Comparation on the performances of the plate-fin and tube heat exchanger is made according to the base datas from power plant.
通过实测的运行数据,对板翅式换热器和管式换热器的性能进行了对比。
This kind of fin is applicable to the fin-tube cooling heat exchanger and the effect of heat transfer is perfect.
证明该圆孔翅片是一种适用于翅片管式制冷换热器且传热效果优越的片型。
A general steady distributed parameters model of fin-and-tube heat exchanger with complex refrigerant circuits was developed based on two-phase fluid network.
基于两相流体网络,建立了针对具有复杂流路布置的翅片管换热器稳态通用分布参数仿真模型。
The wavy fin-and-tube heat exchanger is one of th.
波纹翅片管换热器是应用最为广泛的翅片管换热器之一。
The characteristic of heat transfer enhancement and the fluid flow of the fiat tube bank fin exchanger which has vortex generators on both sides of the fin were investigated by using numerical method.
采用数值模拟的方法,研究了流道内上下两肋片均布置有涡产生器的扁管管片式散热板芯的传热与阻力特性,并与流道单面布置涡产生器的换热板芯进行了对比。
To find the basic heat transfer performance of fin-tube heat exchanger, the numerical analysis is carried for heat transfer element with single round and related fin area.
用数值方法分析了涡产生器式圆管管片式换热板芯单个圆管翅片区域内的传热与阻力性能。
Part Two compares the traditional tube-fin heat exchanger and the microchannel heat exchanger used in compressor condensing unit.
第二部分为比较传统的管翅式换热器和微通道换热器在压缩冷凝机组中的应用。
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.
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。
Rectangle fin circle tube heat exchanger is chosen as the laser's radiator, and its conducting heat is calculated.
选择矩形翅片圆管束热交换器作为激光器的散热部件,并进行了换热计算。
Rectangle fin circle tube heat exchanger is chosen as the laser's radiator, and its conducting heat is calculated.
选择矩形翅片圆管束热交换器作为激光器的散热部件,并进行了换热计算。
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