Recently, Hithium and CALB have successively secured major overseas energy storage orders. Specifically, Hithium has reached a strategic cooperation agreement with the investment firm Brawn Capital for 3GWh long-duration energy storage and other projects, while CALB successfully signed a 380MWh energy storage order in the Japanese market.
Hithium Secures 3GWh Massive Order from Brawn Capital
Recently, Hithium officially signed a strategic cooperation agreement with Brawn Capital, a leading renewable energy infrastructure investment firm in the Asia-Pacific region. The two parties will focus on key global renewable energy markets, planning to achieve a cumulative 3GWh of cooperation on long-duration energy storage and other projects by the year 2030.
This collaboration covers various energy storage system solutions with different durations, including 6.25MWh and 5MWh capacities. Notably, it also includes the 10-foot ∞Power Flexsso 3.125MWh/6.25MWh 4-hour energy storage system, which is specifically designed to overcome transportation constraints. This system can effectively enhance delivery efficiency in scenarios with limited space and restricted roads, thereby helping to accelerate project implementation. Currently, approximately 20 ultra-high voltage (UHV) projects have entered the preparation phase, and 300MWh of energy storage products are scheduled to be delivered in 2027.
CALB Secures 380MWh Energy Storage Order in Japan
Recently, CALB finalized a contract with the Japanese energy storage developer Namcha Barwa Co., Ltd. (ナムチャバルワ株式会社) for a project with a total capacity of 380MWh.
According to the agreement, CALB will deliver its "Zhi Jiu" (Everlasting) series energy storage batteries to the Japanese client. This batch of products will be equipped with the company's independently developed core battery cells. Furthermore, they will feature liquid cooling technology and an intelligent Battery Management System (BMS) to fully meet the project's practical requirements for energy storage and deployment.
Source:EnergyTrend
