计及电能质量约束的微电网接入规划

doi:10.3969/j.issn.1000－7229.2016.09.013

摘要/Abstract

摘要： 近年来，电压波动、谐波等电能质量问题严重制约着配电网中微电网的大规模接入。该文创新性地提出了一种在规划前期考虑电能质量约束的微电网接入规划方法。首先推导了微电网功率概率波动模型，并给出了微电网电能质量静态评估方法。在考虑系统网损等其他经济因素的前提下，将电能质量指标转化为相关约束条件，并给出了微电网并网机会约束规划模型。由于所提出的模型是一个非线性混合整数规划问题，因此引入线性递减粒子群算法（linear decreasing inertia weight-particle swarm optimization, LDIW-PSO）进行求解。为了验证所提出的方法，在IEEE 33节点环境下针对某实际工业园微电网接入案例进行了仿真，仿真结果验证了所提出的方法能够有效提高微电网在配电网里的渗透率。

关键词: 微电网, 电能质量约束, 规划前期, 机会约束模型

Abstract: In nowadays, the power quality problems, such as voltage fluctuations and harmonic, limit the high integration of microgrid in the distribution network. This paper innovatively proposes a method for microgrid integration considering the power quality constrains preliminarily at the planning stage. Firstly, we derive the probabilistic power fluctuation model of microgrid, and present the static-state evaluation of power quality of microgrid. Based on the consideration of network loss and other economic benefits, we transform the power quality index into the related constraint conditions, and present the chance-constrained model for microgrid integration. As the proposed model is a mixed integer one consisting of both linear and non-linear element, we adopt linear decreasing inertia weight-particle swarm optimization （LDIW-PSO） algorithm to solve it. In order to verify the proposed method, we simulate the microgrid integration in a real industrial park under IEEE 33-bus system, whose results show that the proposed method can effectively improve the permeability of microgrid in distribution network.

Key words: microgrid, power quality constraints, preliminary planning, chance-constrained model

中图分类号:

TM 715

胡畔，陈红坤，朱晓航，陈聪. 计及电能质量约束的微电网接入规划[J]. 电力建设, 2016, 37(9): 93-.

HU Pan, CHEN Hongkun, ZHU Xiaohang, CHEN Cong. Integration Planning of Microgrid Considering Power Quality Constraints[J]. Electric Power Construction, 2016, 37(9): 93-.

参考文献

［1］HANG Jiajia, CHEN Jinfu, FAN Rongqi. Investigation of the influence of microgrid high large penetration ratios on power network stability［J］. Journal of Electric Power Science and Technology, 2009, 24（1）: 25-30. ［2］杨湛晔, 马红伟, 毛建容. 海岛微电网组网优化研究［J］. 电力建设, 2014，35（6）：63-68. YANG Zhanye, MA Hongwei, MAO Jianrong. Optimal combination technology of island microgrid［J］. Electric Power Construction, 2014，35（6）：63-68. ［3］杨新法, 苏剑, 吕志鹏, 等. 微电网技术综述［J］. 中国电机工程学报, 2014, 34（1）: 57-70. YANG Xinfa, SU Jian, LYU Zhipeng, et al. Overview on micro-grid technology［J］. Proceedings of the CSEE, 2014, 34（1）: 57-70. ［4］鲍薇, 胡学浩, 李光辉, 等. 提高负荷功率均分和电能质量的微电网分层控制［J］. 中国电机工程学报, 2013, 34（34）: 106-114. BAO Wei, HU Xuehao, LI Guanghui, et al. Hierarchical control of microgrid to improve power sharing and power quality［J］. Proceedings of the CSEE, 2013, 34（34）: 106-114. ［5］王成山, 焦冰琦, 郭力, 等. 微电网规划设计方法综述［J］. 电力建设, 2015, 36（1）: 38-45. 〖LL〗WANG Chengshan, JIAO Bingqi, GUO Li,et al. Review of methods of planning and design of microgrids ［J］. Electric Power Construction, 2015, 36（1）: 38-45. ［6］刘坤, 高峰, 翟桥柱, 等. 考虑负荷及煤气量不确定性的企业微电网自发电调度模型［J］. 中国电机工程学报, 2014, 34（13）: 2063-2070. LIU Kun, GAO Feng, ZHAI Qiaozhu, et al. A self-power generation scheduling model under load demand and uncertainty of a by-product of gas production in enterprises microgrid［J］. Proceedings of the CSEE, 2014, 34（13）: 2063-2070. ［7］戴上, 张焰, 祝达康. 含有微电网的配电网规划方法［J］. 电力系统自动化, 2010, 34（22）: 41-45. DAI Shang, ZHANG Yan, ZHU Dakang. Distribution network planning method containing micro-grid［J］. Automation of Electric Power Systems, 2010, 34（22）: 41-45. ［8］王兆宇, 艾芊. 智能配电网中微电网的多目标优化配置［J］. 电网技术, 2012,36（8）: 199-203. WANG Zhaoyu, AI Qian. Multi-objective allocation of microgrid in smart distribution network［J］. Power System Technology, 2012, 36（8）: 199-203. ［9］PIAGI Paolo, LASSETER R H. Autonomous control of microgrids［C］//Power Engineering Society General Meeting. Montreal: IEEE, 2006:8-12. ［10］刘健, 黄炜. 分布式光伏电源与负荷分布接近条件下的可接入容量分析［J］. 电网技术, 2015, 39（2）: 299-306. LIU Jian, HUANG Wei. Analysis on grid-connectible capacity of distributed PV generation in case of PV generation distribution close to load distribution［J］. Power System Technology, 2015, 39（2）: 299-306. ［11］武晓朦, 刘健, 毕鹏翔. 配电网电压稳定性研究［J］. 电网技术, 2006, 39（24）: 31-35. WU Xiaomeng, LIU Jian, BI Pengxiang. Research on voltage stability of distribution networks［J］. Power System Technology, 2006, 39（24）: 31-35. ［12］AHMAD N, et al. A novel particle swarm optimization algorithm with adaptive inertia weight［J］. Applied Soft Computing, 2011, 11（4）: 3658-3670. ［13］VENKATESH B, RANJAN R, GOOI H B. Optimal reconfiguration of radial distribution systems to maximize loadability［J］. IEEE Transactions on Power Systems, 2004,19（1）: 260-266. ［14］牛涛, 查申森, 钱康, 等. 变电站站用电系统中的微电网应用［J］. 电力建设, 2015,36（8）: 108-113. NIU Tao, ZHA Shensen, QIAN Kang,et al. Application of micro-grid system in auxiliary power system of substation ［J］. Electric Power Construction, 2015, 36（8）: 108-113. ［15］李斌, 张慧颖, 何佳伟. 主动配电网保护控制的设计与研究［J］. 电力建设, 2015, 36（1）: 91-96. LI Bin, ZHANG Huiying, HE Jiawei. Design and research on protection and control of active distribution network ［J］. Electric Power Construction, 2015, 36（1）: 91-96.

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