It is the thermal energy of the gas, after all, that the turbine converts into electricity, so the colder the gas, the lower the yield.
毕竟,涡轮机转换成电力的能量是由气体的热量提供的,气体温度越低,发电量越小。
The efficiency of a coal-fired thermal plant is typically in the range of 30%-35%. In a combined cycle gas turbine system running on natural gas, the maximum efficiency is in the range 45%-50%.
烧煤的热电厂的效率通常在30%到50%之间,使用天然气的联合循环燃气轮机系统最大效率在45%到50%之间,而很多专家认为高温燃料电池的效率可达到80%至85%。
If the one about the size of England were covered with solar thermal mirrors (which heat up fluid to drive a turbine), it could supply all the world's electricity needs, he said.
他说如果有像英格兰这么大的区域覆盖了太阳热能收集镜(它通过加热液体来推动涡轮),就足满足全世界的电力需求。
Turbine is the main equipment in Thermal Plant. The deformation damage of cylinder can influence the safe and economic running of turbine.
汽轮机是热力厂的主要生产设备,汽缸变形损坏将影响汽轮机安全经济运行。
Thermal stresses in a turbine casing are important for safety operation.
汽缸的热应力,对汽轮机的运行安全很重要。
A new fault model of thermal parameter for Gas Turbine is introduced in the paper.
介绍了一种新型燃气轮机热参数故障模型。
The composition on general Analysis Software of steam turbine Thermal Performance Tests is introduced, and general calculation model of heater for steam turbine is given.
介绍了汽轮机组热力性能试验通用分析软件的组成,给出了汽轮机加热器的通用计算模型。
Turbine exhaust temperature is an important thermal parameter in gas turbine power plants and its measured value is affected by sensors state.
燃气轮机电厂实际运行中,涡轮排气温度是一个重要的热参数,其传感器的状态直接影响到排气温度观测值。
I use steam, dragging a small turbine pumps, the exhaust steam comprehensive re-use, thus realizing the thermal power cogeneration, Cascade comprehensive utilization of geothermal energy.
利用余汽,采用小汽轮机拖动水泵,其排汽综合再利用,从而实现了热功联产,梯级综合利用热能。
Universal calculation software for steam turbine thermal tests is a computer technology practically applied to steam turbine and other thermal power equipments tests in power plant.
汽轮机热力试验通用计算软件是计算机技术在火电厂汽轮机热力试验及其它热能动力设备试验工作中的实际应用。
Its a kernel of thermal system analysis in power plant based on the second law of thermodynamics that the exhaust coefficient of a steam turbine is calculated.
以热力学第二定律为基础的火电厂热力系统分析方法核心是汽轮机排汽系数的确定。
This paper introduced the feasibility of industrial turbine being transformed into experimental electric one was tested by thermal check computation and experiments.
简要介绍了通过详细热力核算及多项试验证实了工业用汽轮机改造为发电汽轮机可行性。
The superheated steam produced in the boiler section. The superheated steam proceeds to the turbine, where its thermal energy is converted to mechanical energy.
过热后的水蒸气流过锅炉,又流过汽轮机,在这里热能被转化为机械能。
Turbine is an important equipment of thermal power plant. Through turbine, thermal energy of steam transforms into mechanical energy, to provide power for generator.
汽轮机是火电厂的重要设备,通过汽轮机,蒸汽的热能转化为机械能,为发电机发电提供动力。
In order to evaluate the quality of Thermal Power Project objectively, a method for evaluating the assembly quality of the steam turbine was discussed based on fuzzy mathematical theory.
为了使火电工程质量评价更加客观,探讨了一种基于模糊数学理论的汽轮机本体安装质量综合评价方法。
This paper presents formula to derive transient temperature distribution and thermal stress for hollow steam turbine rotors.
本文给出了汽轮机空心转子暂态温度分布和热应力计算式。
The methods of physical testing and chemical analysis are introduced for quality inspection on thermal barrier coats of the high temperature parts used in gas turbine power station.
采用理化分析方法对电站燃气轮机高温部件热障涂层的喷涂修复质量进行了检测和评定。
Thermal analysis on the first stage turbine rotor blade has been completed based on the CFD results under calculated conditions.
根据某型涡喷发动机计算状态叶片流场计算结果,对该发动机高压涡轮转子叶片进行了热分析;
A new comparative test approach is provided for the thermal fatigue life experiments of turbine blade under thermal shock. The tested blades and reference blades were mounted in a common vane cascade.
针对涡轮叶片的热冲击疲劳寿命实验,提出了一种新的对比实验方案和措施:将实验叶片和参照叶片组合在同一组试验叶栅上,并且在试验过程中定期对调两种叶片的安装位置。
The modules of important thermal power system equipments such as steam turbine, evaporator, steam-water separator and pipe are developed. System testing and application works are also completed.
完成了汽轮机、蒸发器、汽水分离器、管道等热力系统典型设备模块的开发工作,并进行了相应的系统测试和应用研究。
The dynamic model of a simulator of the boiler-turbine system of a 375 MW(megawatt) thermal power plant is built by a feedforward neural network that is trained offline.
针对一个375MW热电厂的锅炉—汽轮机系统仿真模型,采用多层前向神经网络进行离线建模;
Such a cycle enjoys a significant enhancement in specific power, thermal efficiency and exergy efficiency as compared with a simple cycle gas turbine.
该循环的比功、热效率、火用效率均较简单循环燃气轮机有很大提高。
The cause of turbine stator blades was analyzed on the base of numerical simulation by means of air-thermal coupling for heat transfer and temperature distribution.
在内部流场气-热耦合数值模拟的基础上,研究了某涡轮导向器叶片烧蚀故障的原因。
The leakage in vacuum system of steam turbine for unit no. 4 in Zhangze Power Plant decreased thermal efficiency of said unit.
漳泽发电厂4号机组汽轮机真空系统泄漏,降低了机组热效率。
So it is necessary to estimate quantitatively the radiation effect in the thermal analysis of turbine engine under high temperature.
氧化锆、陶瓷等涂层材料对热辐射是半透明的,因此,高温下涡轮发动机的热分析需要考虑涂层内辐射换热的影响。
The expression of the gas turbine circulation thermal efficiency to coupling parameter is gained on the premise of considering actual influence factor.
在考虑实际影响因素的前提下,推导出燃气轮机热效率关于耦合参数的关系式。
Each part variety of steam turbine thermal system can cause different infections on unit's economic.
汽轮机热力系统各种局部变化对机组经济性有不同的影响。
To counter the difficulty of traditional method, the parallel connection feed-forward network of calculation method for the actual cycle thermal efficiency of a steam turbine is proposed.
针对传统方法计算繁杂的问题,本文提出了基于双并联人工神经网络的汽轮机实际循环热效率计算方法。
To counter the difficulty of traditional method, the parallel connection feed-forward network of calculation method for the actual cycle thermal efficiency of a steam turbine is proposed.
针对传统方法计算繁杂的问题,本文提出了基于双并联人工神经网络的汽轮机实际循环热效率计算方法。
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