en.Wedoany.com Reported - Canadian energy and resource exploration company Max Power Mining has signed a memorandum of understanding with AI infrastructure and distributed energy company TerraVolt Energy to evaluate integrating natural hydrogen, modular power systems, sustainable building infrastructure, and related brine outputs from Max Power's Lawson Complex development project in Saskatchewan into next-generation AI and high-performance computing infrastructure. EcoTech Building Solutions and the Carbon Neutral Growth Fund are also participating in this MOU.

This collaboration comes as AI infrastructure development accelerates in Canada, with growing demand for energy and other resources from such projects. Traditional data center development has raised concerns about grid load, water consumption, and community impact. This MOU aims to explore a cleaner, more sustainable model that combines renewable energy with water recovery and reuse.

Max Power stated that this partnership is a key step in its broader commercialization strategy. Previously, the company confirmed Canada's first underground natural hydrogen system through drilling at the Lawson Complex, located at the center of the 475-kilometer-long Genesis Trend in central Saskatchewan, which may contain significant helium components.

TerraVolt is currently managing and developing a growing power portfolio exceeding 12 gigawatts, a capacity sufficient to meet the electricity needs of 10 million households. The company integrates AI-driven optimization technologies to reduce energy consumption, minimize unplanned downtime, and improve operational efficiency.

The MOU follows technological advancements at the Lawson project, including data from high-resolution 3D seismic imaging. Max Power is finalizing plans to expand near-term follow-up drilling programs aimed at validating the project's commercial viability. This validation effort has been further accelerated following a $25 million private placement investment by mining financier Eric Sprott in May.

Max Power believes the Lawson discovery not only represents an underground energy find but may also lay the foundation for evaluating a new type of integrated energy, cooling, and distributed infrastructure system directly linked to the accelerating global demand for AI.

Max Power CEO Ran Narayanasamy stated that as AI and digital infrastructure accelerate globally, pressure on power systems and cooling infrastructure continues to intensify. The company's focus is on understanding how various aspects of the Lawson system can contribute to future commercialization pathways through technology validation, infrastructure integration, and practical deployment strategies. This MOU represents a significant step in that direction.

TerraVolt Energy Chief Technology Officer Steven Lund believes that AI infrastructure is rapidly becoming one of the largest new consumers of global power and industrial cooling capacity. Future AI deployments will increasingly require scalable energy systems capable of supporting resilient distributed computing infrastructure beyond traditional grid constraints. Max Power's Lawson natural hydrogen system and related brine outputs offer an opportunity to evaluate an integrated model combining clean baseload power generation, advanced cooling infrastructure, and modular AI deployment directly at the energy source.

Carbon Neutral Growth Fund founder Keith Lewis added that Max Power's natural hydrogen and the brines associated with these systems in Saskatchewan create an opportunity to rethink how AI data centers are powered, cooled, and integrated into local communities. Traditional data center development has raised legitimate questions about grid demand, water consumption, and community impact. The fund is committed to helping shape a cleaner, more responsible model that incorporates renewable energy, water recovery and reuse, and meaningful community engagement from the outset.

EcoTech Building Solutions President Chad Dorsett shared the same view. He stated that AI data centers require buildings that match the performance of the technology they house. EcoTech focuses on providing resilient, non-combustible, and energy-efficient building solutions that support faster construction, superior thermal performance, and long-term operational reliability. Partnering with Max Power creates an opportunity to align advanced clean energy infrastructure with next-generation high-performance AI data center buildings.

The model being evaluated by Max Power and TerraVolt is designed around a fundamentally different infrastructure approach, where modular computing and power systems are deployed directly at the energy source. This framework aims to assess whether locally sourced natural hydrogen and related brine outputs can support integrated distributed power generation and cooling infrastructure for next-generation AI and advanced computing systems. If validated at the Lawson Complex, this model could represent a significant evolution in how future AI infrastructure is powered, cooled, and deployed.

The partners will integrate natural hydrogen with on-site power generation systems and use Lawson brine for cooling and supplementary power generation applications. Related exploration also includes modular infrastructure systems supporting AI data centers and high-performance computing environments, while considering appropriate hydrogen handling, storage, and power conversion technologies. Max Power's ultimate goal is to advance pilot and demonstration opportunities for integrated natural hydrogen-powered infrastructure systems.

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