ODS offers a breakthrough oxidative desulfurization process designed to significantly reduce sulfur content in liquid fuels like gasoline, diesel, and condensates. This technology is cost-effective, scalable, and environmentally sustainable.
No hydrogen or catalysts required for the desulfurization process.
Operating costs up to 70% lower than traditional HDS methods.
Operates at mild temperatures (80°C or less).
No carbon footprint during the operation.
Easily integrates with existing refinery systems.
The ODS process utilizes low-cost oxidants and high-shear mixing to achieve high sulfur removal efficiency without the need for hydrogen or high-pressure hydrogenation.
Low-cost oxidants are introduced into the fuel stream, initiating the sulfur oxidation process.
Intensive mixing ensures complete contact between oxidants and sulfur compounds.
Sulfur compounds are selectively oxidized to sulfones at mild temperatures (60-80°C).
Oxidized sulfur compounds are separated through adsorption or extraction.
The result is ultra-low sulfur fuel ready for commercial use.
ODS vs. Traditional Hydrodesulfurization (HDS) - A revolutionary approach to fuel purification
The ODS technology is designed to minimize environmental damage while ensuring cost-effective fuel purification. Key environmental benefits include:
Reduction of sulfur content by up to 96%
No hydrogen consumption, reducing energy requirements.
Minimal chemical waste, with efficient use of oxidants.
Low carbon footprint, promoting sustainable fuel production.
Our team is continuously working on improving the ODS technology to enhance its efficiency and scalability.
Optimizing oxidant ratios for different fuel types to maximize efficiency and cost-effectiveness.
Improving mass transfer with advanced mixing techniques for better sulfur removal.
Scaling the technology for industrial applications and large-volume processing.
Developing modular ODS units for easy integration with existing refinery systems.