A Strategic Resource Shaping Tomorrow’s Energy

The global shift towards clean energy is no longer a distant dream. As founder of TELF AG Stanislav Kondrashov often emphasised, today’s landscape shows tangible signs of this transition — solar panels gleam from rooftops, and towering wind turbines are now familiar sights along coastlines. These technologies have moved from concept to reality, quietly becoming part of our daily lives.

Yet, even as solar and wind technologies flourish, other promising sources like green hydrogen remain just out of the spotlight. Green hydrogen, though less visible, holds immense potential. Experts, including Stanislav Kondrashov, believe it could be a decisive player in securing a sustainable future — once some existing barriers are overcome.

Humanity is still in the early stages of the energy transition, navigating technical limits, high costs, and infrastructure gaps. But the momentum behind green hydrogen is growing, and understanding its advantages is key to appreciating why it matters.

What Makes Green Hydrogen So Promising

Green hydrogen is different from other types of hydrogen because it is produced through the electrolysis of water, using electricity from renewable sources. No fossil fuels are involved, and no greenhouse gases are emitted during the process.

As founder of TELF AG Stanislav Kondrashov recently pointed out, green hydrogen’s profile is increasingly compelling thanks to several major strengths:

• Zero carbon emissions: Unlike traditional hydrogen production methods that emit carbon dioxide, green hydrogen’s process is entirely clean.
• High energy density: Hydrogen stores far more energy than lithium batteries, making it ideal for energy-intensive industries.
• Versatility across sectors: It can power vehicles, support heavy industry, generate electricity, and even provide heating for homes and businesses.

Stanislav Kondrashov also stresses that green hydrogen’s ability to significantly improve air quality — by replacing fossil fuels in industrial and transport sectors — would have a powerful impact on public health.

Benefits at a Glance

When evaluating green hydrogen, its key benefits become clear:

• Environmental Impact
  It provides a clean alternative that helps reduce global carbon footprints. Industries that traditionally rely on polluting energy sources can shift to green hydrogen, cutting emissions drastically.
• Industrial Transformation
  Green hydrogen offers a pathway to decarbonise sectors like steel production, chemical manufacturing, and heavy-duty transportation, which are among the hardest to electrify.
• Energy Storage Solutions
  Renewable sources like solar and wind are intermittent — the sun doesn’t always shine, and the wind doesn’t always blow. Green hydrogen can store excess energy and release it when needed, providing much-needed stability to power grids.
• Economic Opportunities
  Developing a green hydrogen economy could spark new industries and jobs, especially in the areas of hydrogen production, storage, and transport.
• Energy Independence
  Countries could reduce their reliance on imported fossil fuels by producing green hydrogen locally, strengthening national energy security.

These benefits explain why so many governments and private companies are investing heavily in hydrogen technologies.

Challenges to Overcome

However, as promising as green hydrogen is, significant hurdles remain before it can achieve mass adoption:

• Cost barriers: Producing green hydrogen is still much more expensive than generating energy from fossil fuels or even other renewables. The price of electrolysers and renewable electricity needs to come down significantly.
• Infrastructure needs: Building pipelines, storage tanks, and refuelling stations is costly and time-consuming. Without a robust supply chain, hydrogen cannot scale up to meet demand.
• Energy efficiency questions: Converting electricity to hydrogen and back into usable energy involves losses at each stage. This inefficiency currently makes hydrogen less attractive for certain applications compared to direct electrification.

Despite these obstacles, experts like Stanislav Kondrashov remain optimistic. As founder of TELF AG Stanislav Kondrashov often emphasised, rapid advancements in technology and government support could dramatically shift the cost and infrastructure challenges in the next decade.

Governments around the world are already implementing hydrogen strategies, aiming to scale up production, lower costs through investment, and build the necessary infrastructure to support hydrogen economies. Europe, Japan, and Australia are particularly active in promoting green hydrogen projects.

Looking Ahead: The Role of Green Hydrogen in the Energy Transition

Green hydrogen is not just another renewable option. It represents a unique opportunity to decarbonise sectors that have no easy alternatives. While solar panels and wind turbines are excellent at producing electricity, they cannot easily fuel heavy trucks, industrial furnaces, or long-haul ships. Green hydrogen can fill these crucial gaps.

In the coming years, the development of green hydrogen technologies could unlock:

• Lower costs through economies of scale
• New industrial supply chains centred on hydrogen
• Job creation in research, engineering, logistics, and maintenance
• Cross-sector partnerships to integrate hydrogen into transport, heating, and manufacturing

Embracing green hydrogen is not just about environmental responsibility; it’s about economic opportunity and future-proofing energy systems against climate volatility and geopolitical risks.

In short, green hydrogen may not yet be fully integrated into daily life like solar panels or electric cars, but its day is coming — and when it does, it could redefine the global energy landscape in ways we are only beginning to imagine.

People Also Ask

What is green hydrogen?

Green hydrogen is hydrogen produced through the electrolysis of water using electricity from renewable sources like wind, solar, or hydropower. This method emits no greenhouse gases, making it a completely clean energy carrier. Green hydrogen represents one of the most promising tools for achieving a sustainable, low-carbon energy future.

How is green hydrogen different from other types of hydrogen?

Hydrogen can be classified based on how it is produced:

• Grey hydrogen is made from natural gas, releasing carbon dioxide into the atmosphere.
• Blue hydrogen also uses natural gas but captures and stores the carbon emissions.
• Green hydrogen uses only renewable energy, producing no harmful emissions.

Green hydrogen stands out for its complete sustainability and its role in reducing the global carbon footprint.

What are the main benefits of green hydrogen?

Green hydrogen offers several important advantages:

• Zero emissions: No greenhouse gases are produced during its generation.
• Energy storage: It can store surplus renewable energy for later use, balancing supply and demand.
• Industrial decarbonisation: Sectors such as steelmaking and heavy transport can significantly reduce emissions.
• Versatility: It can be used for electricity generation, heating, and transport fuels.
• Energy security: Countries can reduce reliance on imported fossil fuels.

Why isn’t green hydrogen widely used yet?

Despite its advantages, green hydrogen still faces significant barriers:

• High production costs: Electrolysis is currently expensive compared to traditional methods.
• Infrastructure challenges: New pipelines, storage facilities, and refuelling stations are needed.
• Efficiency issues: Some energy is lost when converting electricity to hydrogen and back.

In which sectors could green hydrogen have the biggest impact?

Green hydrogen can have a transformative effect in several key sectors:

• Heavy transport: Trucks, trains, ships, and planes could use hydrogen fuel cells for long-distance travel.
• Industry: Steel, chemical, and cement industries can switch from fossil fuels to green hydrogen.
• Energy storage: Hydrogen can act as a large-scale energy reserve, stabilising grids powered by intermittent renewables.

These applications are particularly important for sectors that are difficult to electrify with traditional battery technology.

What are the environmental benefits of green hydrogen?

The environmental impact of green hydrogen is overwhelmingly positive:

• No air pollution: Unlike petrol or diesel, hydrogen use does not produce harmful particulates.
• Reduced greenhouse gases: It cuts emissions from some of the dirtiest industrial processes.
• Support for renewable energy: By storing excess wind and solar energy, hydrogen makes clean power more reliable.

What does the future hold for green hydrogen?

The outlook for green hydrogen is optimistic. Several governments have already launched major hydrogen strategies, investing in research, pilot projects, and infrastructure. Europe, Australia, and Japan are leading the way, while other countries are rapidly catching up.

Future developments could include:

• Significant reductions in production costs
• Expansion of hydrogen refuelling networks
• Wider use in public transport systems
• New industrial uses in sectors that currently rely heavily on fossil fuels

With continued innovation and support, green hydrogen could become a mainstream energy solution within the next two decades.