Multi-Feedstock Biodiesel
Multi-Feedstock Biodiesel
Converting diverse waste oils and fats into high-quality biodiesel — engineered for real-world feedstock variability.
Converting diverse waste oils and fats into high-quality biodiesel — engineered for real-world feedstock variability.
Our Multi-Feedstock Biodiesel Platform is designed to convert diverse waste oils and fats into high-quality biodiesel engineered for real-world feedstock variability. Unlike single-feedstock plants, our system handles impurities and composition shifts inherent in waste-derived lipid streams.
From used cooking oil and tallow to acid oils and mixed waste lipids, our platform maximises conversion efficiency across a wide range of inputs — producing commercially relevant biodiesel, high-purity glycerol, and fatty acids for downstream markets.
Our Multi-Feedstock Biodiesel Platform is designed to convert diverse waste oils and fats into high-quality biodiesel engineered for real-world feedstock variability. Unlike single-feedstock plants, our system handles impurities and composition shifts inherent in waste-derived lipid streams.
From used cooking oil and tallow to acid oils and mixed waste lipids, our platform maximises conversion efficiency across a wide range of inputs — producing commercially relevant biodiesel, high-purity glycerol, and fatty acids for downstream markets.
The Conversion Process
Engineered for real-world feedstock variability — from waste oil intake to market-ready biodiesel output.
Engineered for real-world feedstock variability — from waste oil intake to market-ready biodiesel output.
Feedstock Flexibility
Waste oils are collected, assessed, and pre-treated to remove impurities, moisture, and contaminants.
Feedstock Flexibility
Waste oils are collected, assessed, and pre-treated to remove impurities, moisture, and contaminants.
Transesterification
The core conversion reaction — waste lipids react with methanol and catalyst to produce biodiesel and crude glycerol.
Transesterification
The core conversion reaction — waste lipids react with methanol and catalyst to produce biodiesel and crude glycerol.
Separation, Purification & Output
Biodiesel and glycerol are separated, purified, and quality tested ready for dispatch to transport, industrial, and chemical markets.
Separation, Purification & Output
Biodiesel and glycerol are separated, purified, and quality tested ready for dispatch to transport, industrial, and chemical markets.
Biomass Pyrolysis Biorefinery
Biomass Pyrolysis Biorefinery
Converting low-value biomass residues into fuels, carbon materials, and chemical-rich fractions.
Converting diverse waste oils and fats into high-quality biodiesel — engineered for real-world feedstock variability.
Our Biomass Pyrolysis Biorefinery is a modular system that converts agricultural and forestry residues into multiple high-value output streams. Designed for decentralised deployment, it enables local value creation from waste biomass that would otherwise be burned or discarded. From rice husk and bagasse to wood chips and agro-industrial byproducts, our pyrolysis platform maximises resource recovery — producing bio-oil, biochar, process gas, and high-value phenolic chemicals from a single feedstock stream.
Our Biomass Pyrolysis Biorefinery is a modular system that converts agricultural and forestry residues into multiple high-value output streams. Designed for decentralised deployment, it enables local value creation from waste biomass that would otherwise be burned or discarded. From rice husk and bagasse to wood chips and agro-industrial byproducts, our pyrolysis platform maximises resource recovery — producing bio-oil, biochar, process gas, and high-value phenolic chemicals from a single feedstock stream.
The Conversion Process
Engineered for real-world biomass variability — from agricultural residue intake to market-ready bio-oil and biochar output.
Engineered for real-world biomass variability — from agricultural residue intake to market-ready bio-oil and biochar output.
Feedstock Intake & Preparation
Biomass residues are collected, dried, and sized to ensure consistent feed quality and optimal pyrolysis performance.
Feedstock Intake & Preparation
Biomass residues are collected, dried, and sized to ensure consistent feed quality and optimal pyrolysis performance.
Pyrolysis Conversion
Prepared biomass undergoes thermal decomposition in the absence of oxygen — producing bio-oil vapours, biochar, and process gas simultaneously.
Pyrolysis Conversion
Prepared biomass undergoes thermal decomposition in the absence of oxygen — producing bio-oil vapours, biochar, and process gas simultaneously.
Separation, Recovery & Output
Bio-oil is condensed and collected, biochar is extracted, and process gas is recovered for energy use — all quality tested and prepared for market dispatch.
Separation, Recovery & Output
Bio-oil is condensed and collected, biochar is extracted, and process gas is recovered for energy use — all quality tested and prepared for market dispatch.
Molecular Distillation Unit
Molecular Distillation Unit
Precise, gentle separation of high-value heat-sensitive compounds — preserving what conventional distillation would destroy.
Precise, gentle separation of high-value heat-sensitive compounds — preserving what conventional distillation would destroy.
Our Molecular Distillation Unit provides precise, ultra-low pressure separation of high-value, heat-sensitive compounds from complex oils and bio-based streams. Operating at conditions conventional distillation cannot achieve, it preserves thermally labile molecules that would otherwise degrade.
From specialty oils and esters to refined bio-based fractions requiring purity upgrades, our molecular distillation technology enables selective recovery of high-value compounds — unlocking premium product streams from complex bio-based inputs.
Our Molecular Distillation Unit provides precise, ultra-low pressure separation of high-value, heat-sensitive compounds from complex oils and bio-based streams. Operating at conditions conventional distillation cannot achieve, it preserves thermally labile molecules that would otherwise degrade.
From specialty oils and esters to refined bio-based fractions requiring purity upgrades, our molecular distillation technology enables selective recovery of high-value compounds — unlocking premium product streams from complex bio-based inputs.
The Conversion Process
Engineered for heat-sensitive bio-based compounds — from complex input stream to high-purity separated fraction output.
Engineered for heat-sensitive bio-based compounds — from complex input stream to high-purity separated fraction output.
Feedstock Assessment & Intake
Specialty oils, esters, and bio-based process liquids are assessed for composition and prepared for ultra-low pressure separation.
Feedstock Assessment & Intake
Specialty oils, esters, and bio-based process liquids are assessed for composition and prepared for ultra-low pressure separation.
Molecular Distillation
Feedstock is exposed to ultra-low pressure conditions — enabling precise evaporation and separation of target compounds without thermal degradation.
Molecular Distillation
Feedstock is exposed to ultra-low pressure conditions — enabling precise evaporation and separation of target compounds without thermal degradation.
Fraction Collection & Output
Separated fractions are collected at high purity, quality tested, and prepared for downstream pharmaceutical, cosmetic, or industrial chemical markets.
Fraction Collection & Output
Separated fractions are collected at high purity, quality tested, and prepared for downstream pharmaceutical, cosmetic, or industrial chemical markets.
