首页|期刊导航|电力建设|考虑用户心理不舒适度和电压约束的配电网改进负荷准线双层优化方法

考虑用户心理不舒适度和电压约束的配电网改进负荷准线双层优化方法OA

A Bi-Layer Optimization Method for Improved Customer Directrix Line of Distribution Networks Considering Users'Psychological Discomfort and Voltage Constraint

中文摘要英文摘要

[目的]针对负荷准线的激励机制尚存在优化空间及其实施过程中未考虑电压约束和低压配网用户心理不舒适度的问题,提出一种考虑低压配网用户心理不舒适度和电压约束的配电网改进负荷准线双层优化方法.[方法]首先,对传统负荷准线的概念及实施机制进行分析,讨论其未计及对系统电压的影响和低压配网用户心理不舒适度等不足.其次,综合考虑用户的心理不舒适成本和系统电压约束,建立改进负荷准线的双层优化模型.模型外层以电网综合成本最小为目标,优化发布的负荷准线及激励价格,并采用粒子群算法进行求解.内层以最小化用户综合成本为目标,对用户的偏移电量进行优化,并采用内点法进行求解.然后,提出了基于所提改进负荷准线的需求侧响应实施方案.[结果]在MATLAB平台上,基于IEEE 33节点系统的算例结果表明,所提方法使在准线的实施过程中系统各节点电压偏差均维持在额定值的±7%内,且相比于准线开展前,减少了5.66%左右的弃光率,同时也减小了用户的经济成本.[结论]所提方法中激励价格的制定考虑了电网与用户间的柔性互动,实现了电网与用户的共赢.同时所提方法可以保证在电压不越限的前提下促进光伏消纳,而且考虑了心理不舒适度对用户决策的影响,使用户响应效果更加贴合实际,对电网制定提高用户对准线的追踪精度措施具有一定参考意义.

[Objective]In response to the problem that the incentive mechanism of customer directrix line still has room for improvement and does not consider voltage constraint and low-voltage distribution network users'psychological discomfort in the implementation process,a bi-layer optimization method for improved customer directrix line of distribution networks considering low-voltage distribution network users'psychological discomfort and voltage constraint is proposed.[Methods]First,the concept and implementation mechanism of the traditional customer directrix line are analyzed,and its shortcomings such as not considering the influence on system voltage and the psychological discomfort of low-voltage distribution network users are discussed.Second,considering users′ psychological discomfort cost and system voltage constraint,a bi-layer optimization model for improved customer directrix line is established.The outer layer of the model optimizes the released customer directrix line and incentive price with the purpose of minimizing the comprehensive cost of the power grid,and finds the solution via the particle swarm optimization algorithm.The inner layer optimizes users'offset power to minimize users'comprehensive cost,and finds the solution via the interior point method.Then,a demand-side response(DR)implementation scheme based on the proposed improved customer directrix line is proposed.[Results]On the MATLAB platform,the results of the test case based on the IEEE 33-bus system show that the proposed method maintains the voltage at each bus in the system within±7%of the rated value during the implementation of the improved customer directrix line,and reduces both the solar curtailment rate by around 5.66%and the economic cost of users compared with those before such implementation.[Conclusions]The formulation of incentive price in the proposed method takes into account the flexible interaction between the power grid and users,and achieves a win-win situation between the power grid and users.At the same time,the proposed method also promotes the photovoltaic(PV)accommodation under the premise that the voltage does not exceed the limit.In addition,it takes into account the influence of psychological discomfort on users'decision-making,so that the effectiveness of users'response can be more realistic.This offers valuable insights for the power grid to formulate measures to improve users'tracking accuracy of customer directrix line.

彭志豪;欧阳森;康澜

华南理工大学电力学院,广州市 510640华南理工大学电力学院,广州市 510640华南理工大学电力学院,广州市 510640

信息技术与安全科学

用户心理不舒适度电压约束负荷准线激励价格双层优化低压配网

users'psychological discomfortvoltage constraintcustomer directrix lineincentive pricebi-layer optimizationlow-voltage distribution network

《电力建设》 2026 (2)

112-123,12

国家自然科学基金项目(52177085) This work is supported by National Natural Science Foundation of China(No.52177085).

10.12204/j.issn.1000-7229.2026.02.009

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