CHAR Technologies Ltd., a Canadian leader in sustainable biomassBiomass is a complex biological organic or non-organic solid product derived from living or recently living organism and available naturally. Various types of wastes such as animal manure, waste paper, sludge and many industrial wastes are also treated as biomass because like natural biomass these More energy solutions, has executed a formal technology licensing agreement with GazoTech SAS, an energy developer based in France. This partnership marks a strategic move to deploy CHAR Tech’s proprietary High-Temperature PyrolysisPyrolysis is a thermochemical process that converts waste biomass into bio-char, bio-oil, and pyro-gas. It offers significant advantages in waste valorization, turning low-value materials into economically valuable resources. Its versatility allows for tailored products based on operational conditions, presenting itself as a cost-effective and efficient More (HTP) technology across France and other select European markets. Under the terms of the agreement, CHAR Tech will serve as the licensor, providing essential process design and engineering support, while GazoTech will oversee the supply and implementation of HTP equipment for its regional projects. This collaborative effort leverages CHAR Tech’s proven technical framework to support GazoTech’s growing portfolio of industrial and energy-focused developments in the European Union.

The partnership addresses the critical challenge of industrial decarbonization and the management of unmerchantable organic waste within the European energy sector. European industrial users currently face immense pressure to transition away from fossil-based natural gas and metallurgical coal while simultaneously managing significant volumes of residual biomass. Converting these waste streams into valuable energy products at an industrial scale requires high-efficiency thermochemical processes that can operate reliably under stringent environmental regulations. Historically, the capital-intensive nature of deploying such advanced technology across international borders has acted as a barrier to the rapid scaling of biocharBiochar is a carbon-rich material created from biomass decomposition in low-oxygen conditions. It has important applications in environmental remediation, soil improvement, agriculture, carbon sequestration, energy storage, and sustainable materials, promoting efficiency and reducing waste in various contexts while addressing climate change challenges. More and renewable gas production.

To resolve these logistical and environmental hurdles, the licensing agreement utilizes a capital-light business model that facilitates rapid technology transfer without requiring CHAR Tech to deploy its own project-level capital. GazoTech is already advancing two major initiatives in France: an industrial integration project converting biomass into syngasSyngas, or synthesis gas, is a fuel gas mixture consisting primarily of hydrogen and carbon monoxide. It is produced during gasification and can be used as a fuel source or as a feedstock for producing other chemicals and fuels.   More and biocarbon for metallurgical use, and the Bio-Méthane Provence (BMP) project co-located at a former biomass power facility. The HTP system operates at temperatures sufficient to break down complex organic matter, producing renewable natural gas or green hydrogen alongside a high-quality solid biocarbon that serves as a direct, carbon-neutral replacement for traditional coal.

The outcomes of this agreement include a diversified revenue stream for CHAR Technologies through one-time license fees and ongoing royalties linked to biocarbon production. For GazoTech, the partnership secures a robust technical foundation to replace fossil fuels with low-carbon alternatives for European industrial thermal energy needs. Beyond immediate project execution, the agreement grants CHAR Tech the potential to negotiate future equity participation in GazoTech’s developments. This strategic expansion signals a significant milestone for the biocarbon industry, demonstrating a scalable framework for international technology deployment that supports global net-zero objectives.