Industry Member
Energeia Labs
Energeia Labs brief introduction
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Energeia Labs is a Singapore-based company dedicated to the research, development and commercialization of liquid cooling/ heating Li-ion battery pack for electric vehicles (EVs) and energy storage systems (ESS).
Our key product is a novel a battery pack enclosure which coolant loops are 3-D integrated into its grid structure, employing liquid cooling/ heating for unprecedented efficiency in battery heat exchange, in terms of both cooling effectiveness and evenness, improving the safety and lifespan of battery, realizing fast charging in any ambient environment, and also lowering the battery pack weight and cost.
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Effective Thermal Management is critical for performance of battery pack because extreme temperatures can affect service life, performance, durability, reliability and safety.
Current liquid cooling solutions for EV battery packs are complex and expensive. Due to the small contact surface and long transmission distance, the efficiency is low and less effective. For example, a solution with a heat sink installed under the battery module.
With a simple and an innovative flow connection, our solution ensures each battery cell’s large surface is cooled or heated quickly, uniformly and effectively, additionally ensuring greater temperature uniformity.
Compared to competitor’s sheet metal enclosure, our whole battery pack enclosure is made of aluminum alloy and brazing together totally by continuous atmospheric brazing (CAB) process. The weight is reduced, but the strength and structural integrity is significantly improved. The manufacturing process has stable quality and low mass production cost.
At the same time, this technology also simplifies the battery pack system architecture. The existing "cell - module - battery pack" assembly production model is simplified now as the "cell - battery package" model, with greater suitability for automation. The module level is now unnecessary. The module frame and support are no longer required, thereby reducing the number of parts, reducing the cost, allowing for greater convenience for assembly、maintenance and replacement of a single cell.
Its application areas include Electric vehicles (EVs) and Energy storage system (ESS).
Effective Thermal Management is critical for performance of battery pack because extreme temperatures can affect service life, performance, durability, reliability and safety.
Current liquid cooling solutions for EV battery packs are complex and expensive. Due to the small contact surface and long transmission distance, the efficiency is low and less effective. For example, a solution with a heat sink installed under the battery module.
With a simple and an innovative flow connection, our solution ensures each battery cell’s large surface is cooled or heated quickly, uniformly and effectively, additionally ensuring greater temperature uniformity.
Compared to competitor’s sheet metal enclosure, our whole battery pack enclosure is made of aluminum alloy and brazing together totally by continuous atmospheric brazing (CAB) process. The weight is reduced, but the strength and structural integrity is significantly improved. The manufacturing process has stable quality and low mass production cost.
At the same time, this technology also simplifies the battery pack system architecture. The existing "cell - module - battery pack" assembly production model is simplified now as the "cell - battery package" model, with greater suitability for automation. The module level is now unnecessary. The module frame and support are no longer required, thereby reducing the number of parts, reducing the cost, allowing for greater convenience for assembly、maintenance and replacement of a single cell.
Its application areas include Electric vehicles (EVs) and Energy storage system (ESS).