[1]常东锋,王 伟,江 浩,等.1 000 MW机组多变量协同优化一次调频[J].热力发电,2018,(11):123-128.[doi:10.19666/j.rlfd.201801004]
 GAO Lin,LIU Hao.Primary frequency modulation of multivariable co-optimization for 1 000 MW units[J].Thermal Power Generation,2018,(11):123-128.[doi:10.19666/j.rlfd.201801004]
点击复制

1 000 MW机组多变量协同优化一次调频

参考文献/References:

[1] 鲁宗相, 李海波, 乔颖. 含高比例可再生能源电力系统灵活性规划及挑战[J]. 电力系统自动化, 2016, 40(13): 147-158.
LU Zongxiang, LI Haibo, QIAO Ying. Power system flexibility planning and challenges considering high proportion of renewable energy[J]. Automation of Electric Power Systems, 2016, 40(13): 147-158.
[2] 高强, 张小聪, 施正钗, 等. ±800 kV宾金直流双极闭锁故障对浙江电网的影响[J]. 电网与清洁能源, 2014, 30(11): 47-51.
GAO Qiang, ZHANG Xiaocong, SHI Zhengchai, et al. Impact of ±800 kV Yibin-Jinhua DC bipolar block fault on Zhejiang power grid[J]. Power System and Clean Energy, 2014, 30(11): 47-51.
[3] 陶骞, 贺颖, 潘杨, 等. 电力系统频率分布特征及改进一次调频控制策略研究[J]. 电力系统保护与控制, 2016, 44(17): 133-138.
TAO Qian, HE Ying, PAN Yang, et al. Characteristics of power system frequency abnormal distribution and improved primary frequency modulation control strategy [J]. Power System Protection and Control, 2016, 44(17): 133-138.
[4] 费惟庆. 1 000 MW超超临界汽轮机配汽方式优化试验[J]. 热力透平, 2015, 44(2): 90-93.
FEI Weiqing. Optimization test for steam distribution mode of 1000 MW USC steam turbines[J]. Thermal Turbine, 2015, 44(2): 90-93.
[5] 包劲松, 孙永平. 1 000 MW 汽轮机滑压优化试验研究及应用[J]. 中国电力, 2012, 45(12): 12-15.
BAO Jinsong, SUN Yongping. Experimental research & application of sliding pressure optimization for 1 000 MW steam turbines[J]. Electric Power, 2012, 45(12): 12-15.
[6] 陈小强, 罗志浩, 尹峰. 补汽阀投用对1 000 MW机组夏季运行工况的影[J]. 中国电力, 2011, 44(4): 63-66.
CHEN Xiaoqiang, LUO Zhihao, YIN Feng. Influence of overload valve on 1 000 MW unit operation condition in summer[J]. Electric Power, 2011, 44(4): 63-66.
[7] 刘鑫屏, 田亮, 曾德良, 等. 凝结水节流参与机组符合调节过程建模与分析[J]. 华北电力大学学报, 2009, 36(2): 80-84.
LIU Xinping, TIAN Liang, ZENG Deliang, et al. Modeling and analysis for the units load regulation by condensate throttling[J]. Journal of North China Electric Power University, 2009, 36(2): 80-84.
[8] 许龙虎. 凝结水调频技术在泰州电厂的应用[J]. 电力勘测设计, 2016(4): 45-48.
XU Longhu. Application of condensation water frequency modulation technology in Taizhou power plant[J]. Electric Power Survey and Design, 2016(4): 45-48.
[9] 刘兴晖, 任江波, 马力, 等. 600 MW机组凝结水系统节能优化运行分析[J]. 河北电力技术, 2013, 32(增刊1): 9-11.
LIU Xinghui, REN Jiangbo, MA Li, et al. Analysis on condensate water system energy saving of 600 MW units[J]. Hebei Electric Power, 2013, 32(Suppl.1): 9-11.
[10] 王国凯, 张峰, 展宗波, 等. 凝结水节流技术在电厂的应用探讨[J]. 内蒙古电力技术, 2011, 29(2): 45-47.
WANG Guokai, ZHANG Feng, ZHAN Zongbo, et al. Discussion on application of condensate flow-saving technique in power plant[J]. Inner Mongolia Electric Power, 2011, 29(2): 45-47.
[11] 范庆伟, 常东锋, 柴琦, 等. 凝结水变负荷技术对低温省煤器系统影响特性试验与模拟研究[J]. 热力发电, 2017, 46(11): 39-43.
FAN Qingwei, CHANG Dongfeng, CHAI Qi, et al. Effect of condensate load adjustment technology on low temperature economizer system: experimental and numerical study[J]. Thermal Power Generation, 2017, 46(11): 39-43.
[12] 宋文希, 屈杰, 杨荣祖, 等. 华能临河电厂灵活性改造项目可行性研究[R]. 西安: 西安热工研究院有限公司, 2016: 11-21.
SONG Wenxi, QU Jie, YANG Rongzu, et al. Feasibility studies of Huaneng Linhe Power Station flexibility transformation projects[R]. Xi’an: Xi’an Thermal Power Research Institute Co., Ltd., 2016: 11-21.
[13]WICHTMANN A, WECHSUNG M, ROSENKRANZ J, et al. Flexible load operation and frequency support for steam turbine power plants[J]. VGB Powertech, 2007, 87: 49-55.
[14]LAUSTERER G K. Improved maneuverability of power plants for better grid stability[J]. Control Engineering Practice, 1998, 6(12): 1549-1557.
[15] 常东锋, 雒青, 范庆伟, 等. 二次再热机组高压低温省煤器参与负荷调节的动态特性模拟研究[J]. 热力发电, 2017, 46(8): 77-81.
CHANG Dongfeng, LUO Qing, FAN Qingwei, et al. Dynamic characteristics of high pressure low temperature economizer system when participating in load adjustment for double-reheat units[J]. Thermal Power Generation, 2017, 46(8): 77-81.
[16] 杜洋洋, 冯伟忠. 基于弹性回热技术的调频性能研究[J]. 华东电力, 2014, 42(9): 1944-1949.
DU Yangyang, FENG Weizhong. Research of properties of frequency regulation based on the flexible extraction technology[J]. East China Electric Power, 2014, 42(9): 1944-1949.
[17] WANG W, LIU J, ZENG D, et al. Variable-speed technology used in power plants for better plant econo- mics and grid stability[J]. Energy, 2012, 45(1): 588-594.
[18] LIU J, HU Y, ZENG D, et al. Optimization of an air-cooling system and its application for grid stability[J]. Applied Thermal Engineering, 2013, 61(2): 206-212.
[19] 樊印龙, 张宝, 顾正皓, 等. 节流配汽汽轮机组一次调频经济代价分析[J]. 中国电力, 2016, 49(7): 86-89.
FAN Yinlong, ZHANG Bao, GU Zhenghao, et al. Analysis on economic cost of primary frequency regulation of throttling steam turbine units[J]. Electric Power, 2016, 49(7): 86-89.
[20] 马汀山, 许朋江, 程东涛, 等. 华能威海发电有限责任公司5号机组汽轮机及冷端系统运行优化试验报告[R]. 西安: 西安热工研究院有限公司, 2011: 14-30.
MA Tingshan, XU Pengjiang, CHENG Dongtao, et al. No.5 steam turbine and cold-end system operation optimization test report of Huaneng Weihai Power Station[R]. Xi’an: Xi’an Thermal Power Research Institute Co., Ltd., 2011: 14-30.
(责任编辑 杜亚勤)

相似文献/References:

[1]张秋生,梁 华,胡晓花.基于区域并网的AGC和一次调频控制回路的改进[J].热力发电,2010,(07):69.
 ZHANG Qiusheng,LIANG Hua,HU Xiaohua.RETROFIT OF CONTROL SYSTEM FOR AGC AND PRIMARY FREQUENCY CONVERSION BASED ON REGIONAL SYNCHRONIZING AND CLOSING INTO POWER GRID[J].Thermal Power Generation,2010,(11):69.
[2]梅 升,郝德锋.配循环流化床锅炉的300 MW机组控制策略[J].热力发电,2010,(07):75.
 MEI Sheng,HAO Defeng.CONTROL STRATEGY OF 300 MW UNITS EQUIPPED WITH CFB BOILERS[J].Thermal Power Generation,2010,(11):75.
[3]黄 甦,郑航林.一次调频控制策略的优化[J].热力发电,2008,(09):71.
[4]孟祥荣,刘志敏.发电机组一次调频对锅炉控制系统的影响及其优化[J].热力发电,2008,(08):69.
[5]张生相,贾强邦,刘俊.阳西电厂超临界600 MW机组一次调频控制功能优化[J].热力发电,2012,(01):77.
 ZHANG Shengxiang,JIA Qiangbang,LIU Jun.OPTIMIZATION OF CONTROL FUNCTION IN FIRST FREQUENCY MODULATION OF SUPERCRITICAL 600 MW UNIT IN YANGXI POWER PLANT[J].Thermal Power Generation,2012,(11):77.
[6]王远平,吴忠胜,黄华煜,等.河源电厂超超临界2×600 MW机组一次调频控制策略及其优化[J].热力发电,2012,(08):79.
 WANG Yuanping,WU Zhongsheng,HUANG Huayu,et al.CONTROL STRATEGY OF PRIMARY FREQUENCY REGULATION AND ITS OPTIMIZATION FOR 2×600 MW ULTRA SUPERCRITICAL UNITS IN HEYUAN POWER PLANT[J].Thermal Power Generation,2012,(11):79.
[7]高爱国,尚勇,康静秋.提高自动发电控制性能指标的协调控制策略优化与应用[J].热力发电,2012,(12):43.
 GAO Aiguo,SHANG Yong,KANG Jingqiu.OPTIMIZATION AND APPLICATION OF COORDINATION CONTROL STRATEGY FOR IMPROVING THE AGC PERFORMANCE[J].Thermal Power Generation,2012,(11):43.
[8]吴海滨.基于一次调频功能的M701F型燃气蒸汽联合循环机组控制系统优化[J].热力发电,2012,(12):61.
 WU Haibin.PRIMARY FREQUENCY REGULATION BASED OPTIMIZATION FOR CONTROL SYSTEM OF M701F GASSTEAM COMBINED CYCLE POWER UNIT[J].Thermal Power Generation,2012,(11):61.
[9]孙曙阳.300MW火电机组一次调频功能试验[J].热力发电,2002,(04):0.
[10]杨军统,吴泽刚.超超临界机组一次调频控制策略的优化[J].热力发电,2013,(05):83.
 YANG Juntong,WU Zegang.Control strategy optimization of primary frequency regulation for ultra supercritical units[J].Thermal Power Generation,2013,(11):83.

备注/Memo

常东锋(1978—),男,硕士,高级工程师,主要研究方向为燃煤发电机组节能降耗技术,changdongfeng@tpri.com.cn。

更新日期/Last Update: 2018-10-25