We support the emergence of future technologies
Hydrothermal gasification, pyrogasification, Power-to-Gas… We are heavily involved in the development of these innovative sectors that produce renewable gases from land, wind and sun. We provide support to stakeholders in these technologies as well as to pilot and model projects that contribute to a successful energy transition.
Hydrothermal Gasification
Hydrothermal Gasification is a technology capable of converting liquid, wet and dry waste (mixed) into gas. It thus offers the possibility of valorizing a vast range of biomass and fossil origin produced within the territories by industrialists, communities and agricultural cooperatives by offering a very high conversion of waste into gas while ensuring high energy efficiency. The first operational installations are expected in France from the end of 2024/beginning of 2025.
Hydrothermal Gasification
Pyrogasification
Pyrogasification is a process that transforms solid waste that is poorly or poorly recovered, such as biomass residues, tires, and plastics, into gas that can be injected into networks by heating them to very high temperatures (between 800 and 1,500 °C) in the absence of oxygen. By 2025, it represents an effective means in the trajectory set for territories to reduce by 50% the waste sent to landfill and to recover 100% of recovered plastics.
Synthesis gas injection by pyrogasification
Le Power to Gas
Power to Gas is a process for transforming electricity from renewable sources into hydrogen by electrolysis, and then possibly into synthetic methane by methanation. It compensates for the intermittency of renewable electricity production, and allows excess electricity produced to be stored in the form of gas.
Power to Gas
Q&A: Future technologies for renewable gases
Hydrothermal gasification is a technology that converts liquid or wet organic waste into renewable gas. This process uses high temperatures and pressures to convert organic matter into synthesis gas that can be utilised within energy networks.
La pyrogazéication consiste à chauer des déchets solides comme la biomasse, les plastiques ou certains résidus à très haute température sans oxygène.Cette transformation produit un gaz de synthèse qui peut être valorisé pour produire de l’énergie ou être injecté dans les réseaux.
Power-to-gas technology enables surplus renewable electricity to be converted into hydrogen through water electrolysis. This hydrogen can then be stored or converted into methane. This technology facilitates the storage of renewable energy and contributes to the energy transition.
