在新能源电网运行控制领域,发表SCI/EI检索论文70余篇,其中第一/通讯作者SCI/EI期刊论文40余篇,授权/实审发明专利36项。 [1] Feng Zhang, Zechun Hu, Ke Meng, Lei Ding and Zhaoyang Dong, "HESS Sizing Methodology for an Existing Thermal Generator for the Promotion of AGC Response Ability," in IEEE Transactions on Sustainable Energy, vol. 11, no. 2, pp. 608-617, Apr. 2020. [2] Feng Zhang, Ke Meng, Zhao Xu, Zhaoyang Dong, Li Zhang, Can Wan and Jun Liang, "Battery ESS Planning for Wind Smoothing via Variable-Interval Reference Modulation and Self-Adaptive SOC Control Strategy," in IEEE Transactions on Sustainable Energy, vol. 8, no. 2, pp. 695-707, Apr. 2017. [3] Feng Zhang, Guibin Wang, Ke Meng, Junhua Zhao, Zhao Xu, Zhaoyang Dong and Jun Liang, "Improved Cycle Control and Sizing Scheme for Wind Energy Storage System Based on Multiobjective Optimization," in IEEE Transactions on Sustainable Energy, vol. 8, no. 3, pp. 966-977, Jul. 2017. [4] Gang Zhang, Feng Zhang, Xin Zhang, Ke Meng and Zhaoyang Dong, "Sequential Disaster Recovery Model for Distribution Systems With Co-Optimization of Maintenance and Restoration Crew Dispatch," in IEEE Transactions on Smart Grid, vol. 11, no. 6, pp. 4700-4713, Nov. 2020. [5] Gang Zhang, Feng Zhang, Xin Zhang, Zhaoyu Wang, Ke Meng and Zhaoyang Dong. "Mobile Emergency Generator Planning in Resilient Distribution Systems: A Three-Stage Stochastic Model with Nonanticipativity Constraints," in IEEE Transactions on Smart Grid, vol. 11, no. 6, pp. 4847-4859, Dec. 2020. [6] Gang Zhang, Feng Zhang, Lei Ding, Ke Meng and Zhaoyang Dong. "Wind Farm Level Coordination for Optimal Inertial Control with a Second-Order Cone Predictive Model." in IEEE Transactions on Sustainable Energy, vol. 12, no. 4, pp. 2353-2366, Oct. 2021. [7] Gang Zhang, Feng Zhang, Xiaoyu Wang and Xin Zhang. "Fast Resilience Assessment of Distribution Systems with a Non-Simulation-Based Method," in IEEE Transactions on Power Delivery, 2022: 37(2):1088-1099 [8] Gang Zhang, Feng Zhang, Ke Meng, Xin Zhang and Zhaoyang Dong, "A Fixed-Point Based Distributed Method for Energy Flow Calculation in Multi-Energy Systems," in IEEE Transactions on Sustainable Energy, vol. 11, no. 4, pp. 2567-2580, Oct. 2020. [9] Haishu Gao, Feng Zhang, Lei Ding, Bertrand Cornelusse, Gang Zhang, Athuman Salimu, "Multi-segment droop control and optimal parameter setting strategy of wind turbine for frequency regulation", in International Journal of Electrical Power & Energy Systems, vol. 158, pp.109968, Jul. 2024. [10] Athuman Salimu1, Feng Zhang,Gang Zhang, et al,"Coordinated operation and optimal sizing strategy of P2G—CNG trucks scheme on wind farm for participating in retail gas market, "Frontiers in Energy Research, Available Online. [11] Feng Zhang, Athuman Salimu and Lei Ding. "Operation and Optimal Sizing of Combined P2G-GfG Unit with Gas Storage for Frequency Regulation Considering Curtailed Wind Power." in International Journal of Electrical Power & Energy Systems, vol. 141. Oct. 2022 [12] Feng Zhang, Zechun Hu, Ke Meng, Lei Ding and Zhaoyang Dong, " Sequence Control Strategy for Hybrid Energy Storage System for Wind Smoothing," in IET Generation Transmission & Distribution, vol. 13, no. 19, pp. 4482-4490, OCT. 2019. [13] Feng Zhang, Aihui Fu, Lei Ding and Qiuwei Wu, "MPC Based Control Strategy for Battery Energy Storage Station in A Grid with High Photovoltaic Power Penetration," in International Journal of Electrical Power & Energy Systems, vol. 115: 105448, Feb. 2020. [14] Feng Zhang, Aihui Fu, Lei Ding, Qiuwei Wu, Bing Zhao and Peng Zi, "Optimal Sizing of ESS for Reducing AGC Payment in A Power System with High PV Penetration," in International Journal of Electrical Power & Energy Systems, vol. 110, pp. 809-818, Sep. 2019. [15] Feng Zhang, Zhao Xu and Ke Meng, "Optimal Sizing of Substation-Scale Energy Storage Station Considering Seasonal Variations in Wind Energy," in IET Generation Transmission & Distribution, vol. 10, no. 13, pp. 3241–3250, Jul. 2016. [16] Gang Zhang, Feng Zhang, Xin Zhang, Qiuwei Wu and Ke Meng. "A Multi-Disaster-Scenario Distributionally Robust Planning Model for Enhancing the Resilience of Distribution Systems." in International Journal of Electrical Power & Energy Systems, vol. 122, Jul. 2020. [17] Gang Zhang, Feng Zhang, Ke Meng and Zhaoyang Dong, "A Distributed Calculation Method for Robust Day-Ahead Scheduling of Integrated Electricity-Gas Systems," in International Journal of Electrical Power & Energy Systems, vol 136. Nov. 2021. [18] Bo Peng, Feng Zhang, Jun Liang, Lei Ding, Zhenglin Liang and Qiuwei Wu. "Coordinated Control Strategy for the Short-term Frequency Response of A DFIG-ES System Based on Wind Speed Zone Classification and Fuzzy Logic Control." in International Journal of Electrical Power & Energy Systems, vol. 107. pp. 363-378, Feb. 2019. [19] Bo Peng, Feng Zhang, Jun Liang, Lei Ding and Qiuwei Wu. "An Optimal Control and Sizing Strategy for A Coordinated WTG-ES System to Provide Frequency Support." in International Journal of Electrical Power & Energy Systems, vol. 113. pp. 251-263, Aug. 2019 [20] 刘玉玲,张峰*,张刚,丁磊. 考虑分布式电源的配电网灾中-灾后两阶段协同韧性恢复决策[J].电力系统自动,2024,48(2): 48-59 [21] 张峰,田宇,丁磊.风电虚拟惯量延时的影响机理模型解析及替代性研究[J].电力系统自动化:2024,48(7):267-276. [22] 高海淑,张峰*,丁磊. 风电机组两分段下垂调频控制策略及参数整定方法[J].电力系统自动化,2023,47(18):111-121 [23] 张峰,游欢欢,丁磊.新能源一次调频死区影响机理建模及系数修正策略[J].电力系统自动化,2023,47(06):158-167. [24] 张峰*,李柏慷,丁磊.考虑风电调频能量联动分配的时变调频参数设定方法[J].电力系统自动化,2022,46(16):188-197. [25] 李柏慷,张峰*,丁磊.双馈风机参与调频的速度控制器模糊协同控制及参数校正策略[J].电网技术,2022,46(02):596-605. [26] 王同森,张峰*,丁磊.考虑最优运行点的超速风电机组调频控制策略[J].电力自动化设备,2021,41(06):22-28. [27] 韩帅,张峰*,丁磊,等.基于混合Copula函数的风电场可用惯量评估方法[J].电力自动化设备,2021,41(03):189-195+210. [28] 张峰,杨志鹏,张利,等.计及多类型需求响应的孤岛型微能源网经济运行[J].电网技术,2020,44(02):547-557. [29] 贾兆昊,张峰*,丁磊.考虑功率四象限输出的配电网储能优化配置策略[J].电力系统自动化,2020,44(02):105-113. [30] 马亦耕,张峰*,丁磊.弃风参与电网调频的电转气-储气-燃气轮机容量优化配置[J].电力系统自动化,2020,44(07):79-86. [31] 张峰*,张鹏,梁军.考虑风电功率不确定性的风电场出力计划上报策略[J].电力自动化设备,2019,39(11):34-40. [32] 张鹏,张峰*,梁军,等.采用小波包分解和模糊控制的风电机组储能优化配置[J].高电压技术,2019,45(02):609-617. [33] 张刚,张峰*,张利,等.考虑碳排放交易的日前调度双阶段鲁棒优化模型[J].中国电机工程学报,2018,38(18):5490-5499. [34] 张刚,张峰*,张利,等.考虑多种耦合单元的电气热联合系统潮流分布式计算方法[J].中国电机工程学报,2018,38(22):6594-6605. [35] 付爱慧,张峰*,张利,等.考虑爬坡功率有限平抑的高渗透率光伏电网储能配置策略[J].电力系统自动化,2018,42(15):53-61. [36] 杨志鹏,张峰*,梁军,等.含热泵和储能的冷热电联供型微网经济运行[J].电网技术,2018,42(06):1735-1743. [37] 彭勃,张峰,梁军.考虑风速分区的风——储系统短期频率响应协同控制策略[J].电力系统自动化,2018,42(08):57-65. [38] 张峰,张熙,张利,等.区域风电场群储能电站的优化配置及运行策略[J].电工技术学报,2016,31(14):49-57. [39] 牛阳,张峰,张辉,梁军,杨立滨,宋光辉.提升火电机组AGC性能的混合储能优化控制与容量规划[J].电力系统自动化,2016,40(10):38-45+83. [40] 张熙,张峰*,梁军,等.基于风电功率预测的复合储能超前优化控制策略[J].电力系统自动化,2015,39(23):58-65. [41] 张熙,张峰*,巩乃奇,等.基于荷电状态动态调整的储能电站容量规划[J].电力自动化设备,2015,35(11):20-25. [42] 李正茂,张峰,梁军,贠志皓,张旭.计及附加机会收益的冷热电联供型微电网动态调度[J].电力系统自动化,2015,39(14):8-15. [43] 李正茂,张峰,梁军,贠志皓,张俊.含电热联合系统的微电网运行优化[J].中国电机工程学报,2015,35(14):3569-3576. [44] 张峰,梁军,张利,等.考虑最佳期望输出与荷电状态的风电场储能容量优化方法[J].电力系统自动化,2014,38(24):12-19. [45] 张峰,张旭,梁军,等.基于可变递进步长及期望输出的储能系统优化控制策略[J].电力系统自动化,2014,38(15):30-36. [46] 张峰,董晓明,梁军,等.考虑目标分解及其互补平抑的风电场复合储能容量优化[J].电力系统自动化,2014,38(07):9-15. [47] 李伟超,蔡德宇,武守远,张刚,张峰.风电机组附加有功控制参数对系统低频振荡的影响[J].高电压技术,2024,50(03):1145-1155. [48] 徐群,吕晓禄,武乃虎,张丹丹,张峰,冯江霞.考虑电池寿命和过放现象的风电场储能容量优化[J].电网技术,2014,38 (06):1505-1511. [49] 张学清,梁军,张熙,张峰,张利,徐兵.基于样本熵和极端学习机的超短期风电功率组合预测模型[J].中国电机工程学报,2013,33 (25):33-40+8. [50] 冯江霞,梁军,张峰,王成福,孙舶皓.考虑调度计划和运行经济性的风电场储能容量优化计算[J].电力系统自动化,2013,37 (01):90-95.
授权/实审专利 [1] 张峰,郭浩,丁磊. 高比例新能源电网考虑蓄热动态的风火协同调频方法:CN202111362151.8[P]. 2022-03-04. [2] 张峰,杨正扬,丁磊. 考虑水锤效应的风水协同调频控制方法、控制器及系统:CN202111363056.X[P]. 2022-03-04. [3] 张峰,李柏慷,丁磊,张用. 一种风电参与电网调频的时变调频参数设定方法及系统:CN202110236107.6[P]. 2021-06-25. [4] 张峰,李柏慷,丁磊,李华东. 一种考虑多环节协同控制的风电调频方法及系统:CN202110234532.1[P]. 2021-06-29. [5] 张峰,张刚,丁磊,张磊. 一种多风场最优调频方法及系统:CN202110234525.1[P]. 2021-07-23. [6] 丁磊,张峰,陈玉峰,李华东,张磊,张用,李新梅,陈素红,李明. 双馈风机虚拟惯量调频的动态转速保护方法及系统:CN201911135568.3[P]. 2021-04-02. [7] 张峰,王同森,丁磊,陈玉峰,李华东,张磊,张用,李新梅,陈素红,李明. 基于超速风机释放功率提升的风电调频控制方法及系统:CN201911137050.3[P]. 2021-04-23. [8] 张峰,马亦耕,丁磊,陈玉峰,李华东,张磊,张用,李新梅,陈素红,李明. 弃风参与电网调频的电转气-储气-燃气轮机容量优化配置方法及系统:CN201911088121.5[P]. 2021-02-02. [9] 张峰,贾兆昊,丁磊,陈玉峰,李华东,张磊,张用,李新梅,陈素红,李明. 考虑功率四象限输出的配电网储能优化配置方法及系统:CN201911088762.0[P]. 2020-02-21. [10] 徐震,杨海洋,张峰. 一种提高燃气轮机电热冷联供灵活性的方法及系统:CN201910285891.2[P]. 2020-03-27. [11] 徐震,董勇,张峰. 一种储能式高效空气源热泵供暖系统及方法:CN201810010718.7[P]. 2018-06-12 [12] 付爱慧,张峰,徐震. 考虑爬坡功率有限度平抑的光伏电网储能配置方法及系统:CN201710842324.3[P]. 2019-09-03. [13] 梁军,李和丰,贠志皓,张峰. 微电网下提高飞轮储能装置放电深度的控制方法:CN201710138681.1[P]. 2017-06-20. [14] 梁军,李和丰,贠志皓,张峰. 有冲击性负荷与飞轮储能的微电网运行方法及微电网系统:CN201710278440.7[P]. 2017-07-14. [15] 张峰,牛阳,梁军. 一种基于储能装置抑制反调的一次调频控制系统及方法:CN201610352552.8[P]. 2016-08-03. [16] 张峰,牛阳,梁军. 储能装置参与机组调频的优化控制与容量规划系统及方法:CN201510595882.5[P]. 2015-12-30. [17] 梁军,李正茂,张峰. 考虑冷热电联供和储能运行策略的微电网运行优化方法:CN201410724835.1[P]. 2015-03-04. [18] 张峰,梁军. 一种递进步长和期望输出均可变的储能系统优化控制方法:CN201410142960.1[P]. 2014-07-09. [19] 张峰,梁军. 区域风电场群储能电站的容量优化及其辅助调峰方法:CN201410067700.2[P]. 2014-06-18. [20]张峰,梁军. 一种复合储能的超前优化递进控制方法:CN201310362205.X[P]. 2013-11-20. [21] 张峰,梁军. 考虑目标分解及其互补平抑的风电场复合储能容量规划方法:CN201310303740.8[P]. 2013-10-23. [22] 张峰,梁军. 考虑最佳期望输出与荷电状态的风电场储能容量优化方法:CN201310302269.0[P]. 2013-10-02. [23] 张峰,梁军. 一种风电场功率波动平抑目标值的优化计算方法:CN201310223503.0[P]. 2013-10-02. [24] 张峰,高海淑,丁磊. 风电多分段下垂调频能力解析分析及自适应参数设定方法:CN202311142014.2[P]. 2023-10-27. [25] 张峰,张菡,丁磊. 一种基于可用调频能量约束的风电机组调频参数设定方法:CN202311584468.5[P]. 2024-03-08. [26] 张峰,张菡,丁磊. 一种考虑风电场风速时空分布差异的调频能量评估方法:CN202311584462.8[P]. 2024-02-23. [27] 张峰,刘玉玲,张刚,丁磊. 配电网灾中-灾后两阶段协同韧性恢复决策方法:CN202311132426.8[P]. 2023-12-08. [28] 张峰,游欢欢,丁磊. 考虑风速空间分布和波动性的风电场调频能量评估方法:CN202310750706.9[P]. 2023-10-27. [29] 张峰,张刚,丁磊. 适用于非统一管理环境的城市综合能源系统潮流分析方法:CN202310479458.9[P]. 2023-10-10. [30] 张峰,游欢欢,田宇,丁磊. 一种计及风电一次调频启动门槛影响的电网频率预测方法:CN202211465378.X[P]. 2023-03-28. [31] 张峰,孙克旭,丁磊. 一种用于抑制T接站间SVG无功环流的方法及系统:CN202211473145.4[P]. 2023-04-07. [32] 张峰,高海淑,丁磊. 一种非虚拟惯量风电机组的两分段下垂控制方法及系统:CN202211272933.7[P]. 2023-01-13. [33] 张峰,游欢欢,丁磊. 一种考虑调频死区的新能源一次调频系数修正方法及系统:CN202211272934.1[P]. 2023-03-14. [34] 张峰,田宇,丁磊. 一种考虑延时特性的风电机组调频方法及系统:CN202211273492.2[P]. 2023-01-10. [35] 张刚,高君宇,张峰,等. 一种考虑主动网络管理的配电网新能源消纳能力鲁棒评估方法与系统:CN202311609807.0[P]. 2024-02-20. [36] 谭珺元,张峰. 基于全寿命周期成本的风电储能优化方法及系统:CN202210242983.4[P]. 2022-06-07.
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