Plate fin heat exchangers are used in a variety of different working environments in the work area, the performance requirements needed to achieve dif
Factors influencing the logistics distribution characteristics of plate fin heat exchangers and improvement measures which can improve the overall eff
The distribution inhomogeneity is an order of magnitude lower than the traditional head structure, but the performance is similar to that of the gas-l
The mixing channels are separated into separate units using partitions, which are not connected to each other and effectively prevent the gas-liquid f
The gas-liquid distributor consists of a gas channel, a liquid channel, a gas-liquid mixing channel and a partition. The liquid phase fluid enters the
The new inlet method, distribution followed by mixing, first separates the fluid from the gas-liquid and then enters the gas-liquid distributor throug
The design of the flow channel reduces geometric abruptness, allows the fluid to develop more fully on both sides, reduces the uneven distribution of
The pretension of a guide flap under the inlet pipe of the head allows the fluid to be divided into 3 parts to enter the closure, allowing a smaller c
The homogeneity and stability of the fluid distribution in the to structure is strongly influenced by the angle of infusion. For the side entry type,
If the baffle is too thick the rectification effect will not be obvious, too large an aperture will cause too much fluid to flow from the centre of th
The method of non-linear mapping of the structural parameters of the plate-fin heat exchanger is based on the combination of experimental data derived
