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Smart-Microgrid-PSO
- 智能微电网粒子群优化算法,微源:光伏、风机、发电机、储能等-Smart Microgrid PSO, micro sources: photovoltaic, wind turbines, generators, energy storage, etc.
Optimal stochastic reactive power scheduling in a microgrid considering voltage droop scheme of DGs and uncertainty of w
- Distributed Generators (DGs) in a microgrid may operate in three different reactive power control strategies, including PV, PQ and voltage droop schemes. This paper proposes a new stochastic programming approach for reactive power scheduling of a mic
liziqun
- 分块儿的两个程序用,粒子群算法进行的微电网经济性仿真-Two pieces by sub-program, microgrid economic PSO simulation
Microgrid-OPTIMIZATION-PSO
- PSO OPTIMIZATION IN MICROGRID
microgrid
- 以费用、污染物减排、负荷平衡为目标函数,含风力光伏发电系统的微网三目标调度程序,采用PSO算法。-To cost as objective function, pollutant emissions, load balance, including wind of photovoltaic power generation systems piconets three goal the scheduler, using PSO algorithm.
loss
- Reduce the operating costs of a microgrid with the impact of demand response in the presence of different types of joint programs pso open-loop control to set the basic simulation HVDC
pso
- 在微电网中综合考虑经济和环境两个目标,以各微源的运行上下限为约束条件,采用粒子群算法在matlab环境下进行了仿真,最后给出了微网各微源的最优机组组合方式和最佳电能交易计划。(The first establish micro multi-objective energy optimal operation model, taking into account both environmental and economic factors in the model, the operation
MOPSO-Iran
- PSO program for microgrid
mapso
- MAS PSO program for microgrid
Smart-Microgrid-PSO
- Particle swarm optimization algorithm in smart microgrid
Smart-Microgrid-PSO
- 直流微电网采用光伏发电,光伏的最大功率点采用粒子群优化算法实现。(The DC microgrid adopts photovoltaic power generation, and the maximum power point of PV is realized by particle swarm optimization (PSO).)
PSO_GD
- 假设微电网中有风、光、微型燃气轮机、蓄电池,且已知各时段负荷需求;考虑各机组运行成本、燃料成本、与污染物处理成本。该程序可解决在孤岛运行模式下,各机组出力如何分配才能达到经济最优的问题。(It is assumed that there are wind, light and micro gas turbines and batteries in the microgrid, and the load demand is known at each time period. The operat
PSO_BW
- 假设微电网中有风、光、微型燃气轮机、蓄电池,且已知各时段负荷需求;微电网可并网运行,当微网内部发电量较大时,可向电网卖电,而当内部发电不足时,可从大电网购电,价格参考实时电价。考虑各机组运行成本、燃料成本、污染物处理成本、以及买卖电支出或收益。该程序可解决在并网运行模式下,各机组出力如何分配才能达到经济最优的问题。(Suppose there are wind, light, micro gas turbines and batteries in the microgrid, and the l
PsoProcess_Micro_Grid
- 在假设负荷预测、风机和光伏未来出力已完全准确的情况下(允许弃风弃光),采用改进PSO算法对某含有风机、光伏、以及常规负荷的微电网未来24 小时的出力调控进行日前优化,以实现经济性最优(Under the assumption that the load forecasting, the wind turbine and the future power of the photovoltaic power are completely accurate (allowing for abandonm
PSO
- 微电网多目标调度,运用改进的多目标粒子群算法进行计算,里面包含经济等三个目标函数设置((Smart Microgrid PSO, micro sources: photovoltaic, wind turbines, generators, energy storage, etc.))
PSO
- 采用改进PSO对含风光发电的微电网出力进行优化(Optimizing the output of microgrid with wind power generation by using improved PSO)
PSO微网参考
- PSO的微网优化调度程序,包含数据和结果,推荐下载(PSO's microgrid optimization scheduling program, which contains data and results, and recommends downloading.)
micro-grid based on CSO
- 本文分析微网中微电源包括光伏发电、风力发电、微燃机、柴油发电机和燃料电池的电气特性,构建微电网优化运行的模型,以微网的经济成本和环境成本最小为目标函数,充分考虑了电压越限、功率平衡、微电源出力限制等约束条件,应用鸡群算法进行求解。 解决了粒子群算法易早熟、易陷入局部最优解的问题。并通过典型的微网系统进行仿真分析,仿真结果验证了该算法的有效性。(In this paper, the electrical characteristics of micro-power sources in micro
EMS_Microgrid
- 含风力发电、光伏、微型燃气轮机、储能的微电网能量管理,采用粒子群算法优化。(Particle swarm optimization (PSO) is used to optimize the energy management of microgrid including wind power generation, photovoltaic, micro gas turbine and energy storage.)
PSO
- 本程序为粒子群算法的源代码可应用于微电网的多目标经济优化调度(This program is the source code of particle swarm optimization algorithm and can be applied to multi-objective economic optimal dispatch of microgrid)