THE PATH TO
NET ZERO
FOR HEAVY
INDUSTRY

Leveraging direct carbon engineering and verified IEA data insights to transition the world’s most resource-intensive sectors—from refinery to steel—into a sustainable future.

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Transforming Heavy Industry for a Net-Zero Future

Oil & Gas: CCS & Leakage Engineering

Integrating Carbon Capture and Storage (CCS) with real-time methane detection to neutralize emissions across the extraction and refining chain.

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Steel: Green Hydrogen Production

Replacing coking coal with green hydrogen in Direct Reduced Iron (DRI) processes to achieve true zero-emission steel production.

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Cement: Carbon Sequestration

Utilizing carbon-curing mechanisms to turn concrete into a permanent carbon sink while leveraging alternative binders to reduce clinker intensity.

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Chemicals: Electrification & Feedstocks

Electrifying high-temperature steam cracking and transitioning to bio-based feedstocks to decouple chemical production from fossil sources.

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Power: Industrial Heat Recovery

Capturing low-grade waste heat and upgrading it via megawatt-scale heat pumps to supply high-carbon-intensity industrial thermal processes.

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Mining: Electrified Operations

Transitioning open-pit and underground mining to fully electrified fleets and renewable microgrids to eliminate operational diesel footprint.

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DATA-DRIVEN SIMULATION

Carbon Management Calculator & Optimizer

Simulate net-zero pathways for heavy industrial operations. Benchmark your transition against IEA and global climate standards using our high-precision carbon engineering tool.

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Verified Data Integrity & Global Standards

Our industrial transition roadmaps and carbon management optimizers are underpinned by uncompromising data accuracy. We integrate rigorous insights from the International Energy Agency (IEA), the IPCC, and other premier global climate authorities to provide a robust fact-check foundation. For refineries, petrochemical plants, and the steel manufacturing sector, this adherence to verified global benchmarks ensures that every technology-driven carbon footprint reduction is scientifically validated and aligned with 1.5°C net-zero pathways.

Engineering the Future of Petrochemicals

Modular CCUS Deployment for High-Concentration Flue Gas
Thermal Oxidation & Methane Mitigation Systems
Next-Generation Steam Cracker Electrification
Catalyst Optimization for Low-Carbon Refinement
Zero-Emission Hydrogen Feedstock Integration

Leveraging IEA-verified pathways to achieve net-zero in the world’s most energy-intensive sectors. Our proprietary data check systems ensure every technological integration meets global climate authority standards.

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THE PATH TONET ZEROFOR HEAVYINDUSTRY