大楼内的办公区域都覆盖着铝翅片结构,以防止太阳光的照射,并提高节能性。
Office areas in the building are covered with aluminum fin to protect the building from sun light and increase energy saving performance.
因此,本文提出的无量纲空间波动参数为开缝翅片结构优化设计提供了一个定量的标准。
Therefore, the space fluctuation parameters proposed in present paper provides a quantitive criterion for configuration optimization design for slotted fin surfaces.
本发明涉及空气调节器技术领域,是一种能提高热交换器热交换效率的空调热交换器翅片结构。
The present invention relates to air conditioner technology, and is especially heat exchanger fin structure capable of raising the heat exchange efficiency of the heat exchanger.
模拟结果表明,热管的管径,管长,管间距和翅片结构均影响热管换热器的换热效率和压力降。
The simulation results indicated that heat pipe diameter, pipe length, tube pitch and fin structure had influence on the efficiency and pressure drop of heat pipe exchanger.
盘管的标准型式均为铜管串铝翅片结构,采用机械胀管。表冷段设计有倾斜式排水盘,保证彻底排尽水盘中的凝水。
All standard coils are mechanically expanded copper pipes plus aluminum fins. The surface cooling section is equipped with a pitched discharge coil to ensure complete discharge of condensed water.
采用计算机编程对错位翅片型板翅换热器的传热固子、摩擦因子及翅片结构对传热性能影响进行了数值模拟对比研究。
Contrastive simulation research on heat - transfer factor, friction factor and fin structure of offset strip fin heat exchanger affect heat - transfer property by compiling computer programs.
而蒸发器和冷凝器主要结构是由运载制冷剂的载体管材和在其上的铝散热翅片所构成。
The main structure of the evaporator and the condenser is the carrier pipe of the carrier refrigerant and the aluminum radiating fins on the carrier.
在风洞试验台上对8种不同结构参数的百叶窗翅片进行传热和流动阻力的性能试验。
Experimental study on heat transfer and flow resistance of louver fins with 8 different structural parameters were carried out on a wind tunnel test rig.
保证该复杂结构件的翅片同隔板、隔板同底板之间高质量的连接,是一个值得研究的科学问题。
Ensure a high quality connection of the fin with the partitions, and partition with the base is a researchable complex scientific issues.
在三维空间上的对流换热模拟表明,铜制的针肋结构的换热系数要高出百叶窗翅片24%-34%,而流阻仅高出10%-16%。
The 3-D numerical prediction proved that the copper pin fin structures have 24%-34% higher convection heat transfer coefficients with 10%-16% pressure drop increase.
翅片与介质流动的管路为一体结构,消除了间隙热阻。
The fins and the tube are made of a whole, so there is no heat resistance.
翅片与介质流动的管路为一体结构,消除了间隙热阻。
The fins and the tube are made of a whole, so there is no heat resistance.
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