Experimental research on a single segmental baffle drilling;

Experimental study on quantity and layout of drilled apertures on single segmental baffle;

A contrast analysis of the heat transfer performance of the shell structures of helical baffle and segmental baffle is made.

The computational fluid dynamics(CFD) method has been applied to simulate shell-side fluid flow in helical and segmental baffles heat exchangers.

In the present paper, the two shell pass shell-and-tube heat exchangers with helical baffles and segmental baffles were investigated with CFD method.

As for the wild use of a shell-and-tube heat exchanger with single segmental baffles,its numerical simulation was complied and analyzed,which confirms the feasibility of FLUENT software applied for the shell side fluid numerical simulation of shell-and-tube heat exchanger and provided some theoretical evidence for studying other heat exchangers.

The Computational Fluid Dynamics(CFD)method has been applied to simulate both shell-side fluid in single segmental baffles and helical baffles heat exchangers under the same operational parameters.

Based on the concept of porous media and distributed resistance, software FLUENT is used to conduct a 3D numerical simulation on the flow field of shell side of a single segmental baffle heat exchanger.

The dynamic behaviors of shell-tube heat exchanger with segmental baffles adopting water and oil as the working mediums were investigated by taking experiment on a system established to study the dynamic behavior of shell-tube heat exchanger.