1) thermal index of cogeneration
热电联产热指标
2) combined heat and power
热电联产
1.
Environmental protection questions existed in the development of combined heat and power and its countermeasures;
热电联产发展中存在的环保问题及对策
2.
It analyzes the unreasonable way of using steam in iron and steel enterprises at present,namely the quality loss situation of temperature and pressure reduction,and proposes the improvable measures of combined heat and power.
以蒸汽利用的热力学第一、第二定律理论为依据,提出了合理用能所遵循的原则及其评价指标,分析了目前钢铁企业蒸汽利用的不合理方式,即减温减压的品质损耗情况,并就其提出了热电联产的改善措施。
3.
The combined heat and power is a kind of effective energy conservation measure.
热电联产是一种行之有效的节能措施。
3) cogeneration
[英][kəu,dʒenə'reiʃən] [美][ko,dʒɛnə'reʃən]
热电联产
1.
Survey of security pre-appraisement for a new project of cogeneration;
对某热电联产新建工程安全预评价综述
2.
Steam supply reliability analysis of Dayabay petrochemical zone gas turbine cogeneration project;
大亚湾石化区燃气轮机热电联产供热可靠性分析
3.
Performance test of a Stirling cogeneration system;
斯特林热电联产装置的性能测试研究
4) co-generation
热电联产
1.
Design and application of exhaust gas for co-generation in Yangzhou Petrochemical Plant;
扬州石化厂干气资源用于热电联产的项目分析
2.
Optimization design for small and medium size co-generation turbine;
中小型热电联产汽轮机的优化设计
3.
Research and discussion on development of small-scale distributed co-generation;
发展小型分散热电联产的研究与探讨
5) CHP
热电联产
1.
Design performance of internal combustion engine CCHP system;
内燃机冷热电联产系统设计点性能分析
2.
Developing CHP to promote urban modernization;
发展热电联产促进城市现代化
3.
Regulation of Heat-supply System during Electric Peak-shaving by Using CHP Plant;
热电联产电力调峰时供热系统的调节
6) heat and power cogeneration
热电联产
1.
The development situation of heat and power cogeneration in China is analyzed.
分析了我国热电联产的发展现状,从节能、环境保护、能源结构调整、技术创新4个方面指出了发展热电联产的必要性,探讨了相关问题。
2.
The technology and economy of heat-supply modes using heat and power cogeneration,district heating boiler plant,gas water heater,electricity,regenerative electric boiler,gas engine-driven heat pump,electric air-source heat pump,electric water-source heat pump and so on are discussed.
对采用热电联产、区域供热锅炉房、燃气热水器、直接用电、电蓄热锅炉、燃气机热泵、电动空气源热泵、电动水源热泵等供热方式的技术及经济性进行了探讨。
3.
The applications of city gas used as fuel cell fuel to hydrogen fuel vehicle,power generation,heat and power cogeneration and other aspects are analyzed.
分析了城市燃气作为燃料电池燃料在氢燃料汽车、电力生产及热电联产等方面的应用,列举了由城市燃气生产氢气在电子、食用油及金属加工行业的应用,介绍了国外燃气公司在氢能及燃料电池方面的研发进展。
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。
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