1)regenerative cycle回热循环
1.Performance analysis of substitutes of R22 for the regenerative cycle;R22替代工质回热循环的性能分析
2.In this paper, the exergy analysis of the positive and reverse balances on micro-turbine(MT) regenerative cycle is made and the mathematical models of the identity between two balances are deduced.对采用回热循环的微型燃气轮机进行了正、反平衡效率分析,推导了正、反平衡效率一致性的数学模型。
3.Results show that the regenerative cycle and the steam injected cycle can effectively complement and match each other.研究结果表明,回热循环与回注蒸汽循环可以互补,匹配关系良好,通过回注蒸汽可使回热型微燃机的效率与比功均得到显著提高。
英文短句/例句
1.constant pressure regenerative cycle定压[等压]回热循环
2.intercooled regenerative cycle gas turbine中间冷却式回热循环燃气轮机
3.Reaserch on Control of Utilization of Gas Heat Recycle in Gas Turbine燃气轮机烟气回热循环利用控制研究
4.regenerative air cycle回热式空气制冷循环
5.Analysis on Optimal Expansion Ratio of Inter-Cooled Regenerative Reheat Cycle间冷回热再热循环的最佳膨胀比分析
6.Optimization and Analysis of Absorption Cooling System Using Waste Gas;余热回收型吸收式制冷循环优化研究
7.OPTIMAL PERFORMANCE CHARACTERISITICS OF THE REGENERATIVE FERROMAGNETIC ERICSSON REFRIGERATION CYCLE铁磁回热Ericsson制冷循环性能特性优化
8.The Effect of Thermal Resistance and Regeneration Loss on Ericsson Cycle Performance热阻和回热损失对埃里克森循环性能的影响
9.Power density performance of a regenerated Brayton cycle coupled to variable-temperature heat reservoirs变温热源回热式布雷顿循环的功率密度特性
10.Performance Analysis for a Real Regenerated Brayton Refrigeration Cycle with Constant-Temperature Heat Reservoirs恒温热源实际回热式布雷顿制冷循环性能分析
11.Preliminary analysis of thermodynamic cycle of an intercooled recuperated turbofan engine中冷回热航空涡扇发动机热力循环初步分析
12.Performance characteristics of an irreversible regenerative Brayton refrigeration cycle working with an ideal Bose gas不可逆回热式玻色布雷顿制冷循环性能分析
13.Efficiency Optimization for an Irreversible Closed Intercooled Regenerated Brayton Cycle不可逆闭式中冷回热布雷顿循环效率优化
14.Efficiency optimization of an endoreversible closed intercooled regenerated Brayton cycle内可逆闭式中冷回热布雷顿循环效率优化
15.Power Optimization of a Closed Brayton Cycle with Endo-reversible Intercooling and Regenerative Heating闭式内可逆中冷回热布雷顿循环的功率优化
16.Power and efficiency characteristic for an endoreversible closed intercooled regenerated Brayton cycle内可逆闭式中冷回热布雷顿循环功率效率特性
17.Power Density Optimization of an Irreversible Closed Intercooled Regenerated Brayton Cycle不可逆中冷回热布雷顿循环功率密度优化
18.The Effect of Regenerative Losses in Ferroelectric Stirling Refrigeration Cycle;回热损失对铁电体斯特林制冷循环性能影响
相关短句/例句
Regenerated cycle回热循环
1.The finite time thermodynamic performance of an irreversible closed gas turbine regenerated cycle with coustant-temperature heat reservoirs is stydied.热阻对闭式燃气轮机回热循环性能的影响陈林根,孙丰瑞,郁军(海军工程学院武汉430033)关键词有限时间热力学,闭式燃气轮机循环,回热循环,最优化1前言近年来,已有一些文献用有限时间热力学[1,2]研究了恒温[3~12]、变温[8,12,13]热源条件。
3)recuperative cycle回热循环
1.The configuration and the recuperative cycle of microturbine are introduced,especially the cycle of externally firing micro turbine.在简要介绍微型燃气轮机结构及其回热循环基础上,重点阐述了外燃式微型燃气轮机循环。
4)PM heat regeneration cyclePM回热循环
1.Working processes of the porous medium combustion engine,called "PM-engine",are briefly introduced and the ideal thermodynamic model of PM heat regeneration cycle is presented.介绍了多孔介质(PM)发动机的工作过程及其PM回热循环的热力学理想模型。
5)regeneration cycle回热式循环
6)thermocycling loop热循环回路
1.The thermocycling loop is a key system of circulating fluidized bed(CFB) boiler,its circulating flow and thermodynamic characters directly affect safe and economic operation of CFB boiler.热循环回路是循环流化床(CFB)锅炉的关键系统,其循环流动特性和热力特性直接影响CFB锅炉的安全经济运行。
延伸阅读
回热循环回热循环regenerative cycle hu一re xunhuon回热循环(regenerative eyele)余热被回收,并用于循环自身的一类热力循环。许多热力循环都可以采用回热.其具体实施的原理和方法大同小异(见布雷顿循环)。这里只介绍以兰金循环为基础的回热循环。 为了回热,不妨设想如图(a)所示的一个热力装置系统,在凝汽器中凝结成的液态工质,首先通往汽轮机,以逆流的方式吸收蒸汽的热量,而汽轮机中的蒸汽则一面放热一面膨胀做功。液态工质经吸热温度升高后再通往锅炉,从而减少了工质在凝汽器中的放热量,同时也提高了工质在锅炉中吸热的平均温度,循环效率得到明显的改善。整个循环的T一:图示于图(b)。 实际的回热循环如图(。)所示。它是通过多级回热加热器对液态工质进行逐级加热实现的,只是所利用的不是通过汽轮机的全部蒸汽部分冷凝时所释放的热量.而是从汽轮机的各级抽汽口中抽出的部分燕汽凝结成液体时所释放的热量。 产生 Ikw·h的电能所需的蒸汽量叫做汽耗率,所消耗的热量叫做热耗率.与兰金循环相比,虽然回热.汽..汽.┌─┐│帆││护│└─┘┌─┐│拐││护│└─┘ 回热循环(a)原理;(b)T一:图;(e)技术实施循环的热耗率有显著的降低,汽耗率却显著地提高。热耗率的降低,表明热效率提高了;汽耗率的提高,增加了汽轮机高压级的容积流量,但由于抽汽,却减小了汽轮机低压级的容积流t和蒸汽湿度,有利于中、大型汽轮机效率的提高和工况的改普。 为了使回热循环具有更高的热效率,需要处理好两个间题,一要选择最有利的给水回热加热的最终温度,二要分配好各回热加热级的加热量。这不仅仅是循环效率的问题,需要全面地技术经济权衡,例如回热加热沮度必须与锅炉的余热利用综合考虑。减小回热加热器传热温差、增加加热级数,虽然在理论上对循环效率有利,但却要增大受热面和设备造价。
