Triton's proprietary platform
AI-Optimized Biomass & Waste-to-Biofuel
At Triton Hydrogen Corporation, our mission is to revolutionize renewable fuels with scalable, IP-driven technology that turns the world's waste streams and biomass into clean, drop-in fuels and green energy. Our proprietary technology combines advanced chemical engineering with the power of AI and cloud computing for unmatched efficiency, reliability, and environmental impact.
WHAT MAKES TRITON DIFFERENT?
- Integrated, Closed-Loop Process: From feedstock to fuel - everything happens on one seamless platform.
- AI-Enabled Optimization: We leverage Amazon Web Services (AWS) and custom AI models to maximize output, minimize emissions, and drive down costs.
- Versatile Feedstocks: Process everything from Nopal cactus and forest residues to organic MSW - year-round, anywhere.
- Full Spectrum Output: Produce B20 biodiesel, bio-gasoline, B100 marine biodiesel, and B100 sustainable aviation fuel (SAF) - all at commercial scale.
STEP 1: HYDROTHERMAL LIQUEFACTION (HTL)
Hydrothermal liquefaction is our cornerstone process. It rapidly converts wet biomass and sorted organics into a stable, energy-dense bio-oil crude using high-pressure, moderate-temperature water.
WHY HTL?
- Converts waste that's too wet for incineration or pyrolysis
- Yields a higher fraction of bio-oil vs. conventional methods
- Can process difficult feedstocks, including Nopal cactus and mixed MSW
AI & AWS ROLE:
HTL parameters are continuously monitored and adjusted by AI models in the AWS cloud for maximum yield and minimum downtime.
STEP 2: SUPERCRITICAL CO2 EXTRACTION & PURIFICATION
Our next-generation extraction step uses supercritical CO2, a clean, non-toxic solvent, to refine bio-oil and separate valuable fractions from contaminants.
BENEFITS:
- Environmentally safe, leaves no harmful residues
- Enhances the purity of downstream fuels
- Closed-loop CO2 capture and reuse to minimize emissions
STEP 3: FIRC-ENHANCED CATALYTIC HYDROGENATION
Using our provisional patent Field-Induced Reagent Concentration (FIRC) technology, we accelerate catalytic hydrogenation, upgrading crude bio-oil to transportation-grade fuels.
OUTCOMES:
- Drop-in B20 biodiesel and bio-gasoline for ICE vehicles, heavy-duty vehicles, and trucks
- Marine-grade B100 biodiesel and jet-ready B100 SAF
- Flexible system for different markets and regulatory needs
INNOVATION:
FIRC uses electromagnetic fields to concentrate reactants at the catalyst surface, increasing reaction speed and efficiency while reducing energy use.
STEP 4: AI-ENABLED WASTE SORTING & FEEDSTOCK OPTIMIZATION
Our facilities deploy advanced AWS-powered machine vision, laser, and infrared sensors to automate waste sorting, ensuring only organics are processed and inorganic are diverted for recycling or safe disposal.
ADVANTAGES:
- Reduces contamination and process interruptions
- Maximizes feedstock utilization and recovery
- Essential for meeting landfill diversion and carbon reduction targets
STEP 5: BIODIESEL-BASED MICROGRID & SUPERCONDUCTING CABLE TRANSMISSION
Our clean fuels aren't just for engines - they also enable the world's first biodiesel-powered microgrid, supported by:
- Underground superconducting cables for ultra-efficient, lossless power transmission
- AWS-managed Virtual Power Plant (VPP) for real-time, demand-driven energy supply to remote or off-grid communities
- Distributed energy storage for three resilience and grid independence