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LIU Zhongyi, LI Gengyin. Full Life-cycle Economic Evaluation of Hybrid Isolated Micro-grid[J]. Modern Electric Power, 2015, 32(4): 1-7.
Citation: LIU Zhongyi, LI Gengyin. Full Life-cycle Economic Evaluation of Hybrid Isolated Micro-grid[J]. Modern Electric Power, 2015, 32(4): 1-7.
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Full Life-cycle Economic Evaluation of Hybrid Isolated Micro-grid

  • State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources (North China Electric Power University), Beijing 102206, China

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  • Received Date: September 25, 2014
  • Published Date: August 08, 2015
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    • Abstract
  • Hybrid isolated micro-grid has such advantages as energy saving, environmental protection and high power supply reliability. As to hybrid isolated micro-grid that contains wind turbine generators, photovoltaic batteries, energy storage batteries and diesel generators, the full life-cycle economic evaluation model that can assess cost from construction investment and operation maintenance to recycling is built based on the full life-cycle theory. Two evaluation indexes are also proposed to measure the full life-cycle cost of the hybrid isolated micro-grid. Through the example analysis, the full life-cycle economic information of the hybrid isolated micro-grid with different dispatch strategies is studied, and the full life-cycle economic difference between the hybrid isolated micro-grid and the traditional isolated power system is also compared. The analysis results show that hybrid isolated micro-grid is more energy saving and economic, which verify the feasibility and effectiveness of the proposed full life-cycle economic evaluation model.
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  • 刘燕华,张楠,张旭.考虑储能运行成本的风光储微网的经济运行[J].现代电力,2013,30(5):1318.
    王阳,艾欣.微网及所连配电网电压等级的选择[J].现代电力,2011,28(1):610.
    丁明,张颖媛,茆美琴,等.包含钠硫电池储能的微网系统经济运行优化[J].中国电机工程学报,2011,31(4):714.
    王成山,肖朝霞,王守相.微网综合控制与分析[J].电力系统自动化,2008,32(7):98103.
    王成山,李鹏.分布式发电、微网与智能配电网的发展与挑战[J].电力系统自动化,2010,34(2):1014,23.
    黄伟,孙昶辉,吴子平,等.含分布式发电系统的微网技术研究综述[J].电网技术,2009,33(9):1418,34.
    罗晓初,李乐,魏志连,等.全寿命周期成本理论在配电变压器改造投资决策中的应用[J].电网技术,2011,35(2):207211.
    Anugerah Widiyanto,Seizo Kato,Naoki Maruyama.A LCA/LCC optimized selection of power plant system with additional facilities options[J].Journal of Energy Resources Technology,2002,124(4):290299.
    Kolhe M,Kolhe S,Joshi J C.Economic viability of stand-alone solar photovoltaic system in comparison with diesel-powered system for India[J].Energy Economics,2002,24(2):155165.
    Bhuiyan M M H,Asgar M A,Mazumder R K,et al.Economic evaluation of a stand-alone residential photovoltaic power system in Bangladesh[J].Renewable Energy,2000,21(34):403410.
    Kaldellis J K,Zafirakis D,Kaldelli E L,et al.Cost benefit analysis of a photovoltaic-energy storage electrification solution for remote islands[J].Renewable Energy,2009,34(5):12991311.
    Nayar C,Tang M,Suponthana W.Wind/PV/Diesel micro grid system implemented in remote islands in the Republic of Maldives[C].IEEE International Conference on Sustainable Energy Technologies(ICSET),Singapore,2008.
    Manwell J F,Rogers A,Hayman G,et al. Hybrid2-a hybrid system simulation model: theory manual[R].Massachusetts,USA:University of Massachusettes,2006.
    Andrew Mills,Said Al-Hallaj.Simulation of hydrogen-based hybrid systems using Hybrid2 [J].International Journal of Hydrogen Energy,2004,29(10):991999.
    刘梦璇,郭力,王成山,等.风光柴储孤立微电网系统协调运行控制策略设计[J].电力系统自动化,2012,36(15):1924.
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