Analyses the influencing factors of the heat exchange efficiency according to the temperature difference and hygroscopic driving force.

Loss of steam is a major factor impairing its heat exchange efficiency.

In this paper, it was offered that several proposals for reducing the influence of high speed wind on heat exchange efficiency of air cooled condenser power plants under summer high temperature conditions.

The fluid flow directly affects its heat transfer efficiency in the heat exchanger,the flow effect of heat exchange tube can be improved,and the heat transfer efficiency can be enhanced by the appropriate arrangement.

In order to analyse the gas-solid separation efficiency,heat transfer efficiency and the resistance of the preheater system,studied the cyclone preheater by thermal numerical simulation.

Investigates the effects of variable parameters such as the channel s width,the velocity,the temperature and the relative humidity on heat transfer efficiency and exergy efficiency ratio.

The results indicate that the parallel-flow is higher than reverse-flow in heat-transfer efficiency and is recommended to be used for a TDHT system.

The results indicated that the reverse-flow was higher than that of parallel-flow in heat-transfer efficiency when it was a single-casing,but it was reverse when using double-way casing heat-transfer.