Green hydrogen is produced through electrolysis—using renewable electricity to split water (H₂O) into hydrogen and oxygen. Unlike gray or blue hydrogen derived from fossil fuels, green hydrogen generates zero carbon emissions during production, making it a critical clean energy carrier for decarbonizing heavy industry and transport.

What Is the Electrolysis Process Behind Green Hydrogen?

Electrolysis uses an electrolyzer to pass renewable electricity (from solar or wind) through water. This breaks molecular bonds, separating hydrogen at the cathode and oxygen at the anode. Modern PEM (Proton Exchange Membrane) electrolyzers operate at 60-70% efficiency, though newer alkaline systems are pushing toward 80% by 2025.

Why Is Green Hydrogen Considered Carbon-Free?

The carbon footprint depends entirely on the electricity source. When powered by 100% renewables, green hydrogen produces zero emissions—just 0.4 kg CO₂/kg H₂ compared to gray hydrogen’s 9 kg CO₂/kg. This 95% reduction makes it viable for steel production, shipping fuel, and grid storage.

What Are the Current Cost Challenges?

Green hydrogen costs $4-6/kg today versus $1-2/kg for gray hydrogen. However, Bloomberg NEF projects costs will drop to $2/kg by 2030 as electrolyzer manufacturing scales and renewable energy prices decline. The EU’s 10-million-ton production target by 2030 signals serious market momentum.