[1] |
孟建国. 亚临界控制循环锅炉邻炉底部蒸汽加热改造方案的研究与实施[J]. 华北电力技术,2012,12(6): 48-51.
MENG Jianguo. Investigation and Execution of Modification of Adjacent Boiler Bottom Heating System of Sub-critical Controlled Circulation Boiler[J]. North China Electric Power,2012,12(6): 48-51. |
[2] |
徐雪峰,李旭喆,王宝全. 邻炉热风加热与下联箱加热对比分析[J].黑龙江电力,2003,25(2): 132-135.
XU Xuefeng, LI Xuzhe, WANG Baoquan. Comparative Analysis of Heating by Hot Air from Neiggbouring Boiler and Heating by Lower Luterconnecting Box Heaing System[J]. Heilongjiang Electric Power,2003,25(2): 132-135. |
[3] |
胡兰还,杨宝林. 锅炉邻炉底部加热系统改造[J]. 河北电力技术,2004,23(2): 16-18.
HU LanHuan, YANG Baolin. Modification of Adjacent Boiler Bottom Heating System[J]. Hebei Electric Power,2004,23(2): 16-18. |
[4] |
韩志成,陈丽,杨凯. 锅炉底部加热系统改造与应用[J].电力建设,2009,30(6): 32-18.
HAN Zhicheng, CHEN Li, YANG Kai. Modificationg and Execution of Boiler Bottom Heating System[J]. Electric Power Constrution,2009,30(6): 32-18. |
[5] |
夏静. 600 MW超临界机组邻机加热启动技术[J]. 电力安全技术,2014,16(7): 15-17.
XIA Jing. Adjacent Boiler Heating System of 600 MW Super-critical Unit[J]. Electric Power Safe Technology,2014,16(7): 15-17. |
[6] |
焦体华. 邻机蒸汽加热系统在1 000 MW锅炉应用的可行性[J].城市建设理论研究,2012,10(29): 100-102.
JIAO Tihua. Feasibility Study of Adjacent Boiler Heating System on 1 000 MW Type Bolier[J]. Urban Construction Theory Research,2012,10(29): 100-102. |
[7] |
郝云冯,廖晶杰. 邻机加热系统改造[J]. 热电技术,2014,9(1): 36-38.
HAO Yunfeng, LIAO Jingjie. Modification of Adjacent Boiler Heating System[J]. Heat and Electric Power Technology,2014,9(1): 36-38. |
[8] |
郑文广,司顺勇,朱良松,等. 1 000 MW机组启停节油技术研究[J]. 中国电力,2014,47(4): 38-42.
ZHENG Wenguang, SI Shunyong, ZHU Liangsong,et al. Investigation of Saving Oil Measure of 1 000 MW Units' Start up[J]. Electric Power,2014,47(4): 38-42. |
[9] |
邢希东,马成伟,吴宝忠. 大容量火电机组启停过程中节能措施[J]. 热电技术,2011,13(1): 21-25.
XING Xidong, MA Chengwei, WU Baozhong. Saving Energy Measuers in the Process of Large Capacity Thermal Power Units[J]. Heat and Electric Power Technology,2011,13(1): 21-25. |
[10] |
冯伟忠. 外高桥三期工程1 000 MW超超临界机组调试期的节能减排与技术创新[J].华东电力,2008,36(6): 1-5.
FENG Weizhong. Technical Innovation of Energy-Saving and Emission-Reducing during Debugging of 1 000 MW Ultra-supercritical Units of Waigaoqiao III-stage Engineering Project[J]. East China Electric Power,2008,36(6): 1-5. |