EFFICIENCY
CO2-RELEASE

WHY ?

HYDROGEN

Hydrogen energy will support our technological transformation, playing an important role in environmental protection, energy independence and healthcare while meeting future energy needs.

Hydrogen energy offers an environmentally friendly alternative by producing water vapor and is effective in reducing carbon emissions.

It lays the foundation for a sustainable energy future by contributing to the fight against climate change and clean energy targets.

Hydrogen is used for energy storage and long-distance transportation, making energy systems more flexible.

In the industrial sector, hydrogen is emerging as a clean and efficient energy source for energy-intensive processes.

By producing oxygen gas as a result of the combustion reaction, it can be used in various fields from the healthcare sector to industry.

GOALS

Green Hydrogen Production

In hydrogen production, it is planned to increase the production of green hydrogen based on clean energy sources. This will make hydrogen production more environmentally friendly and sustainable.

Efficiency Increase

The aim is to make hydrogen production and storage processes more efficient in the future. This will contribute to the widespread adoption of hydrogen technology by enabling more efficient use of energy resources.

Using Hydrogen in Transportation

More widespread adoption of hydrogen fuel cell technology in the transportation sector is aimed. This will increase the use of hydrogen as a clean and sustainable energy source in areas such as road, rail and marine transportation.

Hydrogen Infrastructure Development

Hydrogen fueling stations and storage facilities are planned to become more numerous and widespread in the future. This will increase the accessibility of hydrogen.

Cost Reduction

The aim is to reduce the costs of hydrogen production, storage and distribution. This will make hydrogen a more cost-effective energy source.

Energy Storage Applications

Hydrogen is expected to be used more in energy storage applications in the future. This will play an important role in maintaining the balance between energy supply and demand.

Global Cooperation

The development and adoption of hydrogen technology will require global cooperation and the establishment of standards. This will promote the use of hydrogen internationally.

Reducing Carbon Footprint

It is planned to adopt more environmentally friendly methods to minimize the carbon footprint of hydrogen production and use. This will enable hydrogen to become a truly clean energy source.

ELECTROLYSIS TECHNOLOGY

ELECTROLYSIS INTEGRATED STATIONS

Solar power plants

Hydroelectric power plants

Wind farms

Transportation sector

Industrial facilities

Agriculture sector

Storage facilities

Settlement areas

ELECTROLYSIS APPLICATION AREAS

Fuel Cell

The hydrogen obtained by electrolysis can be combined with fuel cells to generate electricity, which can be used to meet the need for electrical power.

Space Exploration

Hydrogen gas can be used as an energy source for spacecraft, especially electrolyzed hydrogen gas, which is preferred for spacecraft travel.

Water Purification

Hydrogen produced by electrolysis can be used especially in the purification of industrial wastewater, providing an effective source in water purification processes.

Industrial Usage

The hydrogen gas produced by electrolysis and oxygen as an outlet gas can be used in many industrial processes, from glass production to metal processing, and the resulting oxygen gas can also be stored for industry.

Chemical Production

The hydrogen produced by electrolysis is used in the production of many chemicals such as ammonia, methanol, methane, hydrochloric acid, hydrogen peroxide and provides an important resource for the chemical industry.

Chemical Storage

Hydrogen produced through electrolysis can be used as a chemical energy storage system to store energy from renewable energy sources.

Respect for the Environment, Leadership in Performance: Fuel cells!

Fuel cells are clean, silent, without moving parts and highly efficient technologies for generating electricity and heat energy by electrolysis or from hydrogen-containing gases such as natural gas. Very different from other energy generation technologies, a fuel cell is an electrochemical device that converts the chemical energy of the fuel directly into usable electrical and heat energy.

Fuel cell technology is rapidly becoming widespread in the industrial sector, especially in heavy-duty vehicles, thanks to its zero emission advantage, long range and fast energy storage. In this technology, fuel cell stacks, the packages formed by these stacks, and optimized, verified, high-tech control software are needed for a reliable and long-lasting system.

When planning your fuel cell projects, if you aim to optimize your development process and minimize your costs

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FUEL CELL GLOBAL MARKET

Automotive

Energy

Production

Housing

Defence

Space

FUEL CELL GLOBAL MARKET SHARE

TOHUM provides solutions that emphasize environmental sustainability and energy efficiency in the direction of pioneering engineering services in the wide range of applications of fuel cells, co-generation systems, electrolyzers and hydrogen fuels. From the defense industry to industrial facilities, from the transportation sector to the energy needs of cities, from energy storage systems to homes; TOHUM develops innovative solutions, designs projects, performs system adaptations and increases energy efficiency, reduces carbon emissions and produces sustainable contributions to the energy requirements of the future in line with its customized services.