全部文献期刊会议图书|学者科研项目
中外文文献  中文文献  外文文献
作者:... Jiakun Fang , Xiaomeng Ai , Jinyu Wen
来源:[J].International Journal of Electrical Power and Energy Systems(IF 3.432), 2020, Vol.116
摘要:Abstract(#br)This paper proposes a wide-area measurement-based data-driven approach for fault time determination and fault area location in the power system. To avoid the influence of bad data, the random matrix theory (RMT) is applied to the proposed approach. The measurements o...
作者:Jinyu Wen , Xiaobo Yang ...
来源:[J].Applied Energy(IF 4.781), 2020, Vol.259
摘要:Abstract(#br)The distributed maximum power point tracking (DMPPT) technologies, based on a DC optimizer (DCO) for every single photovoltaic (PV) panel, are increasingly proposed to mitigate the waste of solar energy due to the mismatch problems of PV arrays. However, the stabilit...
作者:... Tao Ding , Zhe Chen , Jinyu Wen
来源:[J].International Journal of Electrical Power and Energy Systems(IF 3.432), 2020, Vol.118
摘要:Abstract(#br)This paper proposes a hybrid approximate dynamic programming (HADP) approach for the optimal operation of integrated gas and power systems (IGPS) under the stochastic environment. The proposed HADP, combining the advantages of the model predictive control (MPC) ...
作者:Jianfeng Wen , Jiakun Fang ...
来源:[J].Applied Energy(IF 4.781), 2020, Vol.263
摘要:Abstract(#br)Online transient stability assessment (TSA) is vital for power system control as it provides the basis for operators to decide emergency control actions. But none of previous TSA research has taken into consideration the difference between two instability modes (aper...
作者:... Wei Yao , Jinyu Wen , Shijie Cheng
来源:[J].Journal of the Franklin Institute(IF 2.418), 2017, Vol.354 (18), pp.8312-8332
摘要:Abstract(#br)This paper develops a robust consensus-based distributed cooperative control scheme for DC microgrids with asymmetric time delays and switching topologies in noisy environments. The proposed distributed cooperative control scheme, consisting of a leader-followin...
作者:... Wenping Zuo , Zhe Chen , Jinyu Wen
来源:[J].Applied Energy(IF 4.781), 2019, Vol.254
摘要:Abstract(#br)This paper proposes the data-adaptive robust optimization for the optimal unit commitment in the hybrid AC/DC power system. With the convexified branch flow model interconnecting the AC and DC power grid, the unit commitment problem in the hybrid AC/DC power system i...
作者:... Wenping Zuo , Weixing Lin , Jinyu Wen
来源:[J].International Journal of Electrical Power and Energy Systems(IF 3.432), 2019, Vol.109, pp.685-695
摘要:Abstract(#br)Hybrid high voltage direct current circuit breakers (DCCBs) are capable of interrupting fault current within a few milliseconds, but this technology has high capital cost, especially in a meshed HVDC grid. To increase the economic competitiveness of hybrid DCCBs, thi...
作者:... Xiaomeng Ai , Jinyu Wen , Haibo He
来源:[J].Applied Energy(IF 4.781), 2019, Vol.249, pp.265-275
摘要:Abstract(#br)Network and load recovery (NLR) during power system restoration is a multi-step mixed-integer nonlinear programming (MINP) problem. The NLR is difficult to be solved as it is NP-hard. Thus, NLR is commonly solved step by step, which is short-sighted and will result i...
作者:... Xiaomeng Ai , Jinyu Wen , Haibo He
来源:[J].International Journal of Electrical Power and Energy Systems(IF 3.432), 2019, Vol.109, pp.558-574
摘要:Abstract(#br)This paper proposes a data-driven adaptive wide-area damping controller (D-WADC) for back-to-back VSC-HVDC to suppress the low frequency oscillation in a large-scale interconnected power system. The proposed D-WADC adopts a dual-loop control structure to make full us...
作者:... Wenping Zuo , Zhe Chen , Jinyu Wen
来源:[J].Applied Energy(IF 4.781), 2018, Vol.230, pp.1279-1291
摘要:Abstract(#br)The intermittent nature of wind power increases the need for flexibility of the power system. This paper proposes the systematic approach for the joint dispatch of energy and reserve incorporating demand response, including the formulation of the two-stage optimizati...

我们正在为您处理中,这可能需要一些时间,请稍等。

资源合作:cnki.scholar@cnki.net, +86-10-82896619   意见反馈:scholar@cnki.net

×