本文提出了B系数火电等值法进行水火电系统经济调度。
This paper presents the B Coefficent thermal-system equivalent method to have economic dispatching of a hydro-thermal electric system.
结合国内外研究情况,分析了水火电竞价上网的区别和系统总体设计的技术要求和建设原则。
Unifying the domestic and foreign research situation, it has analyzed the water thermal power tendering surfer difference and the system design specification and the construction principle.
研究电力市场体制下的水火电联合系统的日交易计划问题具有重要的实际应用价值。
Study of trade plan of allied systems aimed at power mark is a work of important application value.
为了有效地解决水火电力系统资源短期优化调度问题,提出了一种基于混沌粒子群算法的调度方案。
To solve hydrothermal power system resource short-term optimization scheduling problem, this paper proposed a novel scheduling solution based on chaos particle swarm optimization algorithm.
该方法还可应用于水火电混合电力系统和互联电力系统的日有功优化调度。
It can also be applied in the daily optimal economic dispatch of interconnected power systems and the regional power system with hydropower stations and thermal power plants.
本文研究大系统分解协调法用于大型水火电力系统的短期经济调度。
The paper deals with the decomposition and coordination methods for the economic short-term scheduling of large hydro-thermal power systems.
讨论了含梯级水电站的大型水火电力系统有功功率最优分配的数学模型,考虑了水电厂上、下游水位的变化、梯级水电厂间的水流时间延迟等因素。
In this paper, we discuss a mathematical mode for optimization of active power dispatch of large-scale hydro-thermal power systems with cascaded hydropower stations.
本文对多区域、复杂水火电力系统经济调度提出了一种新的分解算法。
A new method of large scale complex interconnected power system economic operation is presented.
为克服现有方法求解复杂水火电力系统短期发电优化计划的缺陷,提出一种新型优化算法对此类动态非线性约束优化问题进行求解。
The goal of this research is to overcome the limitations of the existing method of solving the short-term generation optimal scheduling in hydrothermal power systems.
提出求解水火电力系统短期发电计划的新方法——粒子群优化算法。
This paper presents new approaches to hydro-thermal short-term dispatching problem using different particle swarm optimization(PSO) techniques.
针对电力系统中水火电短期优化调度,这一典型的高维、非凸、非线性优化问题,本文提出一种改进的微分进化算法。
The model based on energy-saving emission reduction and environmental protection, will provided new ideas for optimal scheduling of short-term study of water and thermal power system.
针对电力系统中水火电短期优化调度,这一典型的高维、非凸、非线性优化问题,本文提出一种改进的微分进化算法。
The model based on energy-saving emission reduction and environmental protection, will provided new ideas for optimal scheduling of short-term study of water and thermal power system.
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