Your search keyword '"Rajkumar, Sivanraju"' showing total 2 results

1. Heat transfer analysis in counter flow shell and tube heat exchanger using of design of experiments

Author

Sakthivel Perumal, Rajkumar Sivanraju, Sathish Thanikodi, Dinesh Sundaresan, Kamalakannan Ramalingam, and Nega Tesfie

Subjects

Work (thermodynamics), Materials science, Renewable Energy, Sustainability and the Environment, 020209 energy, Shell (structure), Baffle, 02 engineering and technology, Heat transfer coefficient, Taguchi methods, Heat transfer, Heat exchanger, 0202 electrical engineering, electronic engineering, information engineering, Composite material, Shell and tube heat exchanger

Abstract

In this research aimed to estimate the Overall heat transfer coefficient of counter flow Shell and Tube heat exchanger. Heat transfer is the phenomenon to analysis of heat transfer from one medium of fluid to another medium of fluid, it is considered as a major role in industrial applications. Numerous heat exchangers are available, in this research considered as shell and tube heat exchanger. Overall Heat Transfer Coefficient (OHTC) informed that three major factors are influenced as passing of fluid (film) media coefficient inside the tubes, circulating of fluid (film) media coefficient over in the shell and the resistance of wall made on metal. In this study Taguchi L9 Orthogonal array is executed to found the overall heat transfer coefficient with effective process parameters. Three major parameters are considered for this work are coil diameter (25 mm, 30 mm and 35 mm), Baffle thickness (15 mm, 20 mm and 25 mm) and Baffle gap (200 mm, 300 mm and 400 mm. Baffle plate thickness is highly significant factor for this experiment.

Published

2022

2. Effects of nanofluids on heat transfer characteristics in shell and tube heat exchanger

Author

Rajkumar Sivanraju, Ramesh Chinnappan, Addisalem Mekonnen, Vijayan Venkatraman, Sathish Thanikodi, and Sakthivel Perumal

Subjects

Pressure drop, Work (thermodynamics), Nanofluid, Materials science, Thermal conductivity, Renewable Energy, Sustainability and the Environment, Heat transfer, Heat exchanger, Mixing (process engineering), Composite material, Shell and tube heat exchanger

Abstract

Nowadays ensure the performance of heat exchanger is one of the toughest roles in industries. In this work focused on improve the performance of shell and tube heat exchangers by reducing the pressure drop as well as raising the overall heat transfer. This work considered as a different nanoparticles such as Aluminium oxide (Al2O3), Silicon dioxide (SiO2), Titanium oxide (TiO2) and Zirconium dioxide (ZrO2) to form a nanofluids. This nanofluids possesses high thermal conductivity by using of this increase the heat transfer rate in shell and tube heat exchanger. The selected nanofluids are compared to base fluid based on the thermophysical properties as well as heat transfer characteristics. All the heat transfer characteristics are improved by applying of nanofluids particularly higher results are obtained with using of TiO2 and Al2O3 compared to SiO2 and ZrO2. Mixing of nanoparticles increased in terms of volume percentage it will be increases the all Heat transfer characteristics as well as performance of the heat exchanger.

Published

2022