#Japan #Tokyo #ProLogium #Kyushu Electric #Nakayama Iron

ProLogium, Kyushu Electric Power, and Nakayama Iron Works: Pioneering a New Future in Construction Machinery

In a groundbreaking collaboration, ProLogium Technology, a top player in the field of next-generation lithium ceramic batteries, has joined forces with Kyushu Electric Power and Nakayama Iron Works. Unveiled at CES 2026, this partnership aims to reshape the construction machinery landscape by introducing advanced solid-state battery modules that promise zero emissions.

The Collaboration and Its Goals

This partnership signifies a significant step forward in creating a more sustainable and eco-friendly construction machinery industry. At the heart of this collaboration is the introduction of a 24V solid-state battery module that utilizes ProLogium's revolutionary battery technology. This initiative responds to the growing global need for safe, efficient energy solutions within industrial sectors, particularly as traditional lithium batteries fall short in both safety and performance.

Vincent Yang, the CEO of ProLogium, has emphasized the innovative safety features of their next-generation solid-state lithium ceramic batteries. These batteries incorporate a Super-fluidized All Inorganic Solid State Electrolyte, which not only eliminates the risk of thermal runaway but also enhances overall battery stability. This innovation positions ProLogium as a leader in addressing safety concerns traditionally associated with lithium batteries, which are commonly prone to combustion risks.

The Features of the New Battery Module

With the joint efforts of Kyushu Electric Power and Nakayama Iron Works, the new 24V solid-state battery module is designed to integrate seamlessly into two pioneering zero-emission construction machines, the MSD700 and NE100HBJ. These machines will harness the benefits of ProLogium’s solid-state technology to significantly improve their efficiency and performance metrics while maintaining stringent safety standards.

The battery module boasts impressive specifications, featuring integration of seven ProLogium SN-10 cells, achieving up to 111.3Ah capacity without compromising on size or weight. It operates within a voltage range of 29.4 to 17.5V and can store up to 2,671Wh of energy, emphasizing its versatile application across numerous industrial tasks.

Moreover, performance upgrades are significant; for example, the MSD700's operation time jumps from two hours to an impressive 3.7 hours, and its charging duration sharply declines to approximately 27 minutes. The NE100HBJ also benefits from enhanced capabilities in both travel and crushing duties, demonstrating that these machines are poised to raise the bar for productivity in the construction sector.

A Step Toward a Zero-Emission Future

The importance of this collaborative effort extends beyond technological innovation; it aims to facilitate the transition toward zero-emission construction machinery. The MSD700 is designed for narrow environments, capable of functioning safely indoors and in harsh conditions without emitting harmful exhaust gases, while the NE100HBJ is engineered for high-output crushing tasks. These state-of-the-art machines represent the future of construction, promising powerful results without compromising environmental integrity.

Kyushu Electric Power’s Koji Kurayama expressed optimism about their expert contributions in battery technology and monitoring systems, indicating that this collaboration is emblematic of progress toward a sustainable, carbon-neutral future.

Hiroshi Nakayama from Nakayama Iron Works added that they are dedicated to integrating next-generation technology into their machinery, ensuring competitive solutions that meet customer needs.

Conclusion – The Future of Energy in Construction Machinery

As these pioneering products are set to launch, ProLogium, Kyushu Electric Power, and Nakayama Iron Works are not only highlighting their innovative technology at CES 2026 but also paving the way for broader adoption of solid-state batteries across industrial sectors. This partnership exemplifies how the construction industry can significantly evolve towards sustainability while enhancing safety and performance. The implications of this technology could reshape how construction operations are conducted, with improvements in efficiency, safety, and environmental responsibility at the forefront of modern industrial solutions.

By leading this charge, these companies are not merely adapting to the changing energy landscape; they are actively defining the future of energy in construction machinery.