Komatsu Partners With Proterra To Electrify Underground Mining Machines

Proterra Inc, a leading innovator in commercial vehicle electrification technology, and Komatsu, a global leader in construction and mining equipment, today announced a new collaboration to electrify next-generation underground mining machines using Proterra’s battery technology.

Designed and manufactured in the United States, Proterra battery systems leverage industry-leading energy density and a customizable design to fit within a variety of vehicles.

Under the collaboration, Proterra will supply its H Series battery system technology to Komatsu for the development of battery-electric LHDs, drills, and bolters for underground hard rock mining. Mining equipment and services provider Komatsu plans to utilize Proterra’s high-performance battery systems for the development of prototype machines this year before the expected commencement of commercial production in 2022.

The collaboration represents Proterra’s entry into the underground mining equipment market.

“Proterra is excited to build on our relationship with a proven, industry leader like Komatsu to electrify mining machines with our EV technology,” said Gareth Joyce, President of Proterra. “The benefits of zero-emissions, battery-electric vehicles extend far beyond our roads and cities. Switching to battery-electric technology means helping protect clean air for those working in underground mines while delivering a high-performance technology solution where safety and reliability are paramount.”

“We are excited to be working with Proterra to bring zero-emissions mining solutions to underground hard rock,” said Josh Wagner, vice president of hard rock mining at Komatsu.

“Leveraging their battery technology, we seek to offer customers increasing sustainable solutions for their operations.”

This is the second collaboration between Proterra and Komatsu. The two companies previously announced an agreement in which Proterra supplies its industry-leading battery systems to support Komatsu in electrifying its first medium-sized hydraulic excavators.

Mining equipment and services provider Komatsu plans to utilize Proterra’s high-performance battery systems for the development of prototype machines this year before the expected commencement of commercial production in 2022.

Komatsu has helped advance customer options to mitigate the environmental impact through product development for many years, through initiatives such as its hybrid hydraulic excavators’ kickoff in 2008, which marked the world’s first hybrid construction equipment on the market. This year, Komatsu also announced its new Greenhouse Gas (GHG) alliance with customers to actively collaborate on product planning, development, testing, and deployment of the next generation of zero-emission mining equipment and infrastructure. The alliance’s initial target is advancing Komatsu’s power-agnostic truck concept for a haulage vehicle that can run on a variety of power sources including diesel-electric, electric, trolley (wired), battery power, and even hydrogen fuel cells.

Designed and manufactured in the United States, Proterra battery systems leverage industry-leading energy density and a customizable design to fit within a variety of vehicles. Proterra’s best-in-class battery systems have been proven in more than 20 million service miles driven by Proterra transit vehicles and selected by world-class commercial vehicle manufacturers to power heavy-duty vehicles, including construction equipment.

Proterra battery systems offer an outstanding application for confined, underground mining settings where safety and durability are of utmost importance while helping to mitigate air and noise pollution through battery-electric technology. Proterra uses rigorous testing to ensure Proterra battery packs are designed to withstand tough conditions and meet or exceed the latest functional safety standards. Proterra battery systems incorporate liquid thermal conditioning, monitoring sensors throughout the battery pack, as well as active and passive protective features like passive propagation resistance to isolate individual battery cells in the rare case of a thermal event.

Source: Komatsu