《电力自动化设备》

引用本文:	李鹏,王成山,黄碧斌,高菲,丁承第,于浩.分布式发电微网系统暂态时域仿真方法研究——（三）算例实现与仿真验证[J].电力自动化设备,2013,33(4):
	LI Peng,WANG Chengshan,HUANG Bibin,GAO Fei,DING Chengdi,YU Hao.Methodology of transient simulation in time domain for DG and microgrid（3）：case study and validation[J].Electric Power Automation Equipment,2013,33(4):

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分布式发电微网系统暂态时域仿真方法研究——（三）算例实现与仿真验证
李鹏¹, 王成山¹, 黄碧斌², 高菲³, 丁承第¹, 于浩¹
1.天津大学智能电网教育部重点实验室，天津 300072;2.国家电网能源研究院，北京 100052;3.中国电力科学研究院，北京 100192

摘要:

为验证分布式发电系统暂态仿真算法的正确性和有效性，通过选取典型的分布式电源及相应的控制策略，实现了包括光伏发电单元、固体氧化物燃料电池发电单元、微型燃气轮机发电单元及蓄电池储能单元在内的各种分布式发电系统的建模与暂态仿真，考察了在欧盟典型低压微网系统结构下，微网从并网状态切换到孤岛状态时系统的暂态过程，详细比较了TSDG与MATLAB／SimPowerSystems的仿真结果。仿真结果表明 TSDG与MATLAB／SimPowerSystems计算误差不超过0.1 %，具有良好的数值精度与数值稳定性。伪牛顿法对程序仿真计算速度具有较大幅度的提升。讨论了未来通过并行思想、多速率算法等方式提高程序计算性能的思路。

关键词: 分布式发电微网暂态仿真时域光伏电池燃料电池微型燃气轮机蓄电池

DOI：

分类号:

基金项目:国家自然科学基金资助项目（51207100，５１２６１１３０-４７３）；国家重点基础研究发展计划（973计划）资助项目（2009-CB219700，2010CB234600）

Methodology of transient simulation in time domain for DG and microgrid（3）：case study and validation

LI Peng¹, WANG Chengshan¹, HUANG Bibin², GAO Fei³, DING Chengdi¹, YU Hao¹

1.Key Laboratory of Smart Grid of Ministry of Education，Tianjin University，Tianjin 300072，China;2.State Grid Energy Research Institute，Beijing 100052，China;3.China Electric Power Research Institute，Beijing 100192，China

Abstract:

Typical DGs and corresponding control strategies are selected for validating the correctness and effectiveness of transient simulation algorithm for DG system. Different DG systems are modeled and simulated，including PV，SOFC，microturbine and battery. The transients from grid-connected mode to islanded mode are investigated for typical European low-voltage microgrid and the simulative results are compared in detail between TSDG and MATLAB／SimPowerSystems，which shows the maximum relative error is less than 0.1 %，proving the high numerical accuracy and numerical stability of TSDG. The application of pseudo Newton method enhances the calculation speed. The concepts of parallel processing and multi-rate algorithm to improve the calculation performance in future work are discussed.

Key words: distributed power generation microgrid transient simulation time domain photovoltaic cells fuel cells microturbine electric batteries

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