Through theoretical analysis and derivation, a formula for calculating active power economic distribution among any number of hydro and thermal power units was obtained under ignoring system losses.
通过理论分析和推导,得出一组在不计网损下,任意多个水、火电厂之间有功功率经济分配的计算公式。
The optimization configuring market mechanism of hydro-thermal power system is one of the core contents of the power market design and fire-new task in our country.
水火电是我国未来电力市场中参与市场竞争交易的主要电源类型,水火电优化配置市场机制是我国电力市场设计的一个核心问题和全新课题。
The application range of simulation technique in power system is very wide, from simulating thermal power plant, hydro power station, substation to simulating complete power network.
仿真技术在电力系统中的应用范围是很广的,从火电厂、水电站、变电站的仿真到整个电力系统的仿真。
This paper presents the B Coefficent thermal-system equivalent method to have economic dispatching of a hydro-thermal electric system.
本文提出了B系数火电等值法进行水火电系统经济调度。
Ocean thermal energy conversion, or OTEC for short, is a hydro energy conversion system that uses the tempurature difference between deep and shallow waters to power a heat engine.
干热岩能是一种新型地质能源,通过将冷的盐水抽到干热岩上,水被加热变为水汽,借助蒸汽轮机将能量转化为机械能。
Ocean thermal energy conversion, or OTEC for short, is a hydro energy conversion system that uses the tempurature difference between deep and shallow waters to power a heat engine.
干热岩能是一种新型地质能源,通过将冷的盐水抽到干热岩上,水被加热变为水汽,借助蒸汽轮机将能量转化为机械能。
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