1) fuel/electricity cogeneration system
燃料/电联产系统
1.
A thermodynamic performance calculation was conducted of a coal-gasification-based pure IGCC (integrated gasification combined cycle) power generation system,a F-T fuel synthetic system and a F-T fuel/electricity cogeneration system,and the integrated characteristics of the F-T fuel/electricity cogeneration system were analyzed.
建立了煤气化炉、F-T合成反应器和发电单元的模型,对基于煤气化的单纯IGCC发电系统、F-T燃料合成系统及F-T燃料/电联产系统进行了热力性能计算,并对F-T燃料/电联产系统的集成特性进行分析。
2) gas cogeneration system
燃气热电联产系统
1.
Energy saving analysis of a gas cogeneration system;
燃气热电联产系统的节能分析
3) combined molten carbonate fuel cell(MCFC)/gas turbine(GT) plant
熔融碳酸盐燃料电池/燃气轮机联合发电系统
4) fuel cell system
燃料电池系统
1.
Heat and mass transfer performance study on fuel cell system membrane humidifier;
燃料电池系统膜增湿器传热传质性能研究
2.
A CFD simulation platform for fuel cell system is developed,on which the performance of the fu- el cell system with centrifugal compressor is simulated and compared with that of the ordinary fuel cell system using scroll-type compressor.
建立了燃料电池系统CFD仿真平台,应用该平台对一种采用离心式空压机的燃料电池系统性能进行了仿真研究,并与国内目前采用旋涡式空压机的燃料电池系统性能进行了比较分析。
3.
A dynamic model was developed to analyze the thermal management subsystem of a proton exchange membrane(PEM) fuel cell system.
该文分析了车用质子交换膜燃料电池系统热管理子系统的结构,并建立热管理子系统的动态模型。
5) CCHP
冷热电联产系统
1.
Analysis of CCHP System Applied in a Building;
楼宇级冷热电联产系统的应用分析
2.
Part-load Performance of CCHP with Gas Turbine and Storage System;
燃气轮机冷热电联产系统与蓄能变工况特性
3.
INTEGRATED SOLAR ENERGY AND CCHP SYSTEM
太阳能与冷热电联产系统集成
6) CCHP System
冷热电联产系统
1.
Experimental Analysis on Heat and Power Supply Performance of Movable Miniature CCHP System;
可移动式微型冷热电联产系统热电运行分析
2.
The CCHP system is a kind of highly efficiently use of enegy which will be widely used in buildings in the furure.
冷热电联产系统(CCHP)是一种高效的能源利用方式,用于建筑楼宇的冷热电联产系统是以后的发展方向。
补充资料:热电联产
热电联产 cogeneration 发电厂既生产电能,又利用汽轮发电机作过功的蒸汽对用户供热的生产方式。以热电联产方式运行的火电厂称为热电厂。对外供热的蒸汽源是抽汽式汽轮机的调整抽汽或背式汽轮机的排汽,压力通常分为0.78~1.28兆帕(MPa)和0.12~0.25MPa两等。前者供工业生产,后者供民用采暖。热电联产的蒸汽没有冷源损失,所以能将热效率提高到85%,比大型凝汽式机组(热效率达40%)还要高得多。热电联产不仅大量节能,而且可以改善环境条件,提高居民生活水平。但热电联产把电厂的发电与用户的用热紧密联系,降低了灵活性,同时也增加了电厂的投资。因此,只有对城市规划和集中供热区作统筹安排,在热负荷充分保证的条件下,确定合理的建设方案,才能收到良好的综合效益。 |
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条