How We Work
We support each client from the analysis of their biomass to the implementation of a scalable energy solution. Our approach reduces risks, validates every stage, and ensures an efficient transition toward real energy valorization.
Process
Step 1
We analyze your biomass and objectives
Basic composition and feasibility analysis
Discussion of goals and expectations
Selection of a representative sample
Step 2
We validate conditions in a controlled environment
Lab-scale reactor testing and condition validation
Determination of key parameters: stability, performance, pre-treatment
Step 3
We demonstrate the process in a real-scale plant
Real operational evaluation
Energy, technical, and economic analysis
Data collection for scale-up
Step 4
We design your industrial solution
Modular configuration adapted (500 to 3,000 kg/h)
Operation simulation
Industrial implementation planning
Step 5
Implementation and Ongoing Support
Commissioning
Initial monitoring
Technical support during the operational phase
Process Benefits
1.
Reduction of Technical and Economic Risks
2.
Progressive validation with no assumptions
3.
Design 100% aligned with the type of biomass and the client’s objectives
News

SCWG Drives the Energy Transition from Salamanca with the ECLOSION Project
SCWG has launched its Supercritical Water Gasification technology in Salamanca—a key milestone within the strategic ECLOSION project. This initiative is designed to transform urban and agro-industrial waste into renewable energy carriers such as green hydrogen and biomethane, two resources that are increasingly in demand within the emerging global energy model.

CADE Showcases SCWG Technology Advancements at Bio360 Expo 2025: Paving the Way for a Cleaner and Circular Energy Model
CADE took part in Bio360 Expo 2025, one of the leading international trade fairs focused on bioenergy, the circular economy, and sustainable solutions. Held in Nantes, the event brought together experts, companies, and organizations committed to accelerating the energy and climate transition through innovation. During the event, CADE presented its

Hydrothermal Gasification: Applications & Implementation
Hydrothermal gasification, also known as Supercritical Water Gasification (SCWG), is a revolutionary process that is shifting the paradigm on humid waste management and its energetic recovery. This emerging technology, which implies the gasification of humid biomasses (>80% water content) into renewable gas through a high-temperature, high-pressure process, has the potential