Any problem with voltage in a power network is undesirable as it aggravates the quality of the power. Power electronic devices such as Voltage Source Converter (VSC) based Static Synchronous Compensator (STATCOM) etc....Any problem with voltage in a power network is undesirable as it aggravates the quality of the power. Power electronic devices such as Voltage Source Converter (VSC) based Static Synchronous Compensator (STATCOM) etc. can be used to mitigate the voltage problems in the distribution system. The voltage problems dealt with in this paper are to show how to mitigate unbalanced voltage sags and voltage unbalance in the CIGRE Low Voltage (LV) test network and networks like this. The voltage unbalances, for the tested cases in the CIGRE LV test network are mainly due to single phase loads and due to unbalanced faults. The compensation of unbalanced voltage sags and voltage unbalance in the CIGRE distribution network is done by using the four STATCOM compensators already existing in the test grid. The simulations are carried out in DIgSILENT power factory software version 15.0.展开更多
In order to facilitate the electricity market operation and trade in the restructured environment, ample transmission capability should be provided to satisfy the demand of increasing power transactions. The conflict ...In order to facilitate the electricity market operation and trade in the restructured environment, ample transmission capability should be provided to satisfy the demand of increasing power transactions. The conflict of this requirement and the restrictions on the transmission expansion in the restructured electrical market has motivated the development of methodologies to enhance the Available Transfer Capability (ATC) of the existing transmission grids. The insertion of FACTS devices in electrical systems seems to be a promising strategy to enhance ATC. In this paper, the viability and technical merits of boosting ATC using Thyristor Controlled Series Compensator (TCSC) is being analyzed. The work has been carried out on IEEE 30 bus and IEEE 118 bus systems. Bilateral and multilateral transactions are considered. Particle Swarm Optimization (PSO) algorithm and Genetic Algorithm (GA) are employed to obtain the optimal settings of TCSC.展开更多
提出了电力系统负荷模型中统一模拟配电网网络、无功补偿和感应电动机的模型,该模型可以简化电力系统仿真中配电网络的模拟,提高了配电网络中感应电动机模型的精度;同时提出了一种确定配电网络无功补偿容量的简便算法。所提出的模型和...提出了电力系统负荷模型中统一模拟配电网网络、无功补偿和感应电动机的模型,该模型可以简化电力系统仿真中配电网络的模拟,提高了配电网络中感应电动机模型的精度;同时提出了一种确定配电网络无功补偿容量的简便算法。所提出的模型和算法已在PSD电力系统分析软件工具(PSD Power Tools)中的中国版BPA暂态稳定程序和电力系统全过程动态仿真程序中实现,该程序可根据配电网络的综合阻抗和指定的电动机机端电压与系统母线电压的比值系数,自动求得无功补偿量和无功补偿电抗值。模型和算法可以提高电力系统仿真中计及配电网络和无功补偿的感应电动机模型的精度。并得到了验证。展开更多
为快速识别实时潮流转移,基于直流潮流-补偿原理推导了用于快速预估多支路开断后潮流分布的支路开断分布因子(Line Tripping Distribution Factors,LTDF)的计算方法,结合改进的严重度函数,给出了用于评价支路受潮流转移影响程度的过载...为快速识别实时潮流转移,基于直流潮流-补偿原理推导了用于快速预估多支路开断后潮流分布的支路开断分布因子(Line Tripping Distribution Factors,LTDF)的计算方法,结合改进的严重度函数,给出了用于评价支路受潮流转移影响程度的过载严重度指标和关键支路集的概念及其求解过程,对单支路或多支路开断同样适用,为后续减载控制策略缩小了分析范围。对New-England 10机39节点系统的算例分析表明,该方法可准确预估开断后潮流,快速有效识别受潮流转移影响严重支路,克服了以往仅用分布因子去评价支路受潮流转移影响程度的不确切性和漏选重要支路的不足,具备合理性、可行性及快速性。展开更多
文摘Any problem with voltage in a power network is undesirable as it aggravates the quality of the power. Power electronic devices such as Voltage Source Converter (VSC) based Static Synchronous Compensator (STATCOM) etc. can be used to mitigate the voltage problems in the distribution system. The voltage problems dealt with in this paper are to show how to mitigate unbalanced voltage sags and voltage unbalance in the CIGRE Low Voltage (LV) test network and networks like this. The voltage unbalances, for the tested cases in the CIGRE LV test network are mainly due to single phase loads and due to unbalanced faults. The compensation of unbalanced voltage sags and voltage unbalance in the CIGRE distribution network is done by using the four STATCOM compensators already existing in the test grid. The simulations are carried out in DIgSILENT power factory software version 15.0.
文摘In order to facilitate the electricity market operation and trade in the restructured environment, ample transmission capability should be provided to satisfy the demand of increasing power transactions. The conflict of this requirement and the restrictions on the transmission expansion in the restructured electrical market has motivated the development of methodologies to enhance the Available Transfer Capability (ATC) of the existing transmission grids. The insertion of FACTS devices in electrical systems seems to be a promising strategy to enhance ATC. In this paper, the viability and technical merits of boosting ATC using Thyristor Controlled Series Compensator (TCSC) is being analyzed. The work has been carried out on IEEE 30 bus and IEEE 118 bus systems. Bilateral and multilateral transactions are considered. Particle Swarm Optimization (PSO) algorithm and Genetic Algorithm (GA) are employed to obtain the optimal settings of TCSC.
文摘提出了电力系统负荷模型中统一模拟配电网网络、无功补偿和感应电动机的模型,该模型可以简化电力系统仿真中配电网络的模拟,提高了配电网络中感应电动机模型的精度;同时提出了一种确定配电网络无功补偿容量的简便算法。所提出的模型和算法已在PSD电力系统分析软件工具(PSD Power Tools)中的中国版BPA暂态稳定程序和电力系统全过程动态仿真程序中实现,该程序可根据配电网络的综合阻抗和指定的电动机机端电压与系统母线电压的比值系数,自动求得无功补偿量和无功补偿电抗值。模型和算法可以提高电力系统仿真中计及配电网络和无功补偿的感应电动机模型的精度。并得到了验证。
文摘为快速识别实时潮流转移,基于直流潮流-补偿原理推导了用于快速预估多支路开断后潮流分布的支路开断分布因子(Line Tripping Distribution Factors,LTDF)的计算方法,结合改进的严重度函数,给出了用于评价支路受潮流转移影响程度的过载严重度指标和关键支路集的概念及其求解过程,对单支路或多支路开断同样适用,为后续减载控制策略缩小了分析范围。对New-England 10机39节点系统的算例分析表明,该方法可准确预估开断后潮流,快速有效识别受潮流转移影响严重支路,克服了以往仅用分布因子去评价支路受潮流转移影响程度的不确切性和漏选重要支路的不足,具备合理性、可行性及快速性。