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Created with Fabric.js 6.5.1 Selective Precious Metals Recovery Proprietary Technologies for Selective, Ultra-Low-Energy Recovery from E-Waste. Request TechnicalConsultation
Created with Fabric.js 6.5.3 Selective Precious MetalsRecovery Proprietary Technologies for Selective,Ultra-Low-Energy Recovery from E-Waste. Request Technical Consultation
Created with Fabric.js 6.5.1 Advanced Chemical & Electrochemical Solutions Selective Recovery of Precious Metals Low Energy Consumption Closed-Loop Chemistry Scalability
Created with Fabric.js 6.5.3 Advanced Chemical & Electrochemical Solutions Selective Recovery of PreciousMetals Low Energy Consumption Closed-Loop Chemistry Scalability
Created with Fabric.js 6.5.1 Turn Low-Grade E-Waste intoProfitable Metal Streams Modular PilotPlatform EnablingScalable Deployment A compact, modular pilot deployableon-site, enabling incremental throughputscaling without major CAPEX or downtime. Ultra-Low EnergyRecovery at Pilot Scale applies energy only where metalseparation is required UnlockUnderutilizedMetal Streams Recovers gold and precious metalsfrom low-grade e-waste streams thatare currently lost or undervalued. Get Started Modular pilot systems that unlock gold and precious metals from fractions smelters cannot process efficiently.
Created with Fabric.js 6.5.3 Turn Low-Grade E-Waste intoProfitable Metal Streams Modular pilot systems that unlock gold andprecious metals from fractions smelters cannotprocess efficiently. Get Started UnlockUnderutilizedMetal Streams Recovers gold and precious metalsfrom low-grade e-waste streams thatare currently lost or undervalued. Ultra-Low EnergyRecovery at Pilot Scale applies energy only where metalseparation is required Modular PilotPlatform EnablingScalable Deployment A compact, modular pilot deployableon-site, enabling incremental throughputscaling without major CAPEX or downtime.
Created with Fabric.js 6.5.1 From Feedstock to Recovered Metals── in 3 Engineered Steps Feedstock Assessment& Integration Incoming e-waste fractions are assessedand integrated into the pilot systemwithout changes to existing recyclingoperations Selective Chem & Echem Separation Selective chemistry and targetedelectrochemistry enable ultra-low energymetal separation Modular Scale-Up& Metal Recovery Recover metals at pilot scale andincrease throughput through modularreactor units
Created with Fabric.js 6.5.3 From Feedstock to RecoveredMetals ── in 3 Engineered Steps Feedstock Assessment& Integration Incoming e-waste fractions are assessedand integrated into the pilot systemwithout changes to existing recyclingoperations Selective Chem & Echem Separation Selective chemistry and targetedelectrochemistry enable ultra-low energymetal separation Modular Scale-Up& Metal Recovery Recover metals at pilot scale andincrease throughput through modularreactor units
Created with Fabric.js 6.5.1 Ready to Validate Your Feedwith High-ThroughputMetal Recovery? Deploy a modular pilot system and demonstrateultra-low energy recovery of precious metalswithin your existing recycling operation Request PilotEvaluation
Created with Fabric.js 6.5.3 Ready to Validate YourFeed withHigh-Throughput MetalRecovery? Deploy a modular pilot systemand demonstrate ultra-lowenergy recovery of preciousmetals within your existingrecycling operation Request PilotEvaluation
Created with Fabric.js 6.5.1 I built NovAureus to enable circular, low-energyrecovery of precious and critical metals from e-waste,supporting a more resilient European secondaryraw-materials supply NovAureus began in Finland’s research environment and isnow being scaled in Gothenburg, Sweden. We developselective, low-energy recovery systems for precious metals ine-waste, especially low-grade feeds that conventional routesoften overlook. Our goal is to reduce metal losses, improve transparency, andhelp recyclers retain more of their precious-metals' yield. Contact: reza.bilesan@novaureus.com About us Dr. Reza Bilesan CEO/CTO & Founder
Created with Fabric.js 6.5.3 About us I built NovAureus to enable circular, low-energyrecovery of precious and critical metals frome-waste, supporting a more resilient Europeansecondary raw-materials supply NovAureus began in Finland’s researchenvironment and is now being scaled inGothenburg, Sweden. We develop selective,low-energy recovery systems for precious metalsin e-waste, especially low-grade feeds thatconventional routes often overlook. Our goal is to reduce metal losses, improvetransparency, and help recyclers retain more oftheir precious-metals' yield. Dr. Reza Bilesan CEO/CTO & Founder Contact: reza.bilesan@novaureus.com
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