Smart carbon capture for every engine & grid

The world’s first CO₂-neutral 1 MW power with 2MWh Storage & ultra-fast EV charging.

CRYOCCS® combines megawatt-scale power, cryogenic CO₂ capture and 2 × 250 kW ultra-fast charging into a single deployable system – turning emissions into a valuable commodity instead of waste.

CO₂-neutral system
1 MW Natural Gas Generator
2 MWh Storage Container
LCO₂ as revenue stream
Optional: 2 × 250 kW EV Ultra Fast Charge
Bild 1 Bild 2
1 MW
natural-gas generator
with integrated cryogenic CO₂ liquefaction.
Zero Emissions in the Atmosphare 2 MWh
Storage capacity.
AI based grid stabilisation
CO₂-neutral Image:
TPCCS System vs.
1 MW + 2 MWh + TPCCS
CRYOCCS® is not a conventional CCS system: It is an integrated energy and thermal process architecture that combines power generation, energy recovery and CO₂ capture to improve system-level emissions and efficiency. It is designed for applications requiring dispatchable power and carbon management, such as island grids, remote industry, emergency power and next-generation charging and power infrastructure.
Integrated climate-tech platform

From emission source to CO₂ production asset

Traditional generators emit CO₂ and create cost and regulation pressure. The CRYOCCS® unit flips that logic completely: it transforms a combustion-based power source into a CO₂-neutral, revenue-generating asset.

At its core sits a 1 MW (1250 kVA) natural-gas generator engineered for grid-independent operation. The exhaust stream is routed through a proprietary cryogenic capture line that dries, compresses and cools the gas using a PCS process, separating high-purity liquid CO₂ (LCO₂) while releasing clean nitrogen to the atmosphere.

The result is a compact power plant that can be dropped into island grids, industrial sites, construction projects, crisis zones or temporary events – providing megawatt-scale power and fast charging wherever the grid is weak or absent.

Key idea: instead of paying to offset emissions, operators can earn money from captured CO₂ while delivering reliable power, storage and fast charging.

AI Core Performance

Engineered as a fully integrated module – power, storage, capture and charging in a single system. The AI-Control Module is not an optimization add-on. It is a prerequisite for safe and efficient operation of the distributed expansion-based cooling of carbon capture architecture.

Electrical output
1 MW
1250 kVA natural gas generator
Storage Capacity
2 MWh
AI-optimised grid stabilisation.
Captured CO₂
≈ 3,500 t / year
at 8,000 operating hours
EV fast charging
2 × 250 kW
500 kW combined DC ultra-fast charging
Cryogenic capture & power electronics

How the technology works

Cryogenic CO₂ Capture

The exhaust passes through a multi-stage treatment train:

  • Drying & conditioning – moisture removal prevents icing and guarantees stable operation.
  • TPCCS - Power and Carbon System: a novel (non-conventional CCS) integrated energy and heat process architecture for cooling the exhaust gas.
  • Compression – exhaust is brought to an optimal pressure window for CO₂ liquefaction.
  • Phase separation – nitrogen is released as clean gas, CO₂ is collected as high-purity liquid.
  • Onboard storage – LCO₂ is stored in an insulated tank, ready for off-take and sale.

An AI-based control system dynamically coordinates all components. The decentralized arrangement of the cooling modules enables precise control and high operational stability, even under fluctuating load conditions. No chemical sorbents, no regeneration cycle, no complex solvents.

Ultra-Fast Charging & Control

CRYOCCS integrates two 250 kW DC fast-charging outlets, powered directly by the generator. Intelligent power electronics prioritise EV charging while maintaining optimal operating conditions for the engine and capture system.

  • 500 kW combined DC output for EVs, fully grid-independent.
  • Dynamic load management to balance charging demand and capture performance.
  • Advanced control using predictive models and MPC to maximise capture efficiency and minimise LN₂ consumption.
  • Fail-safe modes ensure that, in case of fault, the system can fall back to safe generator operation.

In one compact footprint, operators gain both a fast-charging hub and a CO₂-negative power plant.

Economics & markets

From cost center to profit engine

LCO₂ revenue

CO₂ as a Valuable Product

Captured liquid CO₂ is not a waste stream – it is a tradable commodity used in beverages, food processing, welding, agriculture, cold chain, dry ice and e-fuel synthesis. With typical prices between €70 and €300 per ton, an annual output of 1,000 tons translates into a substantial new income source.

Instead of buying offsets, operators can monetize CO₂ and strengthen their sustainability story at the same time.

Multi-channel revenue

Stacked Business Model

  • Power sales – 1 MW for industrial loads, events, construction or backup.
  • EV charging revenue – high-margin ultra-fast charging in underserved locations.
  • LCO₂ trading – long-term supply contracts with industrial gas buyers and e-fuel plants.
  • Carbon & ESG credits – CO₂-negative operations open doors to incentives and green financing.
Deployment

Global Application Space

The system is designed to be containerised and relocatable, enabling use in:

  • Emerging markets with weak grids.
  • Remote mining, oil & gas and industrial sites.
  • Military bases and humanitarian operations.
  • Festivals, ports, airports and logistics hubs.
  • Highway corridors as temporary or permanent fast-charging hubs.
Strategic insight:
CRYOCCS® is not just a cleaner generator – it is a new infrastructure layer where power, storage, carbon capture and EV charging converge.

Additional Revenue 2MWh Storage:
1. Frequency Regulation: Fast-response storage provides FCR, aFRR and mFRR services.
2. Peak Shaving Revenue: Reduction of peak loads lowers grid fees and avoids connection penalties.
3. Energy Arbitrage: Charging at low-price hours and selling during high-price hours Automated by AI for optimisation.
4. Black-Start + Resilience: Full off-grid start capability. Extremely attractive for data centres, industries and microgrids.

Energy System CO₂ Comparison

Comparison of conventional gas, CRYOCCS®-enhanced gas, and renewable and nuclear systems in terms of CO₂ intensity, availability, and system performance.

CO₂ Intensity
440 g/kWh
Conventional Gas
CO₂ Intensity
30–60 g/kWh
Photovoltaic
CO₂ Intensity
10–20 g/kWh
Wind Onshore
CO₂ Intensity
5–10 g/kWh
Nuclear
CO₂ Intensity
5–20 g/kWh
Hydro
CO₂ Intensity
5–15 g/kWh
CRYOCCS®
Availability
24/7
Conventional Gas
Availability
Variable
Photovoltaic
Availability
Variable
Wind Onshore
Availability
24/7
Nuclear
Availability
24/7
Hydro
Availability
24/7
CRYOCCS®
Grid Support
High
Conventional Gas
Grid Support
Low
Photovoltaic
Grid Support
Low
Wind Onshore
Grid Support
High
Nuclear
Grid Support
Medium
Hydro
Grid Support
High
CRYOCCS®
Installed Cost
€0.6–0.9M / MW
Conventional Gas
Installed Cost
€0.6–1.0M / MW
Photovoltaic
Installed Cost
€1.2–1.8M / MW
Wind Onshore
Installed Cost
€6–9M / MW
Nuclear
Installed Cost
€3–6M / MW
Hydro
Installed Cost
€1.2–1.6M / MW
CRYOCCS®
Why invest now

A new class of CO₂-neutral infrastructure

As grids struggle to keep pace with electrification and industry faces escalating climate regulation, CRYOCCS® offers something rare: a technology that is both environmentally transformative and economically compelling.

There is currently no competing system that combines megawatt-scale power, 2 MWh Storage, onboard cryogenic CO₂ capture, LCO₂ as a sellable product and half-megawatt ultra-fast charging in one integrated package. This makes CRYOCCS® a genuine “first-in-class” platform with the potential to set a new standard for off-grid and edge-of-grid energy infrastructure worldwide.

We are now seeking strategic investors and partners to industrialise the platform, scale manufacturing and deploy the first commercial fleets across key regions.