搜索资源列表
IEEE_39bus_PI_Pooya_mask
- 20 wind Power Penetration (DFIG-based Wind Farm)in IEEE 39 Bus Power System-20 wind Power Penetration (DFIG-based Wind Farm)in IEEE 39 Bus Power System
IEEE_39bus_PI_Pooya_mask
- 30 Wind Power Penetration (DFIG-based Wind Farm)in IEEE 39 Bus Power System/MATLAB-30 Wind Power Penetration (DFIG-based Wind Farm)in IEEE 39 Bus Power System/MATLAB
IEEE_39bus_4WT_mask
- 40 Wind Power Penetration (DFIG-based Wind Farms)in IEEE 39 Bus Power System-40 Wind Power Penetration (DFIG-based Wind Farms)in IEEE 39 Bus Power System
ICSEG-Power-Case-1---IEEE-300-Bus-Systems
- Data IEEE300-bus-system. Simulation in Power World program.
NEWTON-RAPHSON
- power flow solutions using Newton Raphson technique on IEEE 14, 30 and 57 bus system. useful for those who want to learn optimization technique in power system. if you find any difficulty mail me or any suggestion is welcome to improve this code.
IEEE4M2A
- 电力系统中的IEEE4机2区域节点系统图及相应的参数,并且有利用PSCAD/EMTDC搭建的系统模型。-Power system IEEE 4-machine 2-area system diagram and the corresponding parameters, and there use of PSCAD/EMTDC to build the system model.
pso1
- 基于粒子群算法的电力系统负荷分配问题(1)数学模型: 以IEEE 3机6节点为工况模型 ,Load=850MW (2)目标函数: minF=∑(i=1,Ng)Fi(PGi),Fi(PGi) =aiPi2+biPi+ci+Ei,考虑阀点(Valve-Point)效应 (3)约束条件: a.发电机组输出功率上下限约束,即PGi min<=PGi<= PGimax; b.电力负荷平衡约束,忽略网损,即∑(i=1,Ng)(PGi)= PGD-Based on part
ieee331
- matlab搭建的IEEE-33节点系统图,模拟其电力系统的网络状况,分析其潮流具有重要意义-Matlab build the IEEE-33 node system diagram, the simulation of the network status of the power system, the analysis of its power flow is of great significance
IEEE14_java
- 高等电力系统分析,IEEE 14节点潮流分析,短路计算,采用java编程,运用牛顿拉夫逊法,PQ分解法针对标准算例进行计算。-Higher power system analysis, trend analysis, IEEE 14 nodes short circuit calculation, using Java programming, using the newton-raphson method, the PQ decomposition method for standard ex
opdreactive
- Optimal reactive dispatch of power IEEE 30 system
case57_kekong
- ieee标准的57节点系统case文件,可用于电力系统优化,基于matpower-IEEE 57 NODES CASE ,it can be used for optimization of power system.
14flow22
- 电力系统的普通潮流计算,数据为14节点,IEEE,牛顿法-General trend of power system calculation, data of 14 nodes, IEEE, Newton' s method
estimation-WLS
- 最小二乘法电力系统状态估计,利用IEEE-14和IEEE-30节点系统检验,结果正确-WLS method of power system state estimation
1.-Gauss-Siedel
- Gauss seidel algorithm for IEEE 9 bus power system analysis
IEEE_9bus_new_o
- multi machine power system. 3 machine 9 bus power system. ieee test sytem
BinaryTournamentSelection
- MATLAB Codes for nsga-ii algorytm for 24 bus system IEEE power flow optimization
Load-Flow-distribution-system-69-bus
- Power Flow of distribution system with 69bus Standard IEEE system in matlab
Reliability--of-Wind-Farm-bess-
- 对含储能和风电的电力系统进行了可靠性评估,利用序贯蒙特卡洛法,把风储系统接入IEEE-RBTS系统来仿真,探讨了风电场、储能系统、储能容量和储能最大充放电功率对系统可靠性的具体影响。-The reliability of the power system with energy storage and wind power is uated. The wind storage system is connected to the IEEE-RBTS system by using the se
S1
- Static Exciters IEEE ST1A, power system stabilizer with multi-machine, nine-bus system. The base MVA is 100, and system frequency is 60 Hz, The disturbance here is the transient by a single-phase fault time
static_exciter_pss2a2b
- Static Exciters IEEE ST1A, power system stabilizer with multi-machine, nine-bus system