Natural Hydrogen

Syllabus: Environment

Source: TH

Context: Governments and private firms across the globe are intensifying efforts to explore natural hydrogen as a low-cost, zero-emission fuel, with recent discoveries in France’s Moselle region and strong interest from India.

About Natural Hydrogen:

What is Natural Hydrogen?

• Natural hydrogen is free molecular hydrogen (H₂) that occurs naturally underground due to geological processes like serpentinisation and radiolysis.

• It is a clean-burning, non-polluting, and potentially renewable energy source if extracted sustainably.

Key Features of Natural Hydrogen:

• Zero-Emission Fuel: Burns to produce only water vapor; no CO₂ emissions.

• Low-Cost Potential: Estimated production cost $1/kg, much cheaper than green hydrogen.

• Sustainable: Naturally regenerates in geological formations.

• High Energy Efficiency: Hydrogen fuel cells are 3 times more efficient than gasoline.

How Does Hydrogen Occur in Nature?

• Found in hard rock formations, ophiolite belts, and hydrothermal systems.

• Generated by processes like: Serpentinisation: Reaction between water and ultramafic rocks. Radiolysis: Breakdown of water by natural radioactive decay. Organic decomposition: Release from deep carbonaceous material.

• Serpentinisation: Reaction between water and ultramafic rocks.

• Radiolysis: Breakdown of water by natural radioactive decay.

• Organic decomposition: Release from deep carbonaceous material.

• Co-located with helium in some formations, indicating deep crustal origins.

Extraction Process of Natural Hydrogen:

• Exploration: Detect hydrogen seeps using geophysical tools and geochemical sampling in favourable geological regions.

• Drilling: Boreholes are drilled at identified sites (e.g., Mali, France, U.S.) to access underground hydrogen pockets.

• Capture & Compression: Extracted hydrogen is filtered, purified, and compressed for safe storage and transport.

• Distribution: The gas is delivered to fuel cells, refineries, or industrial users as a clean energy source.

Challenges in Natural Hydrogen Adoption:

• Unmapped Reserves: Lack of extensive surveys makes global hydrogen availability uncertain.

• Scattered Deposits: Economically unviable if reserves are too spread out.

• Storage & Transport: Hydrogen’s low energy density requires high-pressure containment, increasing cost.

• Safety Concerns: Highly flammable and odourless, making leak detection difficult.

• Lack of Infrastructure: Refuelling stations, pipelines, and distribution are still underdeveloped.

Way Ahead:

• National Mapping: Conduct a comprehensive geological survey of hydrogen-bearing formations, especially in India’s cratonic belts and ophiolites.

• Policy Push: Develop a Natural Hydrogen Exploration Policy and include it in India’s National Hydrogen Mission.

• Global Collaboration: Leverage USGS models, and collaborate on R&D with nations like France and the U.S.

• Private Sector Incentives: Attract investments through PPP models, tax breaks, and startup incubation in this sector.

• Infrastructure Development: Build safe storage, pipelines, and fuel cell refueling networks alongside hydrogen hubs.

Conclusion:

Natural hydrogen offers a promising, low-emission, and scalable alternative to fossil fuels. Its success depends on effective exploration, safety, and commercialization frameworks. With India’s untapped reserves, strategic focus can position it as a leader in next-generation hydrogen energy.

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