H2E Research And Development
At H2E, innovation is not just an ambition – it is our everyday life. Each of our machines, each technology and each protocol are the result of continuous research, testing and application of knowledge in the fields of mechanics, chemistry and electrical engineering. Our mission is clear: to develop solutions that clean the engine, extend its service life and at the same time contribute to the preservation of the environment.
Scientifically proven Engine Carbon Cleaning solutions
H2E ECC engine cleaning technology was developed in cooperation with experts and verified through independent tests conducted at the Faculty of Technical Sciences of the University of Novi Sad. Tests showed that the use of H2E decarbonization devices significantly reduces harmful emissions in all internal combustion engines. And, due to the large number of tests performed, H2E technology proved undisputed in vehicles with Euro 3, Euro 4, and Euro 5 engines.
on vehicles with Euro 3, Euro 4 and Euro 5 engines. A decrease in emissions was recorded:
- Soot particles (smoke) on average by 60%
- Carbon monoxide (CO) by an average of 77%
- Hydrocarbons (HC) by an average of 84%
This data confirms that our technology not only helps engines to run more efficiently, but also actively contributes to the reduction of pollution coming from exhaust.
Technology that is being developed in the field
Our decarbonization solution is not created in a closed laboratory, but in direct contact with the real problems that drivers and repairers face every day. Years of experience in the automotive industry and conversation with workshops throughout the region have allowed us to create a system that is both powerful, reliable and easy to use.
At the heart of our approach is electrolysis – a process by which we turn pure water and specially developed electrolytes into a specific gas that enters the engine and helps to safely remove burnt carbon deposits. This process has been worked out in detail in the H2E laboratory, under the supervision of experts in the fields of electrical engineering, chemistry and mechanics.
Safety and efficiency
According to the conclusion of the technical report, the use of the H2E ECC device is considered safe for all parts of the engine assembly, provided it is used in accordance with our protocols. The decarbonization process uses a precisely dosed gas that does not cause damage, but gently removes carbon deposits from the intake valve seats, pistons, exhaust channels, and all other components that are in the path of the working matter (air-fuel mixture and exhaust gases) and are exposed to combustion and high temperatures.
Unlike aggressive methods that require manual engine disassembly, the H2E solution is non-invasive and simple – yet extremely effective.
Constant improvement
Our development team monitors feedback from the field every day and uses it for further system improvements. Each generation of H2E machines comes with improved software, more efficient electrolysers and additional safety mechanisms.
In addition, we work with service providers, partners and drivers to stay in step with the real needs of the market. Our laboratory in Novi Sad works on the development of new models that meet the needs of all types of engines – from passenger cars to commercial vehicles.
Innovative H2E Technology
H2E technology is based on a well-known patent for hydrogen and oxygen manufacturing, and applicable to a number of different industries and markets (not only tied to the car industry). Our technology is patented and protected and it can also be applied in:
Hydrogen and Oxygen Production
Our patent covers the design of the electrolyzer and the process of production of high-quality hydrogen and oxygen, for various industrial applications. H2E technology can be used for water treatment in irrigation, as well as the healthcare sector. Additionally, our compact design allows the introduction of this technology straight into everyone’s homes.
Internal Combustion Engines IndustryÂ
Our technology allows for both intermittent and continuous treatment, as well as cogeneration in internal combustion engines. It is applicable to both passenger and commercial vehicles, agricultural machinery, as well as biogas plants and units that use gaseous fuels.
Large Fuel Consumers
H2E technology can be licensed and used in large fuel consumers, such as:
- Industries with high thermal energy consumption – glass, cement, textile, metal, and other similar energy-intensive sectors
- Thermal power and heating plants – our technology can be used to treat large solid, liquid, or gaseous fluid consumers
Maritime Industry
Our tech can also help reduce emissions and improve combustion efficiency in both large and small marine engines –Â from huge transoceanic cargo ships, to smaller, private vessels, yachts, or private fleets.