Role of standardized battery pack geometry in electric vehicles design

What is it about?

The Electric Vehicle (EV) industry is growing in India despite Covid 19 challenges. The scope of this paper is to understand the need for approaches towards range anxiety solutions. It highlights the current development in the standardization principles using lean techniques and how this can help standardization in-vehicle platform architecture and battery of an EV. This review paper analyses the four different case studies in the EV context and justifies how the EV battery pack is the right candidate for standardization. The study highlights the benefits, challenges, and associated factors to address these challenges. The paper concludes how the standardized EV battery pack helps manage the Range Anxiety for many stakeholders in the EV ecosystem in Business to Business (B2B) and Business to Customer (B2C) segments. Finally, the paper highlights the future research scope towards EV Battery Pack Geometry Form Factor standardization

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Photo by Kumpan Electric on Unsplash

Photo by Kumpan Electric on Unsplash

Why is it important?

This is important in the era of emerging EV space because as the demand for electric vehicles increases, it is crucial to address the challenges faced by the industry such as high costs, limited range, and safety concerns. Standardizing battery pack geometry can address some of these challenges by reducing costs through economies of scale and standardized manufacturing processes, improving vehicle design by allowing for more efficient use of space, and enhancing safety by reducing the risk of battery pack failure. With the growing popularity of electric vehicles, standardizing battery pack geometry can help the industry overcome some of the challenges it faces and drive further growth and development.

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