[1] |
王引迪,李淑萍,钟晓春. 大唐信阳600 MW级高效超临界机组主厂房布置优化设计特点 [J]. 电力建设,2008,29(9):64-67.
WANGY D,LIS P,ZHONGX C. Optimized configuration design characters of main power blocks for Datang Xinyang 600 MW USC units [J]. Electric Power Construction,2008,29(9):64-67. |
[2] |
中华人民共和国住房和城乡建设部.大中型火力发电厂设计规范:GB 50660—2011 [S]. 北京:中国计划出版社,2011.
Ministry of Housing and Urban-Rural Development of the People's Republic of China. Code for design of fossil fired power plant:GB 50660—2011 [S]. Beijing:China Planning Press,2011. |
[3] |
孙亮,樊恩. 国电兰州热电有限责任公司2×350 MW“上大压小”热电联产异地扩建工程主厂房布置研究专题报告 [R].西安:国电兰州热电有限责任公司.2016.
SUNL,FANE. A special report on the arrangement of the main plant of the 2×350 MW“high pressure small”co-generation project of Guodian Lanzhou thermal power Co., Ltd. [R]. 2016. |
[4] |
中华人民共和国建设部.锅炉房设计规范:GB 50041—2008 [S]. 北京:中国计划出版社,2008.
Ministry of ConstructionP.R.China. Code for design of boiler plant:GB 50041—2008 [S]. Beijing:China Planning Press,2008. |
[5] |
中华人民共和国国家经济贸易委员会. 火力发电厂设计技术规程:DL 5000—2000 [S]. 北京:中国电力出版社,2001.
State Economic and Trade Commission of the People's Republic of China. Technical specifications for design of coal-fired power plants:DL 5000—2000 [S]. Beijing:China Electric Power Press,2001. |
[6] |
彭兴虎. 350 MW机组主厂房布置优化分析 [J]. 南方能源建设,2015,2(1):55-61.
PENGX H. Optimizing and analysis for main power building arrangement of power plant with 350 MW units [J]. Southern Energy Constuction, 2015,2(1):55-61. |
[7] |
于洪涛. 燃煤电站煤粉锅炉及侧煤仓间联合结构系统:202954589 [P].2013-05-29.
YUH T. Combined structure system of coal powder boiler and side coal bunker of coal-fired power station:202954589 [P].2013-05-29. |
[8] |
林彬,苏刚. 350 MW超临界机组联合侧煤仓锅炉钢结构设计简介 [J]. 锅炉技术,2015,46(4):23-26.
LINB,SUG. Introduction to 350 MW super-critical joint boiler-SCR-and-bunker steel structure design [J]. Boiler Technology,2015,46(4):23-26. |