检查气体冷却器性能的污垢。
结果表明,气体冷却器出口温度、过热度和膨胀机效率对最优高压压力的影响较为明显。
It is illustrated that discharge temperature of gas cooler, efficiency of expander and degree of superheat at the inlet of compressor can exert more influence on the optimum high pressure.
为满足生产规模扩大的需要,新增设了淡液蒸馏系统气体冷却器,并对其工艺流程作了简要说明。
The gas cooler for thin solution distillation is added to satisfy the demand of enlarging production scale.
实验结果表明,系统运行时的最大制冷(热)系数取决于系统的蒸发温度和气体冷却器出口温度。
Results from the experiment show that there exists a maximum coefficient of performance and it depends on the evaporation temperature and outlet temperature of the gas cooler.
CO2在跨临界循环状态,气体冷却器中存在的温差大,更使它在热泵热水系统中得到了广泛的应用。
Underits trans-critical cycle, there appears a large temperature glide at the cooler rejection, which makes CO2 have a wide application in the water heater.
输气管线压气站工艺气体冷却器是压气站的重要设备之一,具有保护输气管线安全和提高输气效率的重要功能。
Process gas cooler at gas compressor station in gas pipeline, which has the function of ensuring gas pipeline safety and improving gas transmission efficiency, is one of important equipment.
常规跨临界二氧化碳空调循环的性能系数对气体冷却器出口工质温度十分敏感,该温度越低,同等条件下性能越好。
The COP of conventional trans critical carbon dioxide air conditioning cycle depends strongly on the working fluid temperature at the gas cooler outlet.
E6608气体冷却器失效形式属于典型的不锈钢局部腐蚀,既有冲刷腐蚀、晶间腐蚀、又有高温酸性环境下的过氧化腐蚀。
The corrosion type of E6608 gas cooler included eroding corrosion, intercrystalline corrosion and overoxidation corrosion in acidic high temperature environment.
最后对工质CO_2夹带的微量PAG对压缩机、膨胀机、气体冷却器和蒸发器的性能影响分别进行了分析,并提出了超临界换热分析模型。
The effects of little of lubricant in CO_2 on the performance of compressor, expander gas-cooler and evaporator were analyzed, and the model of supercritical heat transfer was also proposed.
振动流化冷却器通过多孔板或其他类型的媒体流化,推动气体发挥作用。
Vibrating fluid bed coolers?function by passing a process gas directly through a bed of solids via a perforated plate or another type of fluidizing media.
气体分馏装置脱乙烷塔顶冷却器浮头螺栓,半数发生脆性断裂。
Half the number of bolts in floating head of deethanizer overhead cooler were brittle fractured.
针对气体车间制氮装置预冷空气温度过高的问题,提出了利用冷媒水降低预冷空气温度的措施及工艺改造方案,并对空气冷却器的工艺计算做了较详细的介绍。
Since the pre cooling air temperature of nitrogen unit is too high, the measure and process design scheme for using the refrigerant water to reduce the pre-cooling air temperature are recommended.
针对气体车间制氮装置预冷空气温度过高的问题,提出了利用冷媒水降低预冷空气温度的措施及工艺改造方案,并对空气冷却器的工艺计算做了较详细的介绍。
Since the pre cooling air temperature of nitrogen unit is too high, the measure and process design scheme for using the refrigerant water to reduce the pre-cooling air temperature are recommended.
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