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霄燃料复合生物质“虚拟电厂”与碳减排策略——以鄂州电厂一期工程为例

Biomass Virtual Power Plant with Micro Fuel and Carbon Emission Reduction Strategy in Phase I Project of Ezhou Power Plant
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摘要 随着经济发展的转型和对环保要求的提高,各个行业都高度重视节能减排技术及碳减排策略,作为燃煤电厂首当其冲。为使燃煤电厂发电供能环节中减少能源消耗,提高能源利用效率,实现2020年国家碳减排目标,根据鄂州电厂一期工程结合园区蒸汽供应,提出“十三五”碳减排改造技术——霄燃料复合生物质“虚拟电厂”等节能减排有效措施,期望取得卓有成效的成果。 With the transformation of the economic development and the improvement of the environmental protection requirements, energy saving and carbon emission reduction technologies and strategies are highly valued in various industries, especially the coal-fired power plants. In order to reduce the energy consumption and improve the utilization efficiency in coal-fired power plants and realize the national carbon emission reduction target by 2020, some effective measures are proposed for the “13th Five Year Plan” in Ezhou Power Plant, such as the biomass virtual power plant with micro fuel.
作者 胡治国 肖波 张承建 杜一敬 李建芬 HU Zhiguo;XIAO Bo;ZHANG Chengjian;DU Yijing;LI Jianfen(Hubei Energy Donghu Gas Turbine Thermal Power Co., Ltd., Wuhan 430074, China)
机构地区 湖北能源东湖燃机热电有限公司
出处 《水电与新能源》 2019年第6期74-78,共5页 Hydropower and New Energy
关键词 虚拟电厂 节能减排 霄燃料 virtual power plant energy-saving and emission-reduction biomass micro fuel
分类号 TM619 [电气工程—电力系统及自动化]
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  • 1孙耀杰,康龙云,史维祥,曹秉刚,杨仲庆.分布式电源中最佳蓄电池容量的机会约束规划[J].系统仿真学报,2005,17(1):41-44. 被引量:19
  • 2吴敬儒,徐永禧.我国特高压交流输电发展前景[J].电网技术,2005,29(3):1-4. 被引量:235
  • 3任子武,伞冶.自适应遗传算法的改进及在系统辨识中应用研究[J].系统仿真学报,2006,18(1):41-43. 被引量:169
  • 4Hatziargyriou N, Asano H, lranvani R, et al. Microgrids[J]. IEEE Power and Energy Magazine, 2007, 5(4): 78-94.
  • 5Hatziargyriou N D, Dimeas A, Tsikalakis A G, et al Management of microgrids in market environment[C] // International Conference on Future Power Systems, Amsterdam, 2005.
  • 6Toshifumi I, Masanori K, Akira T. A hybrid energy storage with a smes and secondary battery[J]. IEEE Trans on Applied Super-conductivity, 2005, 2( 15): 1915-1918.
  • 7Abbey C, Strunz K, Joos Ct A knowledge-based approach for control of two-level energy storage for wind energy systems[J]. IEEE Trans on Energy Conversion, 2009, 24: 59-547.
  • 8Bhuvaneswari R, Edrington C S, Cartes D A, et al. Online economic environmental optimization of a microgrid using an improved fast evolutionary programming technique[C]//North American Power Symposium, 2009 1-6.
  • 9Ross M, Hidalgo R, Abbey C, et al. Energy storage system scheduling for an isolated microgrid[J]. IET Renewable Power Generation, 2011, 5(2): 117-123.
  • 10Deng Qijun, Gao Xing, Zhou Hong. System modeling and optimization of microgrid using Genetic Algorithm[C]// The 2rid International Conference on Intelligent Control and Information Processing, 2011: 540-544.

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水电与新能源
2019年 第6期

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