- Location
- Windsor, Ontario, Canada
- Bio
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We are observing a massive industry shift in the energy sector from petroleum dependence to battery power and we believe this is the greatest opportunity (once in a 100 years) that has ever arrived for the world and particularly for North America, a geography so well suited for energy storage and battery technology development, that it cannot be ignored. The region is rich in minerals, has a growing tech workforce, massive supplier and logistics network and a very strong government support, all of which makes Fetherstill Inc. in a very prime position to move forward with our battery technology development.
We understand that the beating heart of an electric vehicle or any energy storage system is its battery pack. Our team is now undertaking the design and development our own battery module/pack which will be aimed at bringing in the most desired cell chemistry, striking a sound balance between weight, energy density and power, all functioning smoothly with an efficient thermal management system, well suited into our unique design to fulfill the major requirements of efficiency and performance within the energy storage and electric mobility applications, functioning in any industry from passenger transport to construction to agriculture. - Companies
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Windsor, Ontario, Canada
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- Categories
- Mechanical engineering Hardware product design Market research Operations Hardware
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Recent projects
3D modeling and rendering of our product for marketing purposes
Following are the 3 main goals of the project:Develop a graphic design of our product in a 3D model.Develop realistic rendering of the product.The final product must look clean, well defined and must developed with a focus for marketing purposes.
Liquid flow analysis and thermal simulations for a lithium Ion battery module
Following are the goals of this project that needs to be achieved through software simulations:Smooth flow of coolant within the thermal management loop without high pressure build up.Pressure should not exceed 110000 pascals within any thermal management loop component at any given point of time.Cell temperature within the battery module to stay within 20-25C no matter outside temperature levels.Flow rate of coolant should not exceed 1.6litres/minute at any given point of time.
Battery module, electrical and electronics design and development
Main goal is to undertake detailed design and development of the different electrical and electronics components of a battery pack that my be used for electric mobility and energy storage applications.
Cyber security layer for product Battery Management System
BMS is the most important component for our battery module and facilitates the function of the product. Not having a security layer can expose the product and could potentially cause damage to the user. One of our major goal is to create an end to end safe product for the user.Fetherstill has written code for the BMS to execute a specific set of functions. The main goal is to develop code and create a cyber security layer within the BMS software to avoid any system malfunction.