Pink Hydrogen & Turbines

Leveraging nuclear baseload power to generate "Pink Hydrogen" via high-temperature electrolysis, fueling advanced gas turbines for 24/7 carbon-free data center resilience.

Scenario Builder: Production Parameters

Adjust nuclear baseload and efficiency to simulate hydrogen output

Nuclear Baseload (MW)850 MW

Electrolyzer Efficiency (kWh/kg)45 kWh/kg

H2 Output (kg/h)
Electrolysis Load (MW)

LCOH Economic Analysis ($/kg)

Compare Levelized Cost of Hydrogen across production methods

MANUAL INPUT

Electricity Price ($/MWh)

$50

Electrolyzer CAPEX ($/kW)

$1200

Why This Matters for Green Hydrogen

The symbiotic relationship between AI Demand and Hydrogen Economics

Grid Balancing

AI data centers provide massive, consistent baseload demand that can absorb excess renewable energy, preventing curtailment.

Economic Viability

High utilization rates from 24/7 AI operations reduce the Levelized Cost of Hydrogen (LCOH) by up to 40%.

Decarbonization

Replacing diesel backup generators with hydrogen fuel cells eliminates Scope 1 emissions entirely.

Real-World Validation: See our pilot results and global frameworks.

25 kW Pilot Results Global Green Frameworks

Digital Twins

MODEL: HIGH-FIDELITY PROCEDURAL

Pink Hydrogen Specs

SourceNuclear (SMR)

ProcessHigh-Temp Electrolysis

Efficiency~45 kWh/kg H2

Carbon Intensity0 gCO2/kWh

H2 Turbine Specs

Fuel Mix100% Hydrogen

Ramp Rate50 MW/min

NOx ControlDLN Micromix

Start Time< 10 min

Hydrogen Turbine System LIVE FEED

RPM

Exhaust Temp

1459°C

Advanced combustion chamber design for 100% hydrogen fuel mix with minimized NOx emissions.

Nuclear-Hydrogen Ecosystem

Pink H2 Future

Fossil Grid