搜索资源列表
psmg
- pscad仿真环境中的直驱永磁风力机整流侧仿真模型,可应用于直流微电网中直驱风机的仿真-the simulation environment pscad in direct-drive permanent magnet wind turbine rectifier simulation model can be applied to direct-drive wind turbine simulation of DC micro-gri
microgrid_pscad
- PSCAD,含光伏,风机,微汽轮机的微电网模型,包含PQ,vf控制。-pscad ,microgrid,pV,wt
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.
microgrid-system-simulation
- 演示了一个包含光伏、风机、储能及负荷的微电网系统仿真演示-Microgrid system demo
Peer_To_Peer_Operation
- 通过 MA TLAB/ Simulink 软件搭建光伏电池模型 、 简化燃料电池模型以及柴油发电机模型等微电源的 Simulink 模型 ,并利用 MA TLAB 自带的风机模型一起 , 构建简单的微电网模型-Through MA TLAB/ Simulink software to build photovoltaic cell model, The simplified fuel cell model and the S
pso-microgrid
- 微电网配置,风机,储能,发电机容量的配置和优化-Micro-grid configuration, fan, energy storage, generator capacity configuration and optimization
Microgrid_PQ
- 本模型模拟微电网分布式电源并网运行模式,电源采用理想直流电压源代替,逆变器采用PQ控制,包括P/Q外环控制器和电流的内环控制器,对于储能、风机、光伏等分布式电源的并网运行具有很高的参考价值,模型可运行,仿真结果稳定可靠。(This model to simulate the micro grid distributed power grid operation mode, the power supply adopts the idea
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 a
GA
- 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 GA, micro sources: photovoltaic, wind turbines, generators, energy storage, etc.))
Microgrid optimal scheduling
- 文章以含有蓄电池、光伏、风机以及负荷的微电网为研究对象,在考虑蓄电池充放电约束、微电网与电网功率交换约束等条件下,建立了以负荷平均供电单价最小为目标的日前优化调度模型。并利用改进交叉算子的遗传算法进行求解。以某典型微电网为例进行建模与求解,得到了微电网日前优化调度方案,实现了微电网的经济稳定运行(Taking the micro-grid with storage battery, photovoltaic, fan and load
C11调度光伏、风机和无功补偿装置
- C11调度光伏、风机、无 功优化补偿装置协调的调度(C11 dispatching photovoltaic, fan and reactive power optimization compensation device coordinated scheduling)
微电网模型
- 微电网模型包含太阳能光伏电池、风机、燃料电池和储能蓄电池。(The microgrid model includes solar photovoltaic cells, fans, fuel cells and energy storage batteries.)
fengji2
- 风力发电模型,此模型较简单,可以模拟风机的功率输出,可以应用于微电网等分布式能源。(Wind power generation model, which is simple and can simulate the power output of wind turbine, can be applied to distributed energy sources such as micro-grid.)
智能微电网中利用粒子群算法实现微电网多目标优化
- 针对智能微电网优化配置问题,分别对微电网中风机、光伏和储能电池进行容量设计,并采用粒子群算法对系统进行优化配置。(Aiming at the optimization configuration of the smart microgrid, the capacity design of the wind turbine, photovoltaic and energy storage batteries in the microgri
ems
- 微电网能量管理,光伏 风机 储能通过在能量管理方法基础上进行的案例验证,通过案例,反应不同种类以及不同数量的分布式能源应用能量协调控制方案后所产生的不同经济效益,然后对比能量协调控制方案的独立运行与联合运行控制的区别,得出多微网能量管理的最佳解决方案。(Micro grid energy management, photovoltaic fan energy storage)
微电网容量优化
- 用蒙特卡洛算法模拟风机及光伏出力,并用粒子群算法加以分配优化。(Monte Carlo algorithm is used to simulate the output of wind turbine and photovoltaic, and particle swarm optimization algorithm is used to optimize the distribution.)