CRYOCCS – Integration in hybride Energiesysteme

System Integration

CRYOCCS^® as the key to CO₂-neutral energy

CRYOCCS^® utilizes a proprietary thermodynamic process integration in which internal energy flows from the exhaust gas stream are recycled to support CO₂ capture and liquefaction. This drastically reduces on-site electrical consumption – the net output remains fully marketable.

CRYOCCS Integration in hybride Energiesysteme

Replacing Fossil Backup Systems with CRYOCCS^®

Today

Solar / wind → intermittent
Backup → diesel / gas
Emissions → released untreated

With CRYOCCS^®

Dispatchable and controllable power
CO₂ from backup operation fully captured
No emissions to the atmosphere

Result

The entire energy system (renewables + backup) becomes near CO₂-neutral, without offsets or accounting tricks.

Integration into Hybrid Parks: Wind + Solar + CRYOCCS^®

Role of CRYOCCS^®

Not a baseload plant
Regulating and peak-load power unit

System Logic

High wind/sun → charge energy storage
Low wind/sun → CRYOCCS ramps up
CO₂ is fully captured

Benefits

Smaller battery systems
Less over-dimensioning
Significantly higher grid stability

Using Surplus Electricity for CO₂ Upgrading

During Power Surplus

Ramp up compression & liquefaction
Produce CO₂ as a valuable product
Load shifting instead of curtailment

System Effect

Renewables become both more profitable and cleaner, maximising the value of every generated kWh.

System-Level Impact: Reduction of Indirect Emissions

CRYOCCS^® Reduces

Battery life-cycle emissions
Grid expansion requirements
Need for reserve power plants

Outcome

CO₂ intensity per kWh decreases at the system level – not only locally, but across the entire energy ecosystem.

Contact

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