1)combined thermal equivalent热功联产
1.The application of high back pressure turbine combined thermal equivalent in thermal power plant;高背压热功联产汽轮机在热电厂的应用
2.The process that one power plant electric feed water pump was altered to turbine driven feed water pump to realize the combined thermal equivalent is expounded in detail,and compares every characteristics before atteration with those after modification,then it is proved that the combined thermal equivalent is the effective measures to raise economical benefit of thermal power plant.详细叙述了某热电厂将电动给水泵改造为汽动给水泵来实现热功联产的过程,并对改造前后的各项性能进行了比较,证明了热功联产是提高热电厂经济效益的有效措施。
英文短句/例句
1.Energy Conservation Technology Reformation for Turbine Drived Boiler Feed Water Pump in Heat/Power Co-generation热功联产汽轮机拖动锅炉给水泵节能技术改造
2.cogenerating heat and power热电联产,热电并供
3.The Evolution of Cool, Heat and Power Plants From CHP;热电厂发展前景—由热电联产走向冷热电联产
4.Gaojing Power Plant will switches to gas-fired.区域燃气热电联产工程。
5.Comparison of Energy Consumption between Combined Production of Heat,Electric,Cool and Combined Production of Heat,Electric Plus Electricity-driven Refrigeration热电冷联产与热电联产加电制冷能耗比较分析
6.Application of Exergy Analysis in Heat and Electricity Combination of Mini-type Thermal Power Plant;分析在小型热电站热电联产中的应用
7.Research on the energy saving innovation of combined cooling heating and power on power plant某热电厂实施冷热电联产的节能分析
8.Analysis on the benefit of thermoelectric combined production and coal consumption of heat supply based on modification heat quantity methods;修正热量法计算供热煤耗暨热电联产效益分析
9.Thermodynamic Analysis of CCCP System with Adjustable Regenerative Gas Turbine可调回热燃气轮机冷热电联产系统热力分析
10.The marketing study for thermal product of co-generation enterprise in non-heating season;热电联产企业非采暖季节热力产品营销研究
11.Cogeneration Technology in England and Europe--the Second in a Series of Reports Concerning Cogeneration英国和欧洲的热电联产──热电联产工程系列报告之二
12.Calculation Model of Products and Net Input Thermal Power of High Temperature Thermal Treatment of Waste废物热处理平衡产物和净输入热功率计算模型
13.The Cogeneration of CHCP System Based on the Power Plant and Its Performance基于热电厂的热电冷三联产技术及评价标准
14.Yinchuan Cogeneration Power Plant construction and Ningxia CHP market potentiality银川热电厂建设和宁夏热电联产的市场潜力
15.Heating-Economical Analysis of Distributed Energy System;分布式能源冷热电联产系统的热经济性研究
16.The Safe and Economic Operation of the CHP System;热电联产机组供热系统的安全经济运行研究
17.The Study and Software Implementation for the Heat-Load-based CHP Units;热电联产机组以热定电运行的研究及软件实施
18.Innovation Research on Cogeneration of Daqing Oilfield Power Plant;大庆油田热电厂热电联产业务创新研究
相关短句/例句
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][k?u,d?en?'rei??n][美][ko,d??n?'re??n]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 & steam coproduction热汽联产
延伸阅读
焦耳热功当量实验 证明能量守恒和转换定律的基础性实验。 J.P.焦耳从1840年起,持续几十年时间,用电量热法和机械量热法,做了大量实验,得出结论:热功当量是一个普适常数,同作功方式无关。从而证明了机械能(功)和电能(功)同热量之间的转换关系;论证了传热是能量传递的一种形式;为确认能量守恒和转换定律的正确性打下了坚实的实验基础。 1840年焦耳发现,导体内通以稳定电流后,产生的热量Q同电流强度I的二次方、导线电阻R及通电的时间t成正比,即同电流所作的功W 成正比W=JQ。 (1) 比例系数J表示产生1卡热量所需作的功,称热功当量。其实验装置之一如图1所示:容器由绝热壁构成,电流作功使水的内能增加,从而水温升高。用温度计可测出温差ΔT。使用简单定义的使 1克水温度升高1摄氏度所需热量作为量热单位(卡),则水的比热容为c=1cal/(g·℃),当知道水的质量m后,即可由Q=сmΔT确定所传递的热量同电流所作的功W 间的关系式(1),并定出热功当量J。这种测量热功当量的方法叫电量热法。 焦耳还用机械量热法来测定热功当量。图2是1845年他使用的实验装置的示意图。重砝码缓慢匀速下降,带动轮轴和转轴使翼轮搅拌水,功转变为热,使水温升高。由温度计测出搅拌前后水的温差而算出热量Q。转变为热能的机械功W可由砝码下降的距离算出。由式(1)又可测定热功当量。 焦耳测定热功当量的实验是在英国曼彻斯特进行的,其结果是使1磅水升高1华氏度需作功772英尺磅,这相当于1卡=4.157J。目前国际公认的精确值是J=4.186 8J/cal=4.184 0J/calth, (2) 其中cal和calth分别表示国际蒸汽表卡和热化学卡。 现在,国际单位制中已经规定热量的单位为焦耳,卡暂时仍作为同焦耳并用的单位。热功当量这个词也将逐渐被废除,但焦耳热功当量实验的历史意义,将是永存的。
