《電力工程技術(shù)》

1、電力工程技術(shù)2021年目錄，歡迎登陸官網(wǎng)品鑒！ HYPERLINK 第1期綜合能源系統(tǒng)規(guī)劃分析與控制關(guān)鍵技術(shù)專題1 計及電力需求響應(yīng)的多能源協(xié)同系統(tǒng)優(yōu)化運行研究王俐英， 曾鳴， 趙嘉欣， 等. 計及電力需求響應(yīng)的多能源協(xié)同系統(tǒng)優(yōu)化運行研究J. 電力工程技術(shù), 2021,40(1):2-9.WANG Liying, ZENG Ming, ZHAO Jiaxin, et al. Optimal operation of multi-energy collaborative system considering electricity demand response J. Electric Powe

2、r Engineering Technology, 2021,40(1):2-9.2 含氫能氣網(wǎng)摻混輸運的綜合能源系統(tǒng)優(yōu)化研究嚴(yán)思韻， 王晨， 周登極. 含氫能氣網(wǎng)摻混輸運的綜合能源系統(tǒng)優(yōu)化研究J. 電力工程技術(shù), 2021,40(1):10-16,49.YAN Siyun, WANG Chen, ZHOU Dengji. Optimization of integrated electricity and gas systemconsidering hydrogen-natural-gas mixture transportation J. Electric Power Engineerin

3、g Technology, 2021,40(1): 10-16,49.3 考慮綜合需求響應(yīng)的電熱系統(tǒng)調(diào)度王穎杰，詹紅霞，楊孝華，等. 考慮綜合需求響應(yīng)的電熱系統(tǒng)調(diào)度J. 電力工程技術(shù), 2021,40(1):17-24.WANG Yingjie, ZHAN Hongxia, YANG Xiaohua, et al. Optimal dispatching strategy of combined heat and power systemconsidering integrated demand response J. Electric Power Engineering Technology

4、, 2021,40(1): 17-24.4 含儲能的冷熱電聯(lián)供分布式綜合能源微網(wǎng)優(yōu)化運行耿健， 楊冬梅， 高正平， 等. 含儲能的冷熱電聯(lián)供分布式綜合能源微網(wǎng)優(yōu)化運行J. 電力工程技術(shù), 2021,40(1):25-32.GENG Jian, YANG Dongmei, GAO Zhengping, et al. Optimal operation of distributed integrated energy microgrid with CCHP considering energy storage J. Electric Power Engineering Technology, 20

5、21,40(1): 25-32.5 基于PSO-Newton法的電-氣綜合能源系統(tǒng)能流計算閔慶久， 馬兆興， 馬英姿. 基于PSO-Newton法的電-氣綜合能源系統(tǒng)能流計算J. 電力工程技術(shù), 2021,40(1):33-39.MIN Qingjiu, MA Zhaoxing, MA Yingzi. Energy flow calculation of integrated power-gas energy system based on PSO-Newton method J. Electric Power Engineering Technology, 2021,40(1): 33-39

6、.6 基于小區(qū)源-儲-荷協(xié)同的微網(wǎng)多能協(xié)調(diào)控制策略楊金文， 吳杰康， 莊仲， 等. 基于小區(qū)源-儲-荷協(xié)同的微網(wǎng)多能協(xié)調(diào)控制策略J. 電力工程技術(shù), 2021,40(1):40-49.YANG Jinwen, WU Jiekang, ZHUANG Zhong, et al. Multi-energy coordinated control strategy based on source-storage-loadmicro network in community J. Electric Power Engineering Technology, 2021,40(1): 40-49.7 基于主

7、從博弈模型的電熱聯(lián)合市場節(jié)點能價計算方法雷震， 郝雨辰， 朱月堯， 等. 基于主從博弈模型的電熱聯(lián)合市場節(jié)點能價計算方法J. 電力工程技術(shù), 2021,40(1):50-57.LEI Zhen, HAO Yuchen, ZHU Yueyao, et al. Nodal energy price calculation based on Stackelberg game model in combined power and heat market J. Electric Power Engineering Technology, 2021,40(1): 50-57.專論與綜述1 電網(wǎng)安全穩(wěn)定控

8、制系統(tǒng)標(biāo)準(zhǔn)體系研究評述丁衛(wèi)東，張麗全，許劍冰，等. 電網(wǎng)安全穩(wěn)定控制系統(tǒng)標(biāo)準(zhǔn)體系研究評述J. 電力工程技術(shù), 2021,40(1):58-64.DING Weidong, ZHANG Liquan, XU Jianbing, et al. Review of standard system of power grid security and stability control system J. Electric Power Engineering Technology, 2021,40(1): 58-64.2 基于極端場景分析的中長期交易校核方法代江， 田年杰， 單克，等. 基于極端場景分

9、析的中長期交易校核方法J. 電力工程技術(shù), 2021,40(1):65-71.DAI Jiang, TIAN Nianjie, SHAN Ke, et al. Long and medium-term power market security check based on extreme scenario analysis J. Electric Power Engineering Technology, 2021,40(1): 65-71.3 就地化分布式保護環(huán)網(wǎng)測試裝置研制裘愉濤， 徐昱， 王源濤， 等. 就地化分布式保護環(huán)網(wǎng)測試裝置研制J. 電力工程技術(shù), 2021,40(1):72-

10、78.QIU Yutao, XU Yu, WANG Yuantao, et al. Ring network test device development of on-site distributed protection relay J. Electric Power Engineering Technology, 2021,40(1): 72-78.電網(wǎng)運行與控制1 含大規(guī)模風(fēng)電及光熱電站的電力系統(tǒng)優(yōu)化調(diào)度方法陟晶， 張高航， 邵沖， 等. 含大規(guī)模風(fēng)電及光熱電站的電力系統(tǒng)優(yōu)化調(diào)度方法J. 電力工程技術(shù), 2021,40(1):79-85.ZHI Jing, ZHANG Gaohang,

11、 SHAO Chong, et al. Optimal dispatching method for power system with large scale wind power and concentrated solar power plant J. Electric Power Engineering Technology, 2021,40(1): 79-85.2 基于極限學(xué)習(xí)機與負荷密度指標(biāo)法的空間負荷預(yù)測邵宇鷹， 彭鵬， 張秋橋，等. 基于極限學(xué)習(xí)機與負荷密度指標(biāo)法的空間負荷預(yù)測J. 電力工程技術(shù), 2021,40(1):86-91.SHAO Yuying, PENG Peng,

12、 ZHANG Qiuqiao, et al. Spatial load forecasting based on ELM and clustering algorithm J. Electric Power Engineering Technology, 2021,40(1): 86-91.3 考慮子系統(tǒng)恢復(fù)時間的停電電網(wǎng)分區(qū)策略吳琛， 梁晟杰， 劉旭斐， 等. 考慮子系統(tǒng)恢復(fù)時間的停電電網(wǎng)分區(qū)策略J. 電力工程技術(shù), 2021,40(1):92-98.WU Chen, LIANG Chengjie, LIU Xufei, et al. Sectionalizing strategy for

13、the blackout power system considering the restoration time of subsystem J. Electric Power Engineering Technology, 2021,40(1): 92-98.4 UPFC系統(tǒng)的變壓器差動保護分析吳奕， 顧喬根， 崔玉， 等. UPFC系統(tǒng)的變壓器差動保護分析J. 電力工程技術(shù), 2021,40(1):99-106.WU Yi, GU Qiaogen, CUI Yu, et al. Transformer differential protection in UPFC system J. E

14、lectric Power Engineering Technology, 2021,40(1): 99-106.配網(wǎng)與微網(wǎng)1 兼具有源電力濾波器功能的多功能并網(wǎng)逆變器控制黃鵬， 戴威， 張瑩， 等. 兼具有源電力濾波器功能的多功能并網(wǎng)逆變器控制J. 電力工程技術(shù), 2021,40(1):107-114.HUANG Peng, DAI Wei, ZHANG Ying, et al. Multi-function grid-connected inverter control with APF function J. Electric Power Engineering Technology,

15、2021,40(1): 107-114.2 基于正序電流故障分量相位比較的電壓暫降擾動源分界孫東， 張昊， 任偉， 等. 基于正序電流故障分量相位比較的電壓暫降擾動源分界J. 電力工程技術(shù), 2021,40(1): 115-122,137.SUN Dong, ZHANG Hao, REN Wei, et al. Demarcating method for voltage sag source of distribution network J. Electric Power Engineering Technology, 2021,40(1): 115-122,137.3 基于通用電能路由器

16、的微電網(wǎng)架構(gòu)及其控制方法葛健， 楊晨， 楊景剛， 等. 基于通用電能路由器的微電網(wǎng)架構(gòu)及其控制方法J. 電力工程技術(shù), 2021,40(1): 123-130.GE Jian, YANG Chen, YANG Jinggang, et al. A micro-grid architecture based on universal energy router unit and its control method J. Electric Power Engineering Technology, 2021,40(1): 123-130.4 計及不確定性因素的分布式電源與電動汽車充電站協(xié)調(diào)優(yōu)化錢

17、仲豪， 江志輝， 吳茜， 等. 計及不確定性因素的分布式電源與電動汽車充電站協(xié)調(diào)優(yōu)化J. 電力工程技術(shù), 2021,40(1): 131-137.QIAN Zhonghao, JIANG Zhihui, WU Xi, et al. Coordinated optimization of distributed power and electric vehicle charging stations considering uncertain factors J. Electric Power Engineering Technology, 2021,40(1): 131-137.高電壓技術(shù)1

18、特殊工業(yè)粉塵地區(qū)復(fù)合絕緣子自然積污特性研究邵仕超， 畢曉甜， 李明哲 ， 等. 特殊工業(yè)粉塵地區(qū)復(fù)合絕緣子自然積污特性研究J. 電力工程技術(shù), 2021,40(1):138-141,154.HUANG Peng, DAI Wei, ZHANG Ying, et al. Multi-function grid-connected inverter control with APF function J. Electric Power Engineering Technology, 2021,40(1): 138-141,154.2 X-蠟生成過程中自由基產(chǎn)生的分子動力學(xué)仿真沈殷和， 齊波， 林元

19、棣， 等. X-蠟生成過程中自由基產(chǎn)生的分子動力學(xué)仿真J. 電力工程技術(shù), 2021,40(1):142-146.SHEN Yinhe, QI Bo, LIN Yuandi, et al. Molecular dynamics simulation of free radical generation during X-wax generation J. Electric Power Engineering Technology, 2021,40(1): 142-146.3 油浸式高壓套管局部放電非接觸式特高頻檢測陳鉅棟， 江軍， 楊小平， 等. 油浸式高壓套管局部放電非接觸式特高頻檢測J.

20、電力工程技術(shù), 2021,40(1):147-154.CHEN Judong, JIANG Jun, YANG Xiaoping, et al. Non-contact partial discharge detection of high voltage oil-impregnated-paper bushing based on UHF technology J. Electric Power Engineering Technology, 2021,40(1): 147-154.4 基于密度泛函理論的油中溶解氣體吸附分析周倩， 陳振偉， 張施令， 等. 基于密度泛函理論的油中溶解氣體吸附

21、分析J. 電力工程技術(shù), 2021,40(1):155-161.ZHOU Qian, CHEN Zhenwei, ZHANG Shiling, et al. Dissolved gas in transformer oil absorption analysis based on density functional theory J. Electric Power Engineering Technology, 2021,40(1): 155-161.5 輸電線路雷擊接地散流與附近管道過電壓防護研究高曉東， 安韻竹， 畢斌， 等. 輸電線路雷擊接地散流與附近管道過電壓防護研究J. 電力工程技

22、術(shù), 2021,40(1):162-166,174.GAO Xiaodong, AN Yunzhu, BI Bin, et al. Lightning grounding dispersion of transmission lines and overvoltage protection of nearby pipelines J. Electric Power Engineering Technology, 2021,40(1): 162-166,174.智能電網(wǎng)技術(shù)1 基于WNN與FCM的電動汽車動態(tài)充電負荷預(yù)測方法張?zhí)炫啵?王成亮， 崔恒志， 等. 基于WNN與FCM的電動汽車動態(tài)充電

23、負荷預(yù)測方法J. 電力工程技術(shù), 2021,40(1):167-174.ZHANG Tianpei, WANG Chengliang, CUI Hengzhi, et al. Dynamic charging load prediction method of electric vehicle based on wavelet neural network and FCM J. Electric Power Engineering Technology, 2021,40(1): 167-174.2 基于LSTM循環(huán)神經(jīng)網(wǎng)絡(luò)的短期電力負荷預(yù)測龐傳軍， 張波， 余建明. 基于LSTM循環(huán)神經(jīng)網(wǎng)絡(luò)的

24、短期電力負荷預(yù)測J. 電力工程技術(shù), 2021,40(1):175-180,194.PANG Chuanjun, ZHANG Bo, YU Jianming. Short-term power load forecasting based on LSTM recurrent neural network J. Electric Power Engineering Technology, 2021,40(1): 175-180,194.3 基于時序差分學(xué)習(xí)的充電站有序充電方法江明， 許慶強， 季振亞. 基于時序差分學(xué)習(xí)的充電站有序充電方法J. 電力工程技術(shù), 2021,40(1):181-187

25、.JIANG Ming, XU Qingqiang, JI Zhenya. Coordinated charging approach for charging stations based on temporal difference learning J. Electric Power Engineering Technology, 2021,40(1): 181-187.電機與電器1 基于深度置信網(wǎng)絡(luò)的雙饋風(fēng)機變換器開路故障診斷夏候凱順， 李波. 基于深度置信網(wǎng)絡(luò)的雙饋風(fēng)機變換器開路故障診斷J. 電力工程技術(shù), 2021,40(1):188-194.XIAHOU Kaishun, LI

26、Bo. Open-switch fault diagnosis of converters of doubly-fed induction generator-based wind turbine using deep belief networks J. Electric Power Engineering Technology, 2021,40(1): 188-194.2 磷酸鐵鋰電池模組過充熱失控特性及細水霧滅火效果趙藍天， 金陽， 趙智興， 等. 磷酸鐵鋰電池模組過充熱失控特性及細水霧滅火效果J. 電力工程技術(shù), 2021,40(1):195-200，207.ZHAO Lantian, JIN Yang, ZHAO Zhixing, et al. Thermal runaway characteristic of lithium iron phosphate battery modules through overcha