Porous Media

Battery management system for electric vehicle and drone application

Fire hazard in electric vehicle is one of the key problem that requires immediate attention. One of the way to prevent such fires in battery systems is have a competent battery management system which can predict the potential failure of the battery pack. Battery management system (BMS) consists of battery model, parameters and state estimation algorithms and optimziation toolboxes. Traditionally, circuit based models are being used in these BMS which do not provide physical understanding of the battery systems.

Battery pack design for E-Scooter/Drone/EV applications

Battery pack design for an e-scooter, drone or EV is very interesting problem. With the new e-scooter boom in the market and pending EV boom in India, the need for battery pack design engineers is destined to grow. A battery pack design requires deeper understanding of the workings of a li-ion battery along with their dynamics in a group of batteries. This work consist of both simulation and experimental component.

 

 

Modeling and Simulation of Li-ion Batteries and Fuel Cells Impedance Response

Electrochemical Impedance Spectroscopy (EIS) offers a way to determine and quantify the transport and kinetic processes occurring in energy storage and conversion systems such as Li-ion batteries, fuel cells and electrolyzer. EIS is a powerful technique that helps in quantifying the various transport and kinetic resistances hampering the performance of the said systems. Apart from that, health monitoring of batteries and fuel cells (estimating the remaining life and capacity fade) has become very critical for enabling e-mobility.

Three-dimensional Self Assembly of Graphene

Three-dimensional (3D) graphene is known to have numerous applications as adsorbent, catalysts, sensors, energy storage such as batteries and super-capacitors. Further, 3D graphene is easy to handle and convenient to load as adsorbent in a packed bed.

Enabling Fast Charging and Safe Operation for Li-ion/Na-ion Battery: Modeling, Simulation and Optimization

Battery charging time is one of the most critical factors that will govern the penetration of electric vehicle in the market. Reduction in battery charging time is also desirable for portable electronics including cellphones. Significant research is underway to reduce the charging time of a lithium-ion/Na-ion battery. Ensuring safety while fast charging as well as discharging is also crucial for battery usage.