冷热电三联供

冷热电三联供技术能同时给用户和热电厂带来良好的经济和社会效益。

The CCHP technology can bring economic and social benefits for users and power plant .

以天然气为一次能源的冷热电三联供更是目前实现建筑节能减排和天然气高效利用的最佳途径。

Today , using natural gas as primary energy for CCHP system is the best choice to achieve building energy-saving and to efficiently utilize natural gas .

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 .

采用生命周期评价法对BNDES系统和天然气冷热电三联供系统进行生命周期评价。

The life cycle assessment was carried out to assess the BNDES and a CCHP system based on natural gas .

燃气冷热电三联供系统运行分析

Operation Analysis of Gas Combine Cooling , Heating & Power System

冷热电三联供燃气机热泵系统的火用损功率分析

An Analysis of Exergy Loss Power for a Cooling-heating-power Cogeneration System

冷热电三联供系统在浦东国际机场的应用

Application of Three Union Supply System in Pudong International Airport

冷热电三联供实例经济性分析

Economical analyses of combined cooling heating and power : a case study

冷热电三联供系统配置与运行策略的优化

Integrated Optimization of Scheme and Operation Strategy for CCHP System

采用燃气冷热电三联供能源系统具有广阔的前景和实际意义。

Using gas CHP energy system has broad prospects and practical significance .

冷热电三联供绿色能源项目的经济分析

Economic Analysis on Green Energy Project of Cooling-heating-power Supply

冷却泵电动机-机床燃气机热泵冷热电三联供系统热经济学分析

Thermo-economics Analysis of a Cooling-heating-power Cogeneration System for a Gas Engine-driven Heat Pump

基于热气机分布式冷热电三联供效益分析

The Benefit Analysis of Combined Cooling Heating and Power System Based on Stirling Engine

燃气发电机组在冷热电三联供项目中的应用

Application of Gas Engine-Generator in CCHP System

燃气内燃机和吸附制冷机组成的冷热电三联供系统

A Triple Cooling , Heating and Power Cogeneration System Consisted of Gas Engine and Absorption Chiller

方案一采用燃气轮机与余热利用设备构成燃气冷热电三联供系统。

Scheme is used in a gas turbine and waste heat utilization equipment gas CHP systems .

而近年我国北方地区已经出现应用冷热电三联供系统的实际项目。

Therefore , in recent years there are already some applications the actual project in Northern China .

负荷不确定性对三联供系统配置和经济性的影响冷热电三联供燃气机热泵系统的火用损功率分析

Effect of uncertainty of energy demand on optimal facility scheme and economical efficiency of combined cooling heating and power systems

大型建筑中应用应急柴油发电机实现冷热电三联供及其实例分析

Cogeneration of power , heat and cool using an emergency Diesel - electric generator in large buildings and a case study

最后指出了大力发展清洁能源的冷热电三联供系统是天然气下游市场发展的需要。

At last , points out that developing energetically the co-supply system of cool , heat and power of clean energy sources is the requirement to develop the downstream market of gas .

冷热电三联供作为能源梯级利用减少碳排放的一个可行途径，其概念的能耗与投资收益多受争议。

As a feasible way to save energy and reduce carbon emission , combined cooling heating and power ( CCHP ) gains a lot controversial debate after the presentation of its concept .

本文以华北地区某项目为例对其采用冷热电三联供项目的可行性进行分析。设定冷用户联产与分产两个方案进行比较。

In this paper , there is a simple example of a CCHP project feasibility study in North China analysis . There are two options to compare : user self-built cold source set and district cooling .

介绍了国内外利用天然气发展冷热电三联供的概况，阐述了武汉中央商务区分布式能源站的冷热定电原则，确定了三联供系统方案的最低电价和最高气价。

This paper introduces the general situation of the cooling-heating-power supply , and expatiates the principles of " cooling and heating deciding power " distributing energy station in the Center Business District ( CBD ) of Wuhan .

冷热电三联供总能系统是建立在能量梯级利用的基础上，将发电和供热／供冷集成于一体的总体供能系统，可以有效提高能源的综合利用效率和减少污染物的排放。

A Total Energy System ( TES ) is an integrating energy system that simultaneously supplies the power generation and heating / cooling based on cascade utilization of energy , which significantly enhances the energy efficiency and reduces the pollution emissions to the environment .

通过单双因素敏感性分析方法，论证了商务区冷热电三联供系统方案的经济可行性，为中央商务区采用冷热电三联供提供决策依据。

The lowest electricity and highest gas prices of the cooling-heating-power supply are calculated , and the economic feasibility of the project in CBD is analyzed by the single factor and double factors sensitivity , which provides support for the decision-making of adopting the cooling-heating-power supply in CBD .