The scheme and operation strategy of CCHP system is analyzed.
对一个冷热电三联供系统的配置与运行策略进行了分析。
It reviewed achievements and application status of CCHP system at home and abroad.
综述冷热电联产系统的国内外研究成果和应用现状。
Combined cooling heating and power system (CCHP), as a kind of distributed energy system, is causing great concerns.
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。
Finally, it analyses the potential applications of CCHP in China, and gives some Suggestions on its research and development.
分析了我国开发和利用冷热电联产的潜力,并对此提出了有益的建议。
Firstly, this paper introduced the basic concept and configuration models of CCHP system, to determine the research object of this paper.
本文首先介绍冷热电联产系统的基本概念和配置模式,确定本文的研究对象。
The technology of combined cold, heat and power (CCHP) could improve primary energy utilization efficiency, and reduce environmental pollution.
冷热电联产(CCHP)技术可提高一次能源的利用率,降低环境污染。
From the view of primary energy consume and primary energy consume ratio, the factors which affect energy saving of CCHP system is studied deeply.
从一次能耗和一次能耗率的角度较深入地研究了三联产系统的节能性。
The market development of gas driven CCHP system depends on the following factors: social demand, supplying condition of electricity and gas and technique economics.
燃气热电冷三联供机组的市场发展前景主要和以下因素有关:社会需求量、电力和燃气供应条件及技术经济性。
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.
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。
The present paper introduces the principle, constitution and thermo-economic performance of the CCHP system as well as the prospect of application of this system in the metallurgical sector.
对冷热电联产的原理、系统组成、热经济性以及在冶金行业推广应用的前景作了分析。
The system efficiency, cooling or heating efficiency, residual heat efficiency on CCHP in different seasons are analyzed through changing heat recover ratio, temperature ratio and pressure ratio.
通过改变微燃机回热度、温比、压比,分析了不同季节联供系统的系统效率、制冷或供热效率、微燃机发电效率、二次余热回收效率的变化;
The system efficiency, cooling or heating efficiency, residual heat efficiency on CCHP in different seasons are analyzed through changing heat recover ratio, temperature ratio and pressure ratio.
通过改变微燃机回热度、温比、压比,分析了不同季节联供系统的系统效率、制冷或供热效率、微燃机发电效率、二次余热回收效率的变化;
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