Design and fabrication of regenerative braking system

Regenerative braking systems (RBS) are an effective method of recovering the energy  released and at the same time reducing the exhaust and brake emissions of vehicles. This  method is based on the principle of converting the kinetic energy created by the mechanical  energ

Project Title

Design and fabrication of regenerative braking system

Project Area of Specialization

Mechanical Engineering

Project Summary

Regenerative braking systems (RBS) are an effective method of recovering the energy 
released and at the same time reducing the exhaust and brake emissions of vehicles. This 
method is based on the principle of converting the kinetic energy created by the mechanical 
energy of the motor into electrical energy. The converted electrical energy is stored in the 
battery for later use. This braking system must meet maximum energy recovery criteria by 
performing its function safely within the shortest braking distance. This study was conducted 
to provide comprehensive information about regenerative energy systems. These systems 
provide economic benefits via fuel savings and prevention of material loss. Their use also 
contributes to a clean environment and renewable energy sources, which are among the most 
important issues on the global agenda. It is clear that more comprehensive studies should be 
carried out in this area

Project Objectives

The main aim of this project was to develop a product that stores the energy which is normally lost during braking, and reuses it.The use of regenerative braking system in automobiles provides us the means to balance the kinetic energy of the vehicle to some extent which is lost during the process of braking

Project Implementation Method

Regenerative braking is a braking method that uses mechanical energy from the engine by converting kinetic 
energy into electrical energy and feeding it back to the battery source. In theory, a regenerative braking system 
could convert a fraction of its kinetic energy to charge a battery, using the same principle as an alternator.In regenerative braking mode, it uses a motor to slow down the car when the driver applies a force to the brake 
pedal, then the electric motor travels in the opposite direction, thereby slowing the car down. When reversed, 
the engine acts as a generator and recharges the battery as shown in figure . Meanwhile, the figure  
shows the car in normal driving condition as the engine rotates forward and draws energy from the battery. 
Using regenerative braking, greatly reduces fuel dependence, improves fuel economy and reduces emissions. 
This type of brake works effectively in driving environments such as stop-and-go driving situations, especially 
in urban cities.

 

Benefits of the Project

 In Regenerative braking system we recover the lost energy  in other vehicle energy not recover but in regenerative braking system we recover the lost energy.

Technical Details of Final Deliverable

 In Regenerative braking system we recover the lost energy  in other vehicle energy not recover but in regenerative braking system we recover the lost energy.

Final Deliverable of the Project

Hardware System

Core Industry

Energy

Other Industries

Petroleum , Legal , Transportation , Media

Core Technology

Others

Other Technologies

Sustainable Development Goals

Industry, Innovation and Infrastructure, Responsible Consumption and Production

Required Resources

If you need this project, please contact me on contact@adikhanofficial.com