Technology and Engineering for a Sustainable Future

What is Carbon Capture & CDR (Carbon Dioxide Removal)?

As carbon emissions rise, reducing emissions alone is not enough. Removing existing CO₂ from the atmosphere is critical. Minevate offers carbon capture, utilization, and storage (CCUS) solutions to minimize industrial carbon footprints.

Natural Solutions

Afforestation and reforestation
Soil carbon sequestration
Sustainable biomass management

Technological Solutions

Direct Air Capture (DAC): Captures CO₂ directly from the air
Bioenergy with Carbon Capture and Storage (BECCS): Net-negative emissions through biomass energy

Minevate integrates these technologies to help achieve net-zero and net-negative carbon goals.

Why Carbon Capture is Critical

1.5°C Target: To limit global warming, excess atmospheric CO₂ must be removed in addition to reducing emissions
Hard-to-Abate Sectors: Cement, steel, and petrochemical industries require carbon capture as the only feasible solution
Ecosystem Restoration: Removing excess CO₂ helps preserve biodiversity and ecosystems

Minevate Technologies

1️⃣ Direct Air Capture (DAC)

Uses chemical solvents and adsorbents to remove CO₂ from low-concentration air streams
Benefits:
- Flexible and deployable in various regions
- Suitable for geological storage or industrial reuse
- Low carbon footprint with renewable energy integration

2️⃣ Bioenergy with Carbon Capture and Storage (BECCS)

Captures CO₂ from biomass energy production and stores it underground
Benefits:
- Sustainable biomass sourcing
- Simultaneous energy production and carbon reduction
- High energy conversion efficiency

Minevate Decarbonization Plants – 100-200 TPH Eco-Friendly Solutions

Minevate designs modular and scalable decarbonization plants to reduce industrial carbon emissions, increase energy efficiency, and achieve net-zero targets.

Technical Specifications

Feature	Technical Details
Capacity	100-200 TPH gas processing
CO₂ Capture Efficiency	90%+
Capture Technology	Chemical absorption (amine solutions), adsorption, membrane systems
Pre-Treatment	Particulate filtration, gas cooling, pressure adjustment
Compression & Storage	Supercritical compression, geological storage at 1,000+ m depth
Energy Management	Waste heat recovery, renewable energy integration
Design	Modular, fast installation, scalable
Automation	SCADA-based remote control, IoT integration
Environmental Compliance	ISO 14001 and international standards

How It Works

Gas Intake & Pre-Treatment: Industrial flue gases are filtered for particles and moisture
CO₂ Capture: Separated using amine solutions or membrane systems
Compression & Storage: Compressed to supercritical pressure and stored in secure geological formations
Energy Efficiency: Optimized with waste heat recovery and renewable energy integration
Real-Time Monitoring: Fully digital operations via SCADA and IoT

Why Choose Minevate Plants?

High Capacity: 100-200 TPH for large-scale industrial operations
90%+ CO₂ Capture Efficiency: Minimizes carbon footprint
Modular & Scalable: Fast deployment across sectors
Industry 4.0 Automation: Full digital control with SCADA and IoT
Sustainable Solutions: Fully compliant with international environmental standards