Reactive power programming is an important way to improve the voltages of distribution power system and reduce the energy loss.
配电网无功电源规划是提高配电网电压质量、降低网损的重要途径。
This paper presents a reactive power optimization model that is based on successive quadratic programming methods.
介绍了一种无功优化模型,并基于连续二次规划的方法。
In part two, two mathematical models for reactive power supply programming in distribution network is presented, the age limit of reactive power supply is added to models.
第二部分建立了配电网无功电源规划的两种数学模型,在模型中增加考虑了无功电源的使用年限。
Reactive power supply programming in distribution network can improve voltage and decrease power loss, it is important for the running of systems more safe and economical.
配电网无功电源规划能够有效地改善电压水平、降低网损,对系统安全经济运行具有重要意义。
In part three, the paper USES improved ant colony search algorithm to solve the problem of reactive power supply programming.
第三部分针对配电网无功电源规划的数学模型,应用改进蚁群算法进行求解。
A software package of reactive-power optimization computation of power system is intro-duced, which is developed fully by object-oriented programming techniques.
介绍一套完全采用面向对象的概念及编程技术开发的电网无功优化计算软件。
Interior point method for semidefinite programming data collation ac and DC systems unified reactive power optimization algorithm to determine the coefficient matrix.
说明:半定规划内点法数据整理交直流系统统一无功优化算法,系数矩阵的确定。
A comprehensive improving evolutionary programming method to optimize voltage and reactive power is presented.
提出了一种应用于电力系统无功优化的综合改进进化规划方法。
In this paper, the goal programming method was introduced into the active and reactive power corrective strategy analysis of electric power systems.
本文提出用目标规划方法进行电力系统有功无功校正对策分析。
This paper describes a non-linear programming algorithm for the optimization of voltage and reactive power in the electric power system. The reduced gradient method is used in the algorithm.
本文叙述了采用非线性规划法进行电力系统无功和电压优化的一种实用方法,其数学模型为梯度法。
Intelligent method has been widely used in reactive power optimization because of its superiority in solving the large-scale nonlinear programming problem.
近年来,由于在解决大规模非线性规划问题上的优势,智能算法在电力系统无功优化问题中获得广泛应用。
Reactive power optimization control in county power system is a great complex nonlinear mathematical programming problem, which has many variables and large constrains.
县级电网的电压无功控制问题是一个多约束条件、多变量、非线性的复杂数学规划难题。
Reactive power optimization control in county power system is a great complex nonlinear mathematical programming problem, which has many variables and large constrains.
县级电网的电压无功控制问题是一个多约束条件、多变量、非线性的复杂数学规划难题。
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