冷凝温度
- 网络condensing temperature;condensation temperature;Condensing Temp
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在发生温度90℃、蒸发温度0℃、冷凝温度34℃的条件下,系统COP可以达到0.182。
A COP of 0.182 can be achieved at generating temperature 90 ℃, evaporating temperature 0 ℃ and condensing temperature 34 ℃ .
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2排管冷凝器的性能优于3排管的,风量增多23.1%,冷凝温度降低10.1℃,空调器的COP升高26.7%。
The performance of the 2 tube rows condenser is better than that of the 3 tube rows condenser . The volume flow of the air which passed through the condenser increases 23.1 % , The condensing temperature decrease 10.1 ℃ and COP of the air conditioner rises 26.7 % .
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当冷凝温度相同时,2种制冷剂的COP、单位体积制冷量随过冷度的增大而增大。
In addition , COP and volumetric refrigerating capacity increased with increasing subcooled temperature at the same condensation temperature .
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在一定的冷凝温度和蒸发温度下,随着混合制冷剂中CO2的质量分数增加,循环单位制冷量和压力比都增大;
And when giving the evaporating temperature and condensing temperature , the increasing mass fraction of CO2 enhance refrigerating output by unit mass refrigerant and compression ratio .
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探讨了提高复合制冷循环系统COP的几个关键问题,包括喷射器的设计、工作温度、冷凝温度、蒸发温度等,并对复合制冷循环系统的发展作了展望。
Discusses several key issues to raise COP value of complex ejecting refrigeration cycle , including design of ejector , working temperature , condensation temperature , evaporation temperature etc. Prospects its development .
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本文对TFE/NMP吸收式热泵的理想循环进行了模拟,研究了主要操作参数如蒸发温度、冷凝温度、循环倍比、进料浓度等对性能系数COP的影响并结合试验结果得出了最优参数。
The effect of main operation parameters ( evaporation temperature , condensation temperature , cycle ratio and the concentration of weak solutions ) on the coefficient of performance ( cop ) was studied . The optimal parameters are obtained .
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在对中高温热泵进行了大量的试验研究之后,发现了四种有别于理论分析结果的试验现象,如冷凝温度下降,COP也下降;
Four kinds of phenomena in moderate and high temperature heat pumps are found , which those are clear difference between theory and experiments , for example , the COP may be reduced with condensation temperature drop or working frequency of compressor decreasing .
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通过DBP-DBS物系数值模拟,系统研究进料温度、冷凝温度、进料浓度和进料速率对分子蒸馏过程的影响。
The effects of feed temperature , condenser temperature , feed concentration and feed rate on MD process were investigated by the simulation of DBP-DBS mixture distillation .
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为实现变蒸发温度和冷凝温度模式下的能耗仿真,利用了基于实验数据拟合而得到的性能曲线来模拟VRF系统在改变蒸发温度和冷凝温度情况下的能耗,具有广泛的适用性。
To achieve energy simulation of variable evaporation temperature and condensation temperature control mode of VRF system , using the experimental data obtained based on the performance curves to simulate the VRF system when changing the evaporation temperature and the condensing temperature .
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针对这种小型的海水淡化热泵装置,以3.6kg/h的淡水产出率为设计参数,确定了该装置的标准运行工况,即冷凝温度、蒸发温度、海水的补充流量等。
With the product water rate of 3.6kg/h as the design parameter , the device 's standard operation conditions were determined , i. e. , condensation temperature , evaporation temperation , sea water make-up flow etc.
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结果:在滴制温度为80oC、滴头口径1.0/2.0(mm/mm)、冷凝温度为15℃、滴距为2cm时,滴丸成型质量最好。
Results : The quality of formoterol dropping pills was the best under the condition of processing temperature at 80 ( ~ oC ), dripper size of 1.0 / 2.0 ( mm / mm ), Condensate temperature at 15 ( ~ oC ) and 2 cm distance above liquid level .
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水冷式冷水机组冷凝温度控制法研究
Study on the Condensing-temperature Control in Air-conditioning Systems with Water-cooled Chillers
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《螺杆式制冷剂压缩机》标准中冷凝温度的探讨
Discussion of the condensing temperature in the standard of SCREW REFRIGERANT COMPRESSORS
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多背压凝汽器;平均冷凝温度;熵产生数;优化;
Multi-Pressure condenser ; Mean condensing temperature Number of entropy generation Optimization ;
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多背压凝汽器的平均冷凝温度
The Mean Condensation Temperature of a Multi-pressure Condenser
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本论文所模拟的喷射器的工作参数,主要是指发生温度、蒸发温度和冷凝温度这三个基本参数。
The working parameters of ejector include generator temperature , evaporator temperature and condenser temperature .
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蒸发温度的升高和冷凝温度的降低能显著提高循环的性能;
A higher evaporating temperature and lower condensing temperature will obviously improve the system performance .
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本实用新型能有效降低冷凝温度,提高了制冷效率。
The utility model can effectively reduce the condensing temperature and increase the refrigeration efficiency .
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全封闭热泵干燥系统冷凝温度对干燥能力的影响
System and entropy the influence of condensing temperature on drying speed in hermetic heat pump dryer
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论述了在集中空调冷却水变流量系统中冷凝温度控制法的特点;
States the characteristics of the condensing-temperature control in variable condenser water flow of central air-conditioning systems .
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同一含油率下,冷凝温度对平均换热系数几乎没有影响。
The condensation temperature has negligible effect on the mean heat transfer coefficient at a same oil concentration .
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R22/R142b非共沸混合制冷剂在冷凝器和蒸发器中其冷凝温度和蒸发温度是变化的。
The condensation temperature and evaporation temperature are variational in condensator and evaporator using R22 / R142b non-azeotropic mixture refrigerant .
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外部热源直接影响冷凝温度和蒸发温度,依托现有实验台,进行冷却水和冷冻水的参数变化对系统循环性能的影响实验。
Relying on the existing bench , cooling water and frozen water circulation system of parameters on the performance of experiments .
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提出在低温环境下提高冷凝温度的方法和措施,并研究开发新型的风冷式空调机。
Provide methods to raise the condensation temperature of the unit and design a new type of air-cooled air handling unit .
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分析了蒸发温度、冷凝温度、转速和转速比对机组整体运行特性的影响。
Analyses the influence of evaporating temperature , condensing temperature , rotating speed and speed ratio on the operating characteristics of the unit .
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系统的发生温度在75~80℃以上、冷凝温度在35℃以下时,系统能正常运行。
When the generating temperature is higher than 75-80 ℃ and the environmental temperature is lower than 35 ℃, the system can work normally .
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结果表明,蒸发温度和冷凝温度在吸附循环过程中对单管性能影响较大,应合理加以匹配。
It is concluded that the evaporating and condensing temperature have effect on the performances of unit tube , and should be rational matching .
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本文分析了蒸发式冷凝器和水冷式冷凝器在同一冷凝温度下对应于相同冷凝负荷的能耗量。
This paper analyses the energy consumption of evaporative condenser compared to shell-tube water-cooling condensers under the same condensing temperature and same heat load condition .
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那么对普通水源热泵机组进行简单的改进使之在65℃冷凝温度下高效、稳定的运行有着一定的现实意义。
Therefore it has practical significance to modify general water-source heat pump unit which operates high efficiently and stable under the condensation temperature of 65 ℃ .
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提出了运行工况制冷排气量、储罐冷却设计温度和冷凝温度的计算方法。
The design method is given for the refrigerated air discharge capacity in operation case , the designed cooling temperature for storage and the condensation temperature .