, Eva F, Motin M A, et al. Wind generatoroutput power smoothing and terminal voltage regulation by using STATCOM/SMES[A]. 2012 2nd InternationalConference on the Developments in Renewable EnergyTechnology(ICDRET)[C].Dhaka, Bengal, 2012.
[192] Jiang Q, Wang H. Two-time-scale coordination control fora battery energy storage system to mitigate wind powerfluctuations[J]. IEEE Transactions on Energy Conversion,2013,28(1):52-61.
[193] Li Bei, Guo Jianbo. Control strategy for battery energy storage system to level wind power output[J]. Power System Technology, 2012, 36(8):39-43.
[194] Wu Z W, Jiang X P, Ma H M, et al. Wavelet packetfuzzy control of hybrid energy storage systems for PV power Smoothing[J]. Proceedings of the CSEE, 2014, 34(3):317-324.
[195]雷鸣宇,杨子龙,王一波,等.光/储混合系统中的储能控制技术研究[J].电工技术学报,2016, 31(23):86-92.
[196] Peng C H, Xie P, Pan L, et al. Flexible robust optimization dispatch for hybrid wind/photovoltaic/hydro/thermal power system[J]. IEEE Transactions on Smart Grid, 2016, 7(2):751-762.
[197] Catalin Petrea Ion, loan Serban. Control of micro hydro based microgrid for dynamic transfer between islanded and gridconnected operation[A]. 42nd Annual Conference of the IEEE Industrial Electronics Society[C]. Florence, Italy, 2016.
[198] Vicente Leite, Angela Ferreira, Jose Couto, et al.Compatibility analysis of grid-connected pico-hydro systems using conventional photovoltaic inverters[A]. 2016 18th European Conference on Power Electronics and Applications(EPE'16 ECCE Europe)[C]. Karlsruhe,Germany,2016.
[199] Guan Y J, Vasquez J C,Guerrero J M,et al. Frequencystability of hierarchically controlled hybrid photovoltaic-batteryhydropower microgrids[J]. IEEE Transactions on Industry Applications, 2015, 51(6):4729-4742.
[200] Jovcic D. Step-up DC-DC converter for megawatt size applications[J]. IET Power Electronics, 2009, 2(6):675-685.
[201] Robinson J, Jovcic D, Joos G. Analysis and design of an offshore wind farm using a MV DC grid[J]. IEEE Transactions on Power Delivery,2010, 25(4):2164-2173.
[202] Jovcic D, Zhang Lu. LCL DC/DC converter for dc grids[J].IEEE Transactions on PowerDelivery, 2013, 28(4):2071-2079.
[203] Chen Wu,Huang A Q,Li Chushan,et al. Analysis and comparison of medium voltage high power DC/DC converters for offshore wind energy systems[J]. IEEE Transactions on Power Electronics,2013, 28(4):2014-2023.
[204] Dorn J, Gambach H, Retzmann D. HVDC transmission technology for sustainable power supply[A]. 9th International Multi-Conference on Systems, Signals and Devices(SSD)[C].Chemnitz, Germany, 2012.
[205]杨晓峰,林智钦,郑琼林,等.模块组合多电平变换器的研究综述[J].中国电机工程学报,2013, 33(6):1-14.
[206]杨晓峰,林智钦,周楚尧,等.模块化多电平换流器MMC的环流抑制技术综述[J].电源学报,2015,13(6):58-68.
[207] Lyu X, Ren N, Li Y, et al. A SiC-based high power density single-phase inverter with in-series and in-parallel power decoupling method[J]. IEEE Journal of Emerging and Selected Topics in Power Electronics, 2016, 4(3):893-901.
[208] Yamaguchi K, Katsura K, Yamada T. Comprehensive evaluation and design of SiC-based high power density inverter,70 kW/liter, 50 kW/kg[A]. 2016 IEEE 8th International Power Electronics and Motion Control Conference(IPEMC-ECCE Asia)[C]. Hefei, 2016.
[209] Kaufmann M, Tiiysiiz A, Kolar J W. New optimum modulation of three-phase ZVS triangular current mode GaN inverter ensuring limited switching frequency variation[A]. 8th IET International Conference on Power Electronics, Machines and Drives(PEMD 2016)[C]. Glasgow,2016.
[210] Burkart R M, Kolar J W. Comparative life cycle costs analysis of si and sic PV converter systems based on advancedη-ρ-σmulti-objective optimization techniques[J]. IEEE Transactions on Power Electronics, 2017, 32(6):4344-4358.
[211] Zhao C W, Bradford Trento, Jiang L, et al. Design and implementation of a GaN-based, 100 kHz, 102 W/in3 single-phase inverter[J]. IEEE Journal of Emerging and Selected Topics in Power Electronics, 2016, 4(3):824-840.
[212] Armstrong K O, Das S, Cresko J. Wide bandgap semiconductor opportunities in power electronics[A]. 2016 IEEE4th Workshop on Wide Bandgap Power Devices and Applications(WiPDA)[C]. Fayetteville,USA,2016.
[192] Jiang Q, Wang H. Two-time-scale coordination control fora battery energy storage system to mitigate wind powerfluctuations[J]. IEEE Transactions on Energy Conversion,2013,28(1):52-61.
[193] Li Bei, Guo Jianbo. Control strategy for battery energy storage system to level wind power output[J]. Power System Technology, 2012, 36(8):39-43.
[194] Wu Z W, Jiang X P, Ma H M, et al. Wavelet packetfuzzy control of hybrid energy storage systems for PV power Smoothing[J]. Proceedings of the CSEE, 2014, 34(3):317-324.
[195]雷鸣宇,杨子龙,王一波,等.光/储混合系统中的储能控制技术研究[J].电工技术学报,2016, 31(23):86-92.
[196] Peng C H, Xie P, Pan L, et al. Flexible robust optimization dispatch for hybrid wind/photovoltaic/hydro/thermal power system[J]. IEEE Transactions on Smart Grid, 2016, 7(2):751-762.
[197] Catalin Petrea Ion, loan Serban. Control of micro hydro based microgrid for dynamic transfer between islanded and gridconnected operation[A]. 42nd Annual Conference of the IEEE Industrial Electronics Society[C]. Florence, Italy, 2016.
[198] Vicente Leite, Angela Ferreira, Jose Couto, et al.Compatibility analysis of grid-connected pico-hydro systems using conventional photovoltaic inverters[A]. 2016 18th European Conference on Power Electronics and Applications(EPE'16 ECCE Europe)[C]. Karlsruhe,Germany,2016.
[199] Guan Y J, Vasquez J C,Guerrero J M,et al. Frequencystability of hierarchically controlled hybrid photovoltaic-batteryhydropower microgrids[J]. IEEE Transactions on Industry Applications, 2015, 51(6):4729-4742.
[200] Jovcic D. Step-up DC-DC converter for megawatt size applications[J]. IET Power Electronics, 2009, 2(6):675-685.
[201] Robinson J, Jovcic D, Joos G. Analysis and design of an offshore wind farm using a MV DC grid[J]. IEEE Transactions on Power Delivery,2010, 25(4):2164-2173.
[202] Jovcic D, Zhang Lu. LCL DC/DC converter for dc grids[J].IEEE Transactions on PowerDelivery, 2013, 28(4):2071-2079.
[203] Chen Wu,Huang A Q,Li Chushan,et al. Analysis and comparison of medium voltage high power DC/DC converters for offshore wind energy systems[J]. IEEE Transactions on Power Electronics,2013, 28(4):2014-2023.
[204] Dorn J, Gambach H, Retzmann D. HVDC transmission technology for sustainable power supply[A]. 9th International Multi-Conference on Systems, Signals and Devices(SSD)[C].Chemnitz, Germany, 2012.
[205]杨晓峰,林智钦,郑琼林,等.模块组合多电平变换器的研究综述[J].中国电机工程学报,2013, 33(6):1-14.
[206]杨晓峰,林智钦,周楚尧,等.模块化多电平换流器MMC的环流抑制技术综述[J].电源学报,2015,13(6):58-68.
[207] Lyu X, Ren N, Li Y, et al. A SiC-based high power density single-phase inverter with in-series and in-parallel power decoupling method[J]. IEEE Journal of Emerging and Selected Topics in Power Electronics, 2016, 4(3):893-901.
[208] Yamaguchi K, Katsura K, Yamada T. Comprehensive evaluation and design of SiC-based high power density inverter,70 kW/liter, 50 kW/kg[A]. 2016 IEEE 8th International Power Electronics and Motion Control Conference(IPEMC-ECCE Asia)[C]. Hefei, 2016.
[209] Kaufmann M, Tiiysiiz A, Kolar J W. New optimum modulation of three-phase ZVS triangular current mode GaN inverter ensuring limited switching frequency variation[A]. 8th IET International Conference on Power Electronics, Machines and Drives(PEMD 2016)[C]. Glasgow,2016.
[210] Burkart R M, Kolar J W. Comparative life cycle costs analysis of si and sic PV converter systems based on advancedη-ρ-σmulti-objective optimization techniques[J]. IEEE Transactions on Power Electronics, 2017, 32(6):4344-4358.
[211] Zhao C W, Bradford Trento, Jiang L, et al. Design and implementation of a GaN-based, 100 kHz, 102 W/in3 single-phase inverter[J]. IEEE Journal of Emerging and Selected Topics in Power Electronics, 2016, 4(3):824-840.
[212] Armstrong K O, Das S, Cresko J. Wide bandgap semiconductor opportunities in power electronics[A]. 2016 IEEE4th Workshop on Wide Bandgap Power Devices and Applications(WiPDA)[C]. Fayetteville,USA,2016.