DWE TECHNOLOGY

Hyper-flexible. Ultra low CAPEX.

Lowest LCOH, direct to renewables.

H2Pro's Decoupled Technology revolutionizes water electrolysis

Traditional electrolyzers are not fit for renewables. DWE solves this problem with a two-phase,

novel and propriety process that time separates Hydrogen and Oxygen production by time.

bifunctional

Ni(OH)₂ NiOOH

H₂

HER: 4H₂O + 4e⁻ → 4OH⁻ + 2H₂

{Ni(OH)₂ + OH⁻ → NiOOH + H₂O + e⁻} x 4

OH⁻

Generate hydrogen

Charge battery electrode

To start the DWE process, renewable electricity flows to the bi-functional electrode where it reduces the water molecules to form hydroxide ions and hydrogen molecules.

Meanwhile, to close the electrochemical circuit, the counter electrode reacts with the hydroxide ions, forming water molecules and charging the electrode. As the hydrogen is generated it flows into a separation tank.

See next phase

bifunctional

Ni(OH)2 NiOOH

Ni(OH)₂ NiOOH

O₂

OER: 4OH⁻ → O₂ + 2H₂O + 4e⁻

{NiOOH + H₂O + e⁻ → Ni(OH)₂ + OH⁻ } x 4

OH⁻

Generate oxygen

Discharge battery electrode

Once the electrode is fully charged, phase 1 is complete and the electric current is reversed to begin phase 2. The charged electrode discharges while Oxygen is produced at the bi-functional electrode. The Oxygen flows into a separate tank.

When the battery electrode is fully discharged, the cycle starts again from phase 1.

See previous phase

DWE Benefits

Unlimited On/Off

Unlike conventional systems that suffer wear with each stop-start, DWE enables unlimited and seamless on/off, with no degredation penalties. It also offers quick ramp up and and down with immediate cold start-ups. This means that when the sun sets, production can pause safely, and when it rises, operations resume immediately. Competing technologies often require batteries or grid connections just to avoid shutdown damage; DWE removes that limitation entirely.

Wide load range

Renewable energy rarely arrives at full power. Most of the time it comes as partial loads. DWE operates efficiently across a wide load range, and offers the lowest industry minimum working point. The result: high hydrogen output even under fluctuating conditions, with strong efficiency at every level of input power.

Ultra-low CAPEX

Renewable inputs are volatile.

DWE technology is always ready for action.

Unlimited On/Off

Unlike conventional systems that suffer wear with each stop-start, DWE enables unlimited and seamless on/off, with no degredation penalties. It also offers quick ramp up and and down with immediate cold start-ups. This means that when the sun sets, production can pause safely, and when it rises, operations resume immediately. Competing technologies often require batteries or grid connections just to avoid shutdown damage; DWE removes that limitation entirely.

Wide load range

Renewable energy rarely arrives at full power. Most of the time it comes as partial loads. DWE operates efficiently across a wide load range, and offers the lowest industry minimum working point. The result: high hydrogen output even under fluctuating conditions, with strong efficiency at every level of input power.

Hyper-flexible

Renewable inputs are volatile.

DWE technology is always ready for action.

MEET THE DWE ELECTROLYZER

Ready to pair with a green, new world

H2Pro's technology solves the two biggest challenges facing the green hydrogen economy: direct connection to renewables and cost of production. Our decoupled, membraneless electrolyzers defy limits, offering flexible operations and design to deliver the most affordable, and truly green hydrogen.

Why conventional electrolyzers are not fit for renewables

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