搜索资源列表
5678799
- 免疫算法和粒子群算法结合后用于求解多目标无功优化- Immune algorithm and particle swarm algorithm is used to solve with more reactive power optimization goal
Study-of-VSC-HVDC-Controller-
- 风电潮流的波动会引起并网系统公共连接点(PCC)电压的波动。在基于电压源换流 器的高压直流输电(VSC-HVDC)交直流混合风电场并网系统中,控制VSC-HVDC 送端站注入 到PCC 点的无功功率可以抑制电压波动。本文讨论了VSC-HVDC 的无功功率控制器和定电压控制 器抑制电压波动的原理。基于电磁暂态软件PSCAD/EMTDC 建立了并网风电场模型、VSC-HVDC 模型及控制系统模型。仿真结果表明VSC-HVDC 采用定电压控制器的并网系统能更好的抑制电 压波动,采用
Real-time-detection-of-negative
- 同相牵引供电系统旨在实现电能质量的综合补偿。提出了一种基于同步坐标变换的电流检测方法,能实时准确地检测 出负载电流的基波正序有功分量、基波正序无功分量、基波负序分量以及谐波分量,为综合补偿提供了基础。电能质量的补 偿力度与设备容量之间存在非线性关系。提出补偿度的概念,并给出补偿度与电能质量参数的关系,通过给定电能质量期望 参数,实时调整负序、谐波以及无功补偿度,使得综合潮流控制器容量在各电能质量补偿参数之间得到实时优化配置,从而 实现同相供电系统容量优化满意补偿。理论推导和仿真结
xy7z.ZIP
- 混合动态无功补偿装置及其应用研究Hybrid dynamic reactive power compensation device and its application-Hybrid dynamic reactive power compensation device and its application
Reactive-Power-Optimization-matlab
- 程序为改进的遗传算法对配电网无功优化补偿问题。电力系统配电网的无功优化规划是保证配电网安全、经济运行的一项有效手段,是降低网损、提高电压质量的重要措施。-Reactive power optimization is one of the most important control methods to ensure power system operation securely and economically,and an effective measure to improve the v
science
- 基于人工智能算法的电力系统无功优化,此文介绍了改进免疫型人工智能算法-Reactive power optimization
CCCSSSSS
- 配电网的遗传算法仅有代码绝对好东西,关于配电网无功优化的遗传算法的实现-Distribution network genetic algorithm.! Only code!! Definitely a good thing!!!!!!!!!!!
APF_ip_iq
- 这是一个基于瞬时无功功率理论的有源电力滤波器,是在matlab的simulink中搭建而成-This is an active power filter based on instantaneous reactive power theory, the structure which is in the simulink matlab
danxiang_statcom
- 单相无功补偿statcom仿真模型,仿真的波形不错-Single-phase reactive power compensation statcom simulation model,Good simulation waveforms
ga
- 用遗传算法进行无功优化,IEEE33节点实例-Reactive power optimization using genetic algorithm, the the IEEE33 nodes instance
OPF
- 用遗传算法进行无功优化,IEEE33节点实例-Reactive power optimization using genetic algorithm, the the IEEE33 nodes instance
test_21
- 遗传算法无功优化,21节点实例计算,可以运行-Reactive power optimization using genetic algorithm, the the 21 nodes instance
test_ga12
- 用遗传算法进行无功优化,12节点实例,直接运行-Reactive power optimization using genetic algorithm, the the 12 nodes instance
TSC
- 无功补偿触摸屏uCOS GUI开发工具WEB应用等代码示例仿真器和执行文件
The-Control-Strategy-Inverter
- 在风力发电网侧逆变器动态数学模型基础上 采用空间矢量脉冲宽度调制 SVPWM 方式和电网电压合成矢量定向 实现了电流有功分量和无功分量的解耦及功率因数的可调控制.-Dynamic mathematical model based on wind power grid-side inverter the resultant vector of the vector mode and the grid voltage space vector pulse width modulation direc
BB
- 基于禁忌搜索算法的配电网无功补偿优化规划 能够降低网损 -Planning power distribution grid based on Tabu Search Algorithm for Optimal Reactive Power Compensation
TS1
- 基于禁忌搜索算法的配电网无功补偿优化规划的 禁忌搜索部分-Optimize the planning of reactive power compensation based on the tabu search algorithm with tabu search part
TideCal
- 基于禁忌搜索算法的配电网无功补偿优化规划的潮流计算部分-Partially based on the trend of Tabu Search Algorithm with Reactive Power Compensation Optimal Planning
test
- 基于禁忌搜索算法的配电网无功补偿优化规划8点算例-Optimal Planning 8:00 example based on Tabu Search Algorithm for Reactive Power Compensation
svc
- 静止无功补偿器部分程序,基于模块化设计,实现无阻尼控制的SVC功能。-Static var compensator part of the program,Based on modular design, the SVC damping control function.