Dispatching decision model considering reactive power adjustment priority of extensive load aggregators

被引：0

作者：

Li X. ^{[1
]}

Lin Y. ^{[1
]}

Liu C. ^{[1
]}

He Y. ^{[1
]}

Gu D. ^{[2
]}

机构：

[1] State Grid Inner Mongolia East Electric Power Co., Ltd., Hohhot

[2] School of Automation Engineering, Northeast Electric Power University, Jilin

来源：

Taiyangneng Xuebao/Acta Energiae Solaris Sinica | 2022年 / 43卷 / 05期

关键词：

Dispatch decision; Extensive load aggregator; Power market; Reactive power dispatch priority;

D O I：

10.19912/j.0254-0096.tynxb.2021-1350

中图分类号：

学科分类号：

摘要：

In view of the problems that load aggregators such as flexible loads, distributed energy storage and distributed power sources have in participating in power market dispatching, this paper integrates various distributed resources to form a wide range of load aggregators, and establishes a decision model for the participation of extensive load aggregators in power market dispatch considering reactive power priority. Firstly, considering the characteristics of the reactive power adjustable level, the reliability of reactive power regulation, the regulation economy and the active power support level of different distributed resources when participating in grid dispatching, a dispatch priority evaluation model based on the entropy weight method was established in this paper. Then, this paper establishes a decision model and its solution with the goal of maximizing the benefits of a wide range of load aggregators participating in power market. Finally, a simulation example shows the effectiveness and economy of the decision model proposed in this paper. © 2022, Solar Energy Periodical Office Co., Ltd. All right reserved.

引用

页码：67 / 73

页数：6

共 25 条

[1] CHAI X H, ZHANG C J, CHAI J G, Et al., Variable adjustment factor soc droop control and power regulation in distributed energy storage, Acta energiae solaris sinica, 42, 9, pp. 477-482, (2021)
[2] WANG L, ZHANG F, KOU L F, Et al., Large-scale distributed PV cluster division based on fast-unfolding clustering algorithm, Acta energiae solaris sinica, 42, 10, pp. 29-34, (2021)
[3] WANG Z D, TENG Y, HUI Q, Et al., A sustainable development multi-energy system planning method incorporating the demand of waste disposal and peak shaving, Proceedings of the CSEE, 41, 11, pp. 3781-3797, (2021)
[4] XIE W, DUAN J M., The solar energy charging system with mppt for electric vehicle, Acta energiae solaris sinica, 37, 1, pp. 84-91, (2016)
[5] NGUYEN D T, LE L B., Risk-constrained profit maximization for microgrid aggregators with demand response, IEEE transactions on smart grid, 6, 1, pp. 135-146, (2015)
[6] TENG Y, WANG Z D, JIN H Y, Et al., A model and coordinated optimization for the multi-energy storage system of electricity heat hydrogen to regulation enhancement of power grid, Proceedings of the CSEE, 39, 24, pp. 7209-7217, (2019)
[7] JIA H, PENG J Q, LI N P, Et al., Optimization and economic analysis of distributed photovoltaic-energy storage system under dynamic electricity price, Acta energiae solaris sinica, 42, 5, pp. 187-193, (2021)
[8] YANG Q X, GAO C, LIU T X, Et al., Risk analysis on fuzzy random optimal dispatching of photovoltaic power consumption considering flexible load, Acta energiae solaris sinica, 41, 7, pp. 142-151, (2020)
[9] HE Q M, LIU X F, WANG Q, Et al., Scheduling strategy of load aggregator considering priority classification of electricity consumption satisfaction, Power system technology, 45, 7, pp. 2666-2675, (2021)
[10] LIU G C, LU Z X, YANG Z C, Et al., Distributed energy storage aggregation control method considering soc equalization, Power capacitor & reactive power compensation, 41, 3, pp. 174-181, (2020)

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