The automotive regenerative braking system is an energy recovery system that coverts the kinetic energy of the vehicle produced during deceleration of the vehicle into electrical energy. The converted energy is stored in the vehicle energy storage unit in order to utilize it in other applications such as start-stop function, headlights, and to power the vehicle's interior electronics.

The regenerative braking system uses different types of energy storage units such as flywheel, batteries, and ultra-capacitors. The vehicle’s regenerative braking system is widely used in hybrid and battery electric vehicles in order to increase the fuel efficiency and range of the vehicle. Increase in demand for fuel efficient vehicles, increasing efforts to reduce carbon emissions and the rise in cost of fuels, are prompting auto manufacturers to develop energy-efficient systems.

Get an brochure of this report https://www.transparencymarketresearch.com/sample/sample.php?flag=B&rep_id=38090

This changing dynamics has significantly led to developments in regenerative braking systems market. Furthermore, the energy recovery systems in vehicles are increasingly being utilized in passenger as well as commercial vehicles in order to improve fuel economy and reduce vehicular emissions. As a result for the need of better fuel-economy the regenerative braking systems market has evolved, which is gaining a significant growth in global automotive industry because of energy saving application.

Automotive regenerative braking systems have become an important feature in hybrid vehicles, electric vehicles, and plug-in hybrid electric vehicles. In an electric vehicle, the regenerative braking system is utilized to generate electricity by converting the momentum loss during application of brakes.

Get Table of Content for detail analysis https://www.transparencymarketresearch.com/sample/sample.php?flag=T&rep_id=38090

The amount of recoverable energy depends upon the vehicle speed and stopping pattern. This energy is then transferred to on-board auxiliaries or comfort functions such as climate control. This energy can also be stored as electricity and then returned to the drive train during acceleration or whenever required. This energy can either be stored in batteries or banks of super capacitors. The energy saving feature is a latent driver of the regenerative braking systems market.

The drivers which boost the automotive regenerative braking market are increase in sales of electric vehicle, decline the price of lithium-ion battery, and increase in traffic congestion pushing the demand for regenerative breaking system. Major restrain associate with market are increase in overall cost and weight of the vehicle and high maintenance cost linked with the brake overhauling.