在对一实际楼宇冷热电联供系统热力学分析的基础上,对该系统作了热经济性分析。
A thermo-economic analysis of a gas turbine-based cooling, heating and power generation system for buildings was conducted in this paper, on the basis of a thermodynamic analysis of the system.
冷热电联供系统(CCHP)作为一种分布式能源供应系统,受到越来越广泛的重视。
Combined cooling heating and power system (CCHP), as a kind of distributed energy system, is causing great concerns.
文章从经济性角度(回收期)分析了天然气和电力价格对冷热电联供系统推广应用的影响。
The effect of natural gas price and electric power price on the economics (payback period) of the combined cold, heat and power system is analyzed in this work.
根据微燃机冷热电联供的优化配置步骤及考虑因素,对微燃机冷热电联供系统的几种方案进行了研究。
According to the steps of optimal scheme and consideration factor about micro-turbine CCHP (combined cooling heating and power), several projects of CCHP are researched.
生物质技术与热电冷三联供系统都是当前具有广阔发展前景的技术。
Both cogenerated heating electricity and refrigeration system (CHER)and biomass technology have wide perspective of development.
通过实例,研究了蓄冷比例与能源价格的复合关系对热电冷联供系统经济性的影响。
The influence of composite relationship between cold storage ratio and energy price on the economy of combined cooling, heat and power system is studied with examples.
在热力系统优化调度计算中,采用常规方法所建立的热电联供汽轮机模型通常精度较差。
In the calculation of optimal dispatch for a thermal system, the model built by the conventional method for power-heat cogeneration steam turbines is of poor accuracy.
热电冷三联供系统节能性问题在国内学术界仍存在争论。
Argument is existed in academe about energy saving of the combined heating, cooling and electricity (CHCP) system.
对一个冷热电三联供系统的配置与运行策略进行了分析。
The scheme and operation strategy of CCHP system is analyzed.
通过建立数学模型对热电冷联供系统在超市中应用的可行性进行了分析。
The energy for the heating, cooling and power are very large in the supermarkets, and makes environment worse, so it is valuable to study how to use energy effectively.
介绍了理想冷热电三联供(CCHP)系统的热力学原理,指出其巨大的节能潜力。
Presents the thermodynamic principle of an ideal combined cooling, heating and power system and indicates its huge potential in energy saving.
介绍了理想冷热电三联供(CCHP)系统的热力学原理,指出其巨大的节能潜力。
Presents the thermodynamic principle of an ideal combined cooling, heating and power system and indicates its huge potential in energy saving.
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