Converting agricultural byproducts into high-purity hydrogen for a sustainable future.
Biomass, such as crude glycerol from biodiesel production, is an abundant and renewable resource. White Hydrogen’s H2-XERONOX® technology transforms these byproducts into clean, high-purity hydrogen without relying on fossil fuels or electrolysis.
This process supports a circular economy, reducing waste and providing a scalable solution for clean energy production.
Hydrogen is expected to become the most critical renewable energy carrier in the future. Currently, most hydrogen is produced from fossil fuels such as coal and natural gas — a process that generates high pollution and CO₂ emissions.
The H2-XERONOX® technology offers a sustainable and environmentally friendly alternative by converting carbon-based matter into clean GREEN Hydrogen.
High hydrogen yield from biomass feedstocks
Carbon-negative potential with minimal emissions
Modular and scalable for local deployment
Self-sustaining through off-gas recycling
Validated by UQ and AIBN for efficiency
The demand for GREEN hydrogen is increasing, especially in developing countries where energy is essential for economic growth and poverty reduction. The global agricultural sector depends on ammonia-based fertilisers, which require large volumes of hydrogen.
H2-XERONOX® provides an affordable, scalable solution for these sectors while addressing the global waste problem and reducing greenhouse gas emissions.
The feedstock is a carbon-neutral by-product, commonly generated through biodiesel production (such as crude glycerol). It’s abundant, low-cost, and ideal for clean hydrogen production.
Delafield’s White Hydrogen and H2-XERONOX® process has been scientifically validated using gas chromatography analysis by The Australian Institute of Bioengineering and Nanotechnology at the University of Queensland.
| Traditional Biomass Processing | H2-XERONOX® |
|---|---|
| Relies on anaerobic digestion or combustion | Uses thermochemical steam-based conversion |
| Produces methane or CO₂ emissions | Carbon-negative with minimal emissions |
| Lower hydrogen yield | High-purity hydrogen (99.999% via PSA) |
| Limited scalability for local use | Modular and deployable in 20ft containers |
Processes crude glycerol and biomass efficiently
Produces 100 kg of hydrogen per day
Self-sustaining with off-gas recycling
Compact and scalable for local energy needs
