Effect of Spacing Between Baffles on the Dynamic and Thermal Behavior of Water in a Shell-and-Tube Heat Exchanger

Abstract: A numerical simulation of a turbulent flow of water in three shell and tube heat exchangers equipped with 6, 8, 10 segmental baffles as the working fluid at Reynolds numbers ranging from 24327, 33356, 42569 are performed. The conservation equations of mass, momentum and energy are solved by the finite volume method based on the SIMPLE algorithm for coupling velocity-pressure, the mathematical model k-ε within the Fluent software is used in the different cases presented. The temperature, the velocity, the frict… Show more

“…Youcef and Saim (2018, 2019 after a comparative study between two heat exchanger show that, the heat transfer coefficient, pressure loss increase by 1.86%, 21.67%. Youcef and Saim (2022) show increases in heat exchanger performances with increased baffles number. Rhodri et al (2012) shown that the arterial wall temperature are a significant role in regulating the blood temperature in a patient-specific carotid bifurcation.…”

Numerical study on shell and tube heat exchangers with different baffles configurations

“…Youcef and Saim (2018, 2019 after a comparative study between two heat exchanger show that, the heat transfer coefficient, pressure loss increase by 1.86%, 21.67%. Youcef and Saim (2022) show increases in heat exchanger performances with increased baffles number. Rhodri et al (2012) shown that the arterial wall temperature are a significant role in regulating the blood temperature in a patient-specific carotid bifurcation.…”

Numerical study on shell and tube heat exchangers with different baffles configurations