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Haihua HUANG, Afeng WU. Research on Optimization Design and Application for 1 000 MW Power Plant Under Current Stricter EIA Standard[J]. SOUTHERN ENERGY CONSTRUCTION, 2019, 6(2): 34-37. DOI: 10.16516/j.gedi.issn2095-8676.2019.02.006
Citation: Haihua HUANG, Afeng WU. Research on Optimization Design and Application for 1 000 MW Power Plant Under Current Stricter EIA Standard[J]. SOUTHERN ENERGY CONSTRUCTION, 2019, 6(2): 34-37. DOI: 10.16516/j.gedi.issn2095-8676.2019.02.006
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Research on Optimization Design and Application for 1 000 MW Power Plant Under Current Stricter EIA Standard

  • China Energy Engineering Group Guangdong Electric Power Design Institute Co., Ltd., Guangzhou 510663, China

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  • Received Date: September 18, 2018
  • Revised Date: November 25, 2018
    Abstract
  •   [Introduction]  The initial investment and operation cost of the power plant are significantly increased after the ultra-low emission configuration is selected for the project of new coal-fired power units. The main purpose of this paper is to carry out detailed technical research on how to optimize the design to improve the operating economy of the units and give recommendations.
      [Method]  By combining theory with practice, this paper selected a 1 000 MW unit project for practical study.
      [Result]  The results show that the application effect of the project is significant, and the main economic and technical indicators are leading in China. The optimization design results and research methods recommended in this paper have been verified accordingly.
      [Conclusion]  The relevant research results of this paper can provide important reference for the construction of similar projects in the future.
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    • References (9)
  • [1]
    朱宝田. 三种国产超超临界1 000 MW机组汽轮机结构设计比较 [J]. 热力发电,2008,37(2): 1-8.
    [2]
    吴志祥,王存新,丁宜. 1 000 MW机组主机参数优化的技术经济性分析 [J]. 上海电力学院学报,2016,32(6): 594-598.
    [3]
    吴阿峰,谭灿燊,范永春,等. 1 000 MW二次再热机组建设无油电厂的技术经济性分析 [J]. 南方能源建设,2018,5(1): 122-126.
    [4]
    范永春,邓成刚,石佳. 1 000 MW超超临界机组电动给水泵选择 [J].电力建设,2006,27(12): 61-63+67.
    [5]
    邹罗明. 超超临界机组邻炉蒸汽加热系统优化研究 [J]. 南方能源建设,2016,3(2): 127-130+20.

    ZOU L M. Optimization research on adjacent boiler heating system of ultra supercritical unit [J]. Southern Energy Construction,2016,3(2): 127-130+20.
    [6]
    吴阿峰,潘灏,谭灿燊. 1 000 MW超超临界燃煤锅炉引风机配置的技术经济分析 [J]. 发电设备,2009,23(2): 136-139+143.

    WU A F, PAN H, TAN C S. Configuration of Induced fan for coal-fired of 1 000 MW ultra supercritical power plants [J]. Power Equipment,2009,23(2): 136-139+143.
    [7]
    黄海华. 多种管线敷设方式在台山电厂工程中的应用 [J]. 电力勘测设计,2005(2): 60-63.

    HUANG H H. Application of diversified pipeline layout modes in Taishan power plant project [J]. Electric Power Survey & Design,2005(2): 60-63.
    [8]
    江蛟,高嘉梁,王志斌. 华能巢湖电厂2×600 MW工程创新和优化设计 [J]. 电力建设,2010,31(1): 72-76.
    [9]
    范永春,霍沛强. 1 000 MW超超临界机组主厂房布置格局探讨 [J].电力勘测设计,2009(5): 36-39.
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    Afeng WU

    • China Energy Engineering Group Guangdong Electric Power Design Institute Co., Ltd., Guangzhou 510663, China

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