From earth, into the atmosphere, beyond into space.
COERR's frontier R&D division extends circular economy thinking into three of humanity's hardest environments — air, nuclear and space. We are building the operating platform for a planetary circular economy.
Atmosphere
Air Resource Recovery
Treating the atmosphere as the next industrial feedstock.
Division 01
From flue stacks to free air, COERR is building the operational backbone for industrial-scale recovery of carbon, particulates and water vapour. We co-develop technology with industry partners and demonstrate at our Tumakuru campus.
Direct Air Capture
Sorbent and mineralisation pathways at pilot scale.
Industrial Emission Recovery
CO₂, methane and VOC capture from refineries, cement and steel.
Atmospheric Water Harvesting
Distributed water recovery for arid clusters and remote sites.
Carbon Credit Origination
MRV-grade verification of removals and avoidance.
Earth
Nuclear Environmental Systems
Closed-loop systems for radiological remediation and strategic recovery.
Division 02
An emerging division focused on safe management, recovery and reuse pathways for materials in the nuclear value chain — anchored in collaboration with DAE, BARC and national research institutes.
Environmental Remediation
Site characterisation and decontamination engineering.
Strategic Material Recovery
Recovery of high-value nuclear-grade materials.
Waste Monitoring
IoT and digital twin systems for radiological surveillance.
Policy & Standards
Frameworks aligned with AERB and IAEA guidelines.
Space
Space Resource Recovery
From planetary surface to orbital station — circular by design.
Division 03
Space is the ultimate constrained environment. COERR's Space Resource Recovery initiative develops closed-loop life-support, water recovery and circular manufacturing systems for ISRO, NewSpace startups and global missions.
Closed Loop Systems
Air, water and nutrient cycles for crewed missions.
Space Water Recovery
Greywater and humidity reclamation at >95% efficiency.
Life Support Systems
Bio-regenerative and physico-chemical hybrid loops.
Planetary Circular Economy
In-situ resource utilisation for Moon and Mars.