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H2Globus
First Hydrogen Station in Romania
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H2Globus
Ecology has Become Profitable
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Product

Hydrogen Fuel Station H2Globus

Connect water and electricity to the H2Globus Station. Get an autonomous source of hydrogen for environmentally friendly energy supply for your home, transport and any other needs. All this will last more than 20 years of trouble-free service. In combination with renewable energy sources, the Station makes your household and transport independent of hydrocarbon fuel and its communications

Mission

Our team does not have exact data that our Planet is being destroyed by high levels of CO2, as does no one else on the Planet. But common sense tells us that it is very important to stop using fossil fuels

Documentation

Flyer Station H2Globus
Technical data of the Station
For investors

Download Description of the filling station

Download Technical data of the H2Globus Station

For investors

Studiu de fezabilitate al organizării și dezvoltării unei întreprinderi de proiectare, construcție și întreținere a instalațiilor de energie cu hidrogen

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FAQ

A hydrogen vehicle is an electric vehicle.
Battery electric vehicles (BEV) are powered by charging points connected to the electricity grid;
Fuel cell electric vehicles (FCEV) convert H2 into electricity on board.
The main difference between an electric vehicle and a hydrogen vehicle is in the way in which they store and use energy. Electric vehicles use batteries to store the electricity, while hydrogen vehicles use fuel cells to produce the electricity, and tanks to store hydrogen. Electric vehicles require longer recharging times, while the refueling time for hydrogen vehicles is similar to that of petrol vehicles.
The technologies are complementary.
Using hydrogen for mobility can boost the range (500 to 700 km) and reduce the recharging time (by around 5 minutes for a light vehicle). FCEVs are therefore perfectly suited to intensive and continuous use. BEVs may be used as light vehicles to make short journeys, and may be recharged if there are no limits on time.
Hybrid hydrogen/electric vehicles are available on the market: equipped with both a battery and a fuel cell, they benefit from a recharging system that uses an electric power source with the added advantages of hydrogen

The use of hydrogen as a fuel in vehicles helps to reduce greenhouse gas emissions and atmospheric pollutants. When used in a fuel cell, hydrogen generates electricity and discharges only water. This means it helps to improve air quality and combat climate change.
Hydrogen can be used for all vehicle (carsbusestruckstrainsplanesmachineryboats, etc.).
Hydrogen vehicles offer a similar range to that of combustion engine vehicles. Moreover, hydrogen refueling can also be as fast as petrol refueling, requiring just a few minutes to fill a tank. These two points distinguish hydrogen vehicles from battery electric vehicles.
Finally, using decarbonised hydrogen also helps to reduce reliance on fossil fuels, contributing to energy security and the diversification of energy sources.

In October 2024, was counted “0” hydrogen refueling stations in Romania.

Hydrogen refueling at our H2Globus station is done in accordance with the SAE J2601 standard which sets out a protocol that takes into account the pressure, flow rate and temperature.
The filling speed is approximately 1 kg/minute, or around 5 minutes for a passenger vehicle. Faster refueling is possible for heavy-duty vehicles: around 15 minutes for a bus (30 kg).

Hydrogen is dispensed from a pump in the form of a gas. This means you can «fill up» in just a few minutes by connecting a nozzle to your vehicle’s tank, just like a combustion engine vehicle.
However, because the hydrogen is in its gaseous state, the process used to convey it to the pump differs from that used at a petrol service station.
The hydrogen passes through various modules at the station before arriving at the dispenser. Hydrogen production, compression, storage, dispensing.

H2Globus hydrogen refueling stations are manufactured on an industrial scale.
This is possible thanks to H2Globus’s technological expertise based on the integration of complex diverse expertise in high-pressure environments.
H2Globus stations are formed of at least six main modules:

  • Water preparation
  • Hydrogen production
  • Compression
  • Storage
  • Cooling units
  • Dispenser

In addition to assembling the various modules, our teams design and assemble the piping required for the various components, as well as the electrical components, the automatic system, etc.

Yes, the H2Globus station is autonomous and only requires water and electricity to operate. With an independent source of water and electricity, you will have an independent source of fuel for your vehicles.

Our H2Globus hydrogen filling station produce hydrogen, which is then compressed, stored and supplied to vehicles for refuelling.

Green hydrogen or renewable hydrogen is an energy-carrying gas that emits no CO2, either during its production or when used.
It is obtained by electrolysis of water. This chemical process consists of breaking down the water molecule (H2O) into oxygen (O2) and hydrogen (H2) using an electric current, in this case generated from a renewable energy source such as the sun, wind, water, etc.
Green hydrogen is considered essential to help meet global energy demand while contributing to climate change goals.

With the rise in awareness of climate and environmental issues, many governments have begun to promote the development and use of hydrogen technology through funding schemes.
Europe has launched the Green Deal, a climate plan to achieve the target of carbon neutrality by 2050. This includes massive support for the hydrogen sector to increase hydrogen production and reduce costs.
If you are interested in building the H2Globus station, our company will organize the process of obtaining non-refundable funds to reduce the financial burden on your purchase.

Hydrogen is a volatile and flammable gas, the risks of which are carefully controlled by several levels of protection thanks to the H2Globus safety automation. Hydrogen systems include the latest technological innovations and are subject to extremely rigorous testing. Moreover, they meet strict safety standards.

H2Globus is a manufacturer of Hydrogen Fuel Station. This is possible due to cooperation with leading world manufacturers in the field of hydrogen energy. Most of the equipment used to create the station is of European origin and meets high efficiency and safety requirements.

Yes, of course. Please use the “Chat Now” or fill out the feedback form located at the bottom of the site.

Hydrogen offers a means of decarbonising certain sectors that may prove difficult to electrify, such as heavy goods transport (trucks, trains, ships). By using hydrogen produced using renewable energy sources, these sectors can reduce their greenhouse gas emissions and help to combat climate change.
Unlike some energy carriers, hydrogen can be stored. It can therefore be produced when there is an abundance of renewable energy sources (such as solar and wind), then stored for use when the energy demand is higher or when the renewable energy source is less readily available.
Hydrogen can be used in a variety of applications, from hydrogen fuel cells for producing electricity to industrial applications, heating, and mobility. Its versatility makes it an attractive solution for various sectors, making it popular as a future energy source.
Lastly, by using hydrogen produced from renewable energy sources, it is possible to reduce reliance on fossil fuels. This offers advantages in terms of energy security, diversification of energy sources, and the reduction of atmospheric pollution linked to the use of hydrocarbons. In fact, hydrogen can be produced directly where it is needed by installing an electrolyser.

A hydrogen powered vehicle is usually equipped with a fuel cell.
The fuel cell vehicle is an electric vehicle that produces its own electricity on board.
Once the vehicle has been filled with H2 at the refueling point, the hydrogen is stored in the vehicle before it enters the fuel cell. Inside the cell, the H2 reacts with the oxygen (O2 ) in the air to produce water (H20). This reaction generates electricity which powers the engine, as well as steam which is discharged via the vehicle’s exhaust.
A vehicle powered by green hydrogen does not emit CO2 or greenhouse gas.
Vehicle manufacturers are also working on hydrogen internal combustion engines.

Hydrogen fuel cells are known for their energy efficiency. They can convert hydrogen molecules directly to electricity.
One of the main advantages is the production of electricity without harmful emissions. When hydrogen reacts with oxygen in the air inside the cell, it only releases water. It is therefore a clean technology that does not contribute to greenhouse gas emissions.
Moreover, fuel cells can be used to power quiet, vibration-free vehicles.
Finally, cells perform well in extremely cold conditions, at high altitudes and in thin air, as illustrated by the endurance record set by a Hyundai Nexo during a 6-hour drive at an altitude of 2200 m in December 2021. «Hydrogen» versions of snowplough and snow groomers are also being developed to reduce the carbon footprint of winter sports resorts.

Hydrogen is a powerful energy carrier with a high energy density: 1 kg of hydrogen is equivalent to 3 kg of petrol.
H2 is better known in its gaseous state for mobility applications. Thanks to its lightness and low density, it can be compressed for use, usually to 700 bar for light vehicles and 350 bar for heavy mobility applications.

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H2Globus

First Hydrogen Station in Romania

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