Journal of Thermal Energy Systems

The focus of this project is to review the latest development and technologies on waste heat recovery of exhaust gas from internal combustion engines and new developments on turbocharger technology. The study looked into the potential energy savings and performances of technologies. In this paper, a comparative study among exhaust turbocharging, steam turbocharging and steam-assisted turbocharging was conducted on a passenger car gasoline engine, and the effects of various boosting pressure were analyzed. In this project, we are placing a turbine in the path of exhaust from the engine which is coupled to dynamo which converts the kinetic energy into electrical energy. The generated power is stored in the battery to apply pneumatic braking system

R. Saidur. “Technologies to recover exhaust heat from internal combustion engines” Renewable and Sustainable Energy Reviews 16 (2012) pg.5649-5659.

J. Yang. “A comparative study on turbocharging approaches based on IC engine exhaust gas energy recovery” Applied Energy 113 (2013) pg.248-257.

S. Rajoo. “Analytical and experimental study of micro gas turbine as range extender for electric vehicles in Asian cities.” Energy Procedia 143 (2017) pg.53-60.

A. Fazlizan. “Design and experimental analysis of an exhaust air energy recovery wind turbine generator” Energies (2015) pg.6566-6584.

S. Kumar. “Generation of electricity by using exhaust from bike” International Journal of innovative research in Science, Engineering and Technology. Vol.4, Special Issue 6, (2015) pg.1877-1882.

V. Nivethan. “Fabrication of air brake system using engine exhaust gas” Ijariie-issn (o) Vol-2, Issue-3 (2016) pg.305-308.