Energy Vault, Inc, the company developing sustainable, grid-scale energy storage solutions, and BHP, the global natural resources company, have announced a joint collaboration that will focus on the deployment and implementation of Energy Vault’s energy storage solutions in BHP’s key operations and other potential applications for the technology. BHP Ventures, BHP’s internal venture capital unit, also joined other investors in a final close of Energy Vault’s Series C funding round announced earlier this year.

“We are excited to deepen our relationship with BHP to support one of the world’s largest companies and a global leader in natural resources production to explore applications for our technology in the electrificaiton of their mining operations,” said Robert Piconi, Co-Founder and CEO of Energy Vault. “Our company’s mission is to accelerate the clean energy transition to make sustainable, decarbonised energy a reality. This MOU demonstrates the strong momentum and demand that we continue to experience for our advanced energy storage technology across multiple industry segments and the most critical energy storage applications.”

Mark Frayman, Head of BHP Ventures, said: “Broad collaboration and the development of new technologies will be fundamental to achieving decarbonization across the global resources industry. We are excited to partner with Energy Vault, following our strategic investment in the company earlier this year. Energy Vault’s technology has the potential to unlock cleaner energy solutions for our operations and create a competitive edge by helping to accelerate our decarbonization initiatives. This partnership may also present an opportunity to improve life-cycle sustainability by using eco-bricks made with mine tailings, and to create new opportunities for local suppliers.”

Energy Vault’s advanced gravity energy storage solutions are based on the proven physics and mechanical engineering fundamentals of pumped hydroelectric energy storage, but replace water with custom-made composite blocks which do not lose storage capacity over time. The blocks can be made from low-cost and locally sourced materials, including the excavated soil at the construction site, but can also utilise locally available waste materials such as mine tailings, coal combustion residuals (coal ash), and fibreglass from decommissioned wind turbine blades.

Additionally, the Energy Vault systems are intended to minimise environmental and supply chain risks. The systems are automated with advanced computer control and machine vision software that orchestrate the charging and discharging cycles while meeting a broad set of storage durations starting from two hours and continuing to 12 hours or more.