SCL TECHNOLOGY
We use energy provided by nature to create more innovative and efficient 'Green Hydrogen Energy'.
Hydrolysis technology using sea water
Product : SCL H2 Sublimer 301
The only technology that directly hydrolyzes seawater.
A sustainable future energy technology that will be absolutely necessary where fresh water is scarce.
Critical-temperature hydrolysis technology using renewable energy sources
Product : SCL H2 Sublimer 601
SCL Energy's proprietary technology uses thermochemical water hydrolysis at crtitical-temperatures using turbines to create renewable energy efficiently by drastically lowering the production cost of hydrogen.
Korea’s Original Technology
SCL Energy's thermochemical water hydrolysis, e-Beam, uses renewable energy sources combining innovation and economical feasibility. This combination will ensure the sustainability of the hydrogen economy by lowering the production costs of hydrogen production. Affordability, scalability, and SCL Energy's technology can allow green hydrogen production on mass scale.
SCL System
1. Use of Seawater
- Producing hydrogen using seawater without desalination.
- Dramatically lowered costs due to the abundance of sea water and eliminating the need for fresh water
2. Use of Renewable Energy
- Produce green hydrogen using wind and solar energy
Green Hydrogen Economy
Best Green Energy
Green H2 Energy Mobility
Hydrogen energy can be used in various ways in the field of mobility. Hydrogen vehicles, which use hydrogen as fuel, use electricity as a driving force, just like electric vehicles. Unlike electric vehicles, hydrogen fuel cells are used to generate electricity. Hydrogen vehicles using hydrogen fuel cells offer higher energy density and longer mileage compared to electric vehicles, as the charging times are much faster, and the only by-product emitted is water vapor.
Commercialization of Green H2 Energy
Green H2 Energy Space Industry
The hydrogen space business refers to technology development and research that uses hydrogen to enable space exploration, travel, and eventual habitation. Hydrogen is light with a high energy density, so it can be used as a fuel for space flights.
Hydrogen-powered space flights can generate more energy, travel faster and farther than chemically-fueled space flights.
The hydrogen space business is expected to become more important with the development of space flight technology. Although it is currently in the research stage, it is expected that more research and development will be done in the future, and that technological progress in this field will be further accelerated.
Commercialization of Green H2 Energy
Green H2 Energy Industry
Hydrogen steel manufacturing is a technology that produces iron using hydrogen without using fossil fuels, such as coal, in existing steel manufacturing process. This can greatly reduce air pollution and carbon emissions from the existing steel manufacturing process, and can be a more eco-friendly alternative.
The H2 steel manufacturing process uses chemical reactions that occur during the firing of iron ore using H2 instead of the coal used in traditional steel manufacturing. This allows the production of ferro hydrogen alloys composed of iron and hydrogen. Hydrogen iron alloy has a higher strength than conventional iron, and has the advantage of being able to be heat treated by reacting with hydrogen in the atmosphere and heating it.
The H2 steel manufacturing process also plays an important role in reducing carbon emissions from steel manufacturing. In the conventional steel manufacturing process, iron ore is heated using carbon and as a result large amounts of carbon dioxide is generated.
On the other hand, H2 steel manufacturing process produces iron only through a chemical reaction between hydrogen and iron ore, so there is minimal carbon dioxide emission.
