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Key aspects of scaling up 

Scaling up should be based on evidence

Experience a live demonstration of our groundbreaking method and collaborate with us in shaping the future of energy. We are actively seeking strong partners and visionary profiles eager to drive progress.

Invest in Hydrogenerous tech scale-ups by thoroughly understanding our technology and market, evaluating our teams, and making informed decisions for success.

Looking for strong potential for innovation and international expansion. We have successfully navigated early growth stages, and you can optimally assist in maintaining and enhancing our developmental momentum.

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Hydrogenerous ApS
Vinkelvej 240, Vinkel
8800 Viborg
Denmark

mail@hydrogenerous.com

Office phone +45 7734 6020

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ROI 

The projected Return on Investment (ROI) is exceptionally strong, which can sometimes challenge initial comprehension. However, we have strategies in place to effectively convey this remarkable potential. Numbers show a 1 MWh production. 1 kg of hydrogen = 33.3 kWh

Direct carbon utilization, Hydrogenerous Green Hydrogen

65 M3

Reactor size

78,545.45 

tons of CO2 absorbed

26,181.82

tons of Hydrogen Produced

1,857,996 €

KPI one year

Are there sufficient raw materials for this method?

Inexhaustible Resources: Sustainability Meets Innovation

Our reactor utilizes a combustion raw material that is not only found in abundant quantities globally but is also fully recyclable, undergoing no alteration during the production process. This guarantees an effectively inexhaustible resource. Such an advantage empowers countries like Denmark, Germany, and broader regions in Europe and Asia to eliminate reliance on imported natural gas, oil, and other fossil fuels. Cultivating sustainable self-sufficiency is a critical factor in securing future economic competitiveness and energy independence.

Direct carbon utilization, Hydrogenerous Green Hydrogen

Large scale utilization 100 MWh

Adjacent to the factory, the 100 MWh submerged pool reactor effectively utilizes the facility's emissions, fulfilling its daily power requirements while simultaneously producing fuels designated for export.

Direct carbon utilization, Hydrogenerous Green Hydrogen
Direct carbon utilization, Hydrogenerous Green Hydrogen

Flow System

Integration of a continuous flow system with a Grundfos water pump system, a CO2 flow system, a temporary storage tank, and a software control system that is prepared for integrations.

The 40 to 45-foot container produces 30,3 kg of green hydrogen per hour, converted to power 1MWh. 

Direct carbon utilization, Hydrogenerous Green Hydrogen
Direct carbon utilization, Hydrogenerous Green Hydrogen

What do we need?

Establishing a pilot project in Denmark presents unique integration challenges, requiring various elements to converge into a cohesive whole. While support for SMEs in Denmark can be limited, our operations also extend across the EU, Switzerland, and Asia, providing broader opportunities.

Duplex steel tanks

To construct above-ground reactors, Duplex steel tanks are used. We have a dialogue with Hobro Rustfri https://www.hobrorustfri.dk/, who are experts in steel tanks for chemical production and pressure calculations.

Direct carbon utilization, Hydrogenerous Green Hydrogen
Direct carbon utilization, Hydrogenerous Green Hydrogen

Key Aspects

"CO2 storage for no use vs. CO2 utilization for green hydrogen: Highlighting the green and positive economic benefits of the Hydrogenerous method."

Viborg Hydrogenerous Green Hydrogen
Direct carbon utilization, Hydrogenerous Green Hydrogen
Direct carbon utilization, Hydrogenerous Green HydrogenDirect carbon utilization, Hydrogenerous Green Hydrogen
Direct carbon utilization, Hydrogenerous Green Hydrogen
Direct carbon utilization, Hydrogenerous Green Hydrogen

re·dun·dant

When comparing electrolysis vs. chemical catalyst production of green H2, the following pictured infrastructure becomes redundant with the chemical method from Hydrogenerous

Direct carbon utilization, Hydrogenerous Green Hydrogen
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