Nature4Gas™ is revolutionizing the renewable energy landscape by transforming organic waste into clean, sustainable biogas through innovative technology and AI-driven optimization.
Our mission is to create a circular economy where waste becomes a valuable resource, reducing environmental impact while providing reliable, renewable energy solutions for communities and industries worldwide.
By combining cutting-edge biotechnology with intelligent automation, we're making sustainable energy accessible, efficient, and economically viable for everyone.
Transform organic waste into renewable energy while reducing carbon emissions and creating sustainable solutions for a cleaner future.
Processing thousands of tons of organic waste annually, preventing methane emissions, and generating clean energy for communities worldwide.
Achieve carbon neutrality, expand to 50+ installations globally, and empower local communities with energy independence by 2030.
A 60-ft (L) × 8-ft (W) × 8.5-ft (H) modular biorefinery engineered for commercial and industrial food-waste valorization. Organo-Rig converts organics into nutrient-rich digestate (readied for land application after drying or pyrolysis) and continuous biogas for onsite CHP, helping clients cut landfill disposal, lower Scope-1/2 emissions, and generate eligible carbon credits. When required, an integrated upgrading train refines biogas to RNG for pipeline injection or fueling RNG fleets.
A 40-ft (L) × 8-ft (W) × 8.5-ft (H) modular unit tailored for facilities seeking reliable energy and materials recovery in a compact footprint. Bio-Rig produces digestate suitable for land application (post-drying or pyrolysis) and steady biogas for onsite CHP to offset grid electricity and thermal demand; optional upgrading to RNG supports fleet fuel needs and carbon-credit strategies.
An advanced add-on pathway that selectively channels FOGs and compatible organics toward medium-chain carboxylic acids (MCCAs)—unlocking higher-value product streams for specialty clients. The module integrates with existing Revalor hardware to diversify revenue beyond power and gas, aligning with circular-economy procurement and bio-based chemical markets.
A standalone, facility-agnostic AI platform that supervises and optimizes anaerobic operations—controlling key parameters (e.g., SRT, OLR), monitoring digestate quality, and maximizing product yields (biogas, MCCAs) while continuously learning from historical and real-time plant data. RN-Genius reduces operator burden, stabilizes performance, and enables remote oversight for Revalor systems and third-party AD facilities alike.
Machine learning algorithms continuously analyze and adjust processing parameters to maximize biogas yield and quality in real-time.
Advanced sensors and predictive analytics identify potential issues before they occur, ensuring maximum uptime and system reliability.
Automated tracking and verification of carbon reduction metrics, enabling seamless participation in carbon credit markets and offsetting programs.
Community-scale biogas solutions providing clean cooking gas and electricity for neighborhoods and housing developments.
Sustainable energy solutions for data centers, reducing operational costs while meeting carbon neutrality commitments.
Renewable natural gas (RNG) production for vehicle fleets, enabling clean transportation and reducing emissions significantly.
Water Resource Recovery Facilities integration, converting wastewater treatment byproducts into valuable renewable energy.
We're excited to announce our expansion into Southeast Asia with new installations planned for Singapore, Thailand, and Vietnam.
Strategic collaboration announced to deploy our technology across 20 major waste treatment facilities worldwide.
Our AI optimization platform recognized for breakthrough achievements in renewable energy automation.
Published in Renewable Energy Journal, August 2025
Comprehensive study on machine learning applications in anaerobic digestion optimization.
Published in Environmental Science & Technology, July 2025
Quantitative analysis of greenhouse gas reduction through organic waste-to-energy conversion.
Published in Energy Policy, June 2025
Market analysis and business case studies for community-scale renewable energy deployment.