Call for Abstract

Scientific Program

4th International Conference on Battery and Fuel Cell Technology, will be organized around the theme “Growing enthusiasm in finding alternative technologies”

Battery Tech 2019 is comprised of 9 tracks and 40 sessions designed to offer comprehensive sessions that address current issues in Battery Tech 2019.

Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.

Register now for the conference by choosing an appropriate package suitable to you.

Track 1:New Battery Technologies

The battery technology is getting used in the Hybrid vehicles as this technology developments are to be improved among the people. The new batteries are: Gold nanowire batteries, Magnesium batteries, Solid state lithium-ion, Graphene car, Sodium-ion, Foam, Nano, Liquid Flow batteries and many. The future technologies of battery are more exciting.

  • Track 1-1Solid-State Batteries
  • Track 1-2Biobatteries
  • Track 1-3Non-Rechargeable Batteries
  • Track 1-4Gold nanowire batteries
  • Track 1-5Liquid Flow batteries
  • Track 1-6Zinc-air batteries
  • Track 1-7Foam batteries
  • Track 1-8Urine powered batteries

Track 2:Lithium Batteries

\r\n Past 25 years, the lithium batteries are used in mobile phones and electric vehicles which has relatively consumes less space and weight but has a large amount of energy. It has been driven with 240 percent higher price commodity.

\r\n

  • Track 2-1Li-Oxygen Batteries
  • Track 2-2Types of Li-ion Batteries
  • Track 2-3Beyond Lithium
  • Track 2-4Cell design and manufacturing
  • Track 2-5 Applications

Track 3:Battery Management System

\r\n 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

\r\n

  • Track 3-1Battery Recycling
  • Track 3-2Energy management
  • Track 3-3Battery Maintainence
  • Track 3-4Safety

Track 4:Fuel Cell Technologies

\r\n There are different types of electrolytes based on the different applications such as PEMFC, DMFC, SOFC, AFC, etc. Fuel Cell generated electrical energy from the electrochemical reaction as that of a battery.

\r\n

  • Track 4-1Latest Developments in Fuel Cells
  • Track 4-2Fuel Cell Categories

Track 5:Applications of Fuel Cells

\r\n The usuage of Fuel Cell is broadly in the major areas where in stationary power generation, transporation and also in portable power generation applications. From a couple of decades most of the automobile manufacturers are devloping the fuel cell vehicles.

\r\n

  • Track 5-1Transportation Applications
  • Track 5-2Portable Power
  • Track 5-3Stationary Power Applications

Track 6:Bio-Electrochemistry

The biological fields have opened new avenues for the modern form of energy generation where the organisms and molecules are used as a source of energy generation in fuel cells by using the principles of electrochemistry. Enzymatic Electrochemistry has found its application as a sensor, bio-fuel cell, bio-modified electrodes and catalysis.

  • Track 6-1Enzymatic Fuel Cell
  • Track 6-2Enzymatic Fuel Cell
  • Track 6-3Bio Battery
  • Track 6-4Enzymatic Fuel Cell
  • Track 6-5Microbial Electrochemical cells
  • Track 6-6Enzyme Electro Catalysis

Track 7:Electric Vehicles

\r\n Electric Vehicles came into existence from the mid 19th century providing a ease of operationa nd also the level of comfort. There are many foms of these electric vehicles which work on their own properties such as the type of battery, design of the motor controller, size and the power.

\r\n

  • Track 7-1Vehicle Types
  • Track 7-2Advantages and disadvantages of EVs
  • Track 7-3Properties
  • Track 7-4Safety

Track 8:Hydrogen energy

\r\n 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.

\r\n

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

\r\n

  • Track 8-1
  • Track 8-2Energy Carrier
  • Track 8-3Hydrogen Fuel Cell
  • Track 8-4Energy Storage
  • Track 8-5Future of Hydrogen

Track 9:Super Capacitors

\r\n 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.

\r\n

  • Track 9-1 Types of Super capacitors
  • Track 9-2Applications
  • Track 9-3Electrical Parameters