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reapprear_test
- 应用粒子群算法对IEEE33节点进行容量优化(Particle swarm optimization algorithm is used to optimize the capacity of IEEE33 nodes)
IEEE33
- 用于配电网重构的粒子群算法,可以供大家参考(Particle swarm optimization for distribution network reconfiguration)
qthd33
- IEEE33节点系统的MATLAB仿真,内有注释,可以参考。(IEEE33 There are comments can refer to)
IEEE33
- 用于电力系统有功负荷,无功负荷、节点电压等潮流计算(For power system flow calculation.)
main
- 一个简单的配电网潮流计算,利用前推回代法,IEEE33节点系统,可直接出结果。(A simple distribution network power flow calculation, using the forward back generation method, IEEE33 node system, can be directly out of the result.)
EV_LA_33
- IEEE33节点配电系统的最优潮流程序,基于matpower(Optimal power flow of 33 node distribution system)
ieee33distribute_3
- IEEE33节点搭建matlab模型,适用于电力系统配电网电压控制计算仿真(IEEE33 node builds matlab model, which is suitable for power system distribution network voltage control simulation.)
Untitled
- 前推回代法的IEEE33节点的潮流计算matlab程序(Pre thrust generation)
node33
- 基于IEEE33节点的一份利用yalmip建模求优化的一份程序,很难得(A program based on IEEE33 nodes that uses yalmip modeling for optimization is very difficult to obtain)
IEEE33_3
- 可以利用IEEE33节点模型做配网仿真,该仿真已经在matlab2017b上稳定运行(IEEE33 node model can be used for distribution network simulation.)
33
- 带分布式电源的33节点配电网位置容量优化程序(Location Capacity Optimization Program for 33-Node Distribution Network with Distributed Generation)
新建 WinRAR 压缩文件管理器
- IEEE123节点牛顿拉夫逊法潮流计算程序(IEEE123 Node Newton Raphson Power Flow Computing Program)
Network reconstruction
- 仿真配电网IEEE33节点,创建群粒子,然后判断是否为环路,利用粒子群算法对网络网络重构。(Simulate the IEEE33 node of the distribution network, create group particles, and then judge whether it is a loop, and use the particle swarm algorithm to reconstruct the network network.)
基本粒子群 - 副本
- 对IEEE33节点系统进行配电网重构,利用基本粒子群迭代优化,采用前推回代计算潮流,有中文注释,是初学者必备的程序教程(Reconfiguration of the distribution network of the IEEE33 node system, using the basic particle swarm iterative optimization, using the pre-push back to the calculation of the trend, with Ch
IEEE33节点配电系统潮流计算
- 采用前推回代法计算IEEE 33节点配电系统的潮流,可以运行,得到正确结果,作者已经验证了。
配网故障恢复算法方法
- 实现配电网故障恢复和故障重构算法,文件算例是IEEE33节点系统(Implementation of fault recovery and fault reconstruction algorithms for distribution networks.File example is IEEE33 nodes system.)
基于遗传算法的无功优化
- 应用遗传算法对IEEE33节点算例进行无功优化,在节点18处接入了1个分布式发电和1个补偿电容。
fuheDG
- 首先判断IEEE33节点的拓扑结构是否满足辐射状约束,然后采用牛顿拉夫逊法计算潮流,考虑分布式电源的不确定性,采用半步变量法进行随机潮流计算,仔细研究非常有用(First, determine whether the topology of IEEE33 nodes meets the radial constraint, and then use Newton Raphson method to calculate power flow, considering the uncertainty
IEEE33
- 该程序是牛拉法的直角坐标潮流计算,已用33节点加以验证,特此分享给大家!
IEEE33
- 配电网33节点,配电网33节点,配电网33节点,配电网33节点,配电网33节点,配电网33节点。