%0 Journal Article
%T COMPARATIVE THERMAL ANALYSIS OF HELIXCHANGER WITH SEGMENTAL HEAT EXCHANGER USING BELL-DELAWARE METHOD
%A S. S. Shinde
%A P. V. Hadgekar
%A S. Pavithran
%J International Journal of Advances in Engineering and Technology
%D 2012
%I 
%X Heat exchangers are important heat transfer apparatus in oil refining, chemical engineering, environmental protection, electric power generation etc. The present work modifies the existing Bell-Delaware method used for conventional heat exchanger, taking into consideration the helical geometry of Helixchanger. Thermal analysis was carried out to study the impacts of various baffle inclination angles on fluid flow and heat transfer of heat exchangers with helical baffles. The analysis was conducted for conventional shell and tube heat Exchanger and Helixchanger for five baffle inclination angles. Analysis results indicate that continual helical baffles can reduce or even eliminate dead regions in the shell side of shell-and-tube heat exchangers. The pressure drop varies drastically with baffle inclination angle and shell-side Reynolds number. The variation of the pressure drop is relatively large for small inclination angle. However, for ¦Á>350, the effect of ¦Á on pressure drop is very small. Compared to the segmental heat exchangers, the heat exchangers with continual helical baffles have higher heat transfer coefficients to the same pressure drop. The detailed knowledge on the heat transfer and pressure drop across the shell side will provide further basis flow for further optimization of shell-and-tube heat exchangers.
%K Bell-Delaware method
%K helical baffles
%K helix angle
%K heat transfer coefficient per unit pressure drop
%K Shell & tube heat exchanger.
%U http://www.archives-ijaet.org/media/24I8-IJAET0805801-COMPARATIVE-THERMAL-ANALYSIS.pdf