Firefly algorithm is the new intelligent algorithm used for all complex engineering optimization problems. Power system has many complex optimization problems one of which is the optimal power flow (OPF). Basically, i...Firefly algorithm is the new intelligent algorithm used for all complex engineering optimization problems. Power system has many complex optimization problems one of which is the optimal power flow (OPF). Basically, it is minimizing optimization problem and subjected to many complex objective functions and constraints. Hence, firefly algorithm is used to solve OPF in this paper. The aim of the firefly is to optimize the control variables, namely generated real power, voltage magnitude and tap setting of transformers. Flexible AC Transmission system (FACTS) devices may used in the power system to improve the quality of the power supply and to reduce the cost of the generation. FACTS devices are classified into series, shunt, shunt-series and series-series connected devices. Unified power flow controller (UPFC) is shunt-series type device that posses all capabilities to control real, reactive powers, voltage and reactance of the connected line in the power system. Hence, UPFC is included in the considered IEEE 30 bus for the OPF solution.展开更多
A new approach to maintenance scheduling of generating units(MSU)in competitive electricity markets was presented,which was formulated as a noncooperative game with complete information.The payoff of each generating c...A new approach to maintenance scheduling of generating units(MSU)in competitive electricity markets was presented,which was formulated as a noncooperative game with complete information.The payoff of each generating company(Genco)was defined as the profit from the energy auction market minus maintenance cost and risk loss.The compensation fee of interruptible load was a part of the maintenance cost when the permitted maintenance capacity in the system was insufficient.Hourly energy auction was incorporated in the computation of both revenues from energy market and risk loss of maintenance strategy as a nested game.A new heuristic search algorithm for the calculation of the game equilibrium of MSU was presented,which coordinates the solutions of non-equilibrium,unique equilibrium and multiple equilibria.Numerical results for a two-Genco system and a realistic system were used to demonstrate the basic ideas and the applicability of the proposed method,as well as its computational efficiency.展开更多
文中主要探讨配电网损耗的分配方法。针对含有转供和小电源的任意结构配电网,分析并给出了损耗分配的对象和基本要求。提出了一种基于节点电纳摄动改造配电网全节点导纳矩阵可逆性的方法。这种改造方法从损耗分配的合理性与潮流误差出...文中主要探讨配电网损耗的分配方法。针对含有转供和小电源的任意结构配电网,分析并给出了损耗分配的对象和基本要求。提出了一种基于节点电纳摄动改造配电网全节点导纳矩阵可逆性的方法。这种改造方法从损耗分配的合理性与潮流误差出发确定电纳摄动点和摄动值,使任意配电网的全节点阻抗矩阵能够可靠计算。最后基于全节点阻抗矩阵和交易的等值节点电流提出了一种通用的配电网损耗分配方法。这种分配方法既适用任意结构的配电网络和 Pool 与Bilateral 交易,又满足电路定律、具有可加性和聚合不变性结果验证了文中方法的有效性。展开更多
文摘Firefly algorithm is the new intelligent algorithm used for all complex engineering optimization problems. Power system has many complex optimization problems one of which is the optimal power flow (OPF). Basically, it is minimizing optimization problem and subjected to many complex objective functions and constraints. Hence, firefly algorithm is used to solve OPF in this paper. The aim of the firefly is to optimize the control variables, namely generated real power, voltage magnitude and tap setting of transformers. Flexible AC Transmission system (FACTS) devices may used in the power system to improve the quality of the power supply and to reduce the cost of the generation. FACTS devices are classified into series, shunt, shunt-series and series-series connected devices. Unified power flow controller (UPFC) is shunt-series type device that posses all capabilities to control real, reactive powers, voltage and reactance of the connected line in the power system. Hence, UPFC is included in the considered IEEE 30 bus for the OPF solution.
基金The National High Technology Research and Development Program of China(863Program)(No.2005AA505101-621)Important Science and Technology Research Project of Shanghai(No.041612012)
文摘A new approach to maintenance scheduling of generating units(MSU)in competitive electricity markets was presented,which was formulated as a noncooperative game with complete information.The payoff of each generating company(Genco)was defined as the profit from the energy auction market minus maintenance cost and risk loss.The compensation fee of interruptible load was a part of the maintenance cost when the permitted maintenance capacity in the system was insufficient.Hourly energy auction was incorporated in the computation of both revenues from energy market and risk loss of maintenance strategy as a nested game.A new heuristic search algorithm for the calculation of the game equilibrium of MSU was presented,which coordinates the solutions of non-equilibrium,unique equilibrium and multiple equilibria.Numerical results for a two-Genco system and a realistic system were used to demonstrate the basic ideas and the applicability of the proposed method,as well as its computational efficiency.
文摘文中主要探讨配电网损耗的分配方法。针对含有转供和小电源的任意结构配电网,分析并给出了损耗分配的对象和基本要求。提出了一种基于节点电纳摄动改造配电网全节点导纳矩阵可逆性的方法。这种改造方法从损耗分配的合理性与潮流误差出发确定电纳摄动点和摄动值,使任意配电网的全节点阻抗矩阵能够可靠计算。最后基于全节点阻抗矩阵和交易的等值节点电流提出了一种通用的配电网损耗分配方法。这种分配方法既适用任意结构的配电网络和 Pool 与Bilateral 交易,又满足电路定律、具有可加性和聚合不变性结果验证了文中方法的有效性。