3^rd International Conference on Battery and Fuel Cell Technology September 10-11, 2018 London, UK

A BMS is an electronic system that manages a battery pack by protecting it from the external operations. It involves in many functions like Monitoring, calculating, protection, reporting and authenticating/balancing.

Fuel Cell generates electricity from electrochemical reaction which is similar to a battery. The electrical energy is generated from the potential energy which runs as long as the sources hydrogen and oxygen are supplied to it.  Based on the type of electrolytes used it is categorized which are used for different applications. They are PEMFC, DMFC, SOFC, AFC, MCFC, PAFC and many others.

The fuel cell market is rapidly growing as its market will reach 50 GW by 2020.

The fuel cells usage has been broadly in three areas: stationary power generation and power generation, portable power generation and power for transportation and they are also include a category for distribution, storage, fuel and infrastructure and dispensing of fuel cells in order for the implementation of fuel cell technology.

Electric vehicles came into existence since the mid of 19^th century, the level of comfort and ease of operation are better when compared to the gasoline cars. By the 21^st century the reappearance of the electric vehicles and its technological developments has increased a lot and also being focused by the Governments.

The differenet types of Electric Vehicles:

Hydrogen which is the most abundant element in our earth’s crust can be generated from several resources like renewable and nuclear energy. It is considered to be same as that of electricity as a clean energy carrier.  It is an important carrier of energy in future and has a number of advantages as it has high efficiency, low polluting fuel, power generation and heating.  In order to separate the hydrogen from the other compounds the steam reforming is the technique which is least expensive for generating. The other method is electrolysis.

As it is easily made from the renewable resources it joins electricity as the important energy carrier in the future.

The mechanisms of the super capacitor are can be quickly charged and has very high density of power. It had a different storage mechanism and stores electrostatically on its surface and has no chemical reactions involved in it. The cost of a super capacitor exceeds that of the battery materials because of the supercapicitor materials such as graphene which is a high performing material. Both batteries and super capacitors are helpful in the future needs as the batteries rose by 5% where as the super capacitors by 50-60% of its charge.

Materials plays an important role in the supporting the technologies that can bid the solutions to get the sustainable and the renewable energies in the future as the energy play a major role for the humans. Materials for saving energy: Thermoelectric, Energy saving buildings. Materials for renewable energy storage conversion: Batteries, capacitors, hydrogen storage, photovoltaics and solar cells.

This market has an expected increase of $777.6 billion in 2019 in terms of revenue covering all the major sources such as hydroelectric, solar, wind, geothermal, oceanic sources etc.