Our Strategic Expansion and Activities in India

The global race for deep decarbonization has a clear epicenter: India. As one of the world’s fastest-growing economies with massive industrial sectors, India’s transition to green fuels is not just a local priority—it is a global necessity.

Over the past year, we have significantly accelerated our activities in India. Through advanced technology, strong cross-border frameworks, and dedicated local representation, we are positioning our proprietary solution as the new benchmark for high-efficiency, carbon-negative hydrogen production.

Here is an overview of our ongoing activities, strategic focus areas, and how we are challenging the traditional green energy landscape in India.

1. Driving Innovation Through the Danish-Indian Program

A key pillar of our market entry and operational validation has been our active involvement in the Danish-Indian government program. This bilateral framework provides a vital bridge between cutting-edge Scandinavian technology and India’s vast industrial scale-up goals.

Through this program, we are engaging with public and private stakeholders to showcase how next-generation chemical solutions can bypass the bottlenecks of first-generation green energy infrastructure. The support from this strategic corridor allows us to position our technology in alignment with India’s National Green Hydrogen Mission, paving the way for seamless industrial integration.

2. Empowering Local Scale-up via Our Indian Agents

Building a sustainable hydrogen economy requires deep local expertise. We have established a robust network of local agents and strategic partners on the ground in India.

Our agents play a critical role in navigating the regional market dynamics, interfacing with heavy industries, and securing the pipeline for our upcoming industrial deployments. Their presence ensures that our decentralized, modular systems are tailored to the exact requirements of local off-takers—whether they are looking to integrate green hydrogen into chemical synthesis, heavy manufacturing, or maritime transport hubs.

3. Challenging the "Brute Force" Legacy Market

Much of India’s current green hydrogen pipeline relies on mega-scale, conventional water electrolysis. While these massive projects showcase impressive scale, our recent internal strategic analyses highlight the inherent vulnerabilities they face in the Indian landscape:

• The Land and Grid Constraint: Traditional megawatt-scale electrolysis requires vast solar and wind farms to cope with low load factors, often demanding thousands of hectares of land and placing severe strain on local electrical grids.

• The Compression Hurdle: Conventional systems release hydrogen at low pressures (typically around 30 bar), demanding heavy, maintenance-prone mechanical compressors to raise the pressure for transport or industrial synthesis.

  
  

4. Our Disruptive fundamental change: High Pressure, Low Power, Carbon Negative

Through our extensive technical dialogues and simulations tailored for the Indian market, we have demonstrated how our proprietary chemical hydrogen method fundamentally alters the economic and operational equation:

• 90% Energy Reduction: By replacing traditional power-to-X methods with a spontaneous chemical reaction, our technology requires only a fraction of the electricity (~5 kWh per kg of green hydrogen compared to the 50+ kWh consumed by conventional stacks). This slashes the required solar/wind footprint by 90%, resolving the land acquisition bottleneck.

• Native 150 Bar Pressure: Our reactor naturally generates a delivery pressure of 150 bar directly via the chemical process. This completely eliminates the need for external mechanical compression stages, reducing both capital expenditure (CAPEX) and ongoing operational maintenance (OPEX).

• True Circular Economy & Sequestration: Instead of just avoiding emissions, our process actively absorbs and binds 3 kg of industrial CO₂ for every 1 kg of green hydrogen produced, transforming it into stable mineral carbonates. In a market like India, which is rapidly adopting Carbon Credit Trading Schemes, this carbon-negative profile turns an environmental liability into a lucrative revenue stream for our customers.

Mitigating India’s Industrial Waste Overhang

A critical, yet frequently undervalued, dimension of India’s sustainable growth trajectory is the acute environmental legacy of its heavy primary industries. The domestic steel, aluminum, and coal-fired power sectors generate vast volumes of hazardous industrial by-products and carbon-heavy solid waste. Historically managed as costly environmental liabilities requiring extensive landfilling, these waste streams present a severe logistical and regulatory challenge for Indian industrial conglomerates.

Our strategic advisory division is actively collaborating with tier-one Indian industrial actors to re-engineer these liabilities into high-value operational inputs. By decoupling hydrogen production from pure water electrolysis and instead anchoring it within a closed-loop chemical remediation framework, our technology delivers a dual-benefit architecture:

1. Industrial Waste Valorization: The chemical process utilizes complex industrial mineral wastes as essential elements in the hydrogen-release reaction, providing a scalable, commercially viable pathway for large-scale waste neutralization.

2. Co-located Carbon Mineralization: As the reaction binds 3 kg of CO2 per kilogram of hydrogen produced at a native 150 bar pressure, it enables heavy emitters—such as steel mills and aluminum smelters—to capture and permanently mineralize their flue-gas emissions on-site, converting a volatile emission penalty into stable, inert mineral matrixes.

By integrating this carbon-negative hydrogen loop directly into India’s primary industrial clusters, we are advising our partners on how to de-risk their balance sheets against emerging environmental tariffs while simultaneously securing a hyper-efficient, localized source of green energy. This closed-loop paradigm transitions Indian heavy industry from linear waste management to advanced, circular asset optimization.

Looking Ahead

Our activities in India are shifting from theoretical alignment to active industrial positioning. By combining the institutional backing of the Danish-Indian framework, the agility of our local agents, and a technology that addresses India's exact constraints—land, grid, and water scarcity—we are not just entering the market; we are setting a new standard for what green hydrogen can achieve.

Stay tuned as we continue to roll out our modular infrastructure and drive the next phase of the global energy transition.