Nothing like it has ever been seen to date. Turquoise hydrogen is one of the most promising energy sources of the future, and everything seems to indicate that it is here to stay and change everything. At least everything as it has been until now. It is the turquoise digrogen, which has emerged as an alternative to conventional hydrogensurpassing the green and blue variants in efficiency and sustainability.
This new fuel is obtained through a pyrolysis process that decomposes methane from natural gas or biogas, releasing hydrogen and carbon in a solid state. Unlike other methods, it avoids releasing carbon dioxide into the atmosphere, which contributes to the reduction of polluting emissions. All a plus that is making many people look surprised and stuporful.
How is a fuel better than conventional hydrogen produced?
By means of the pyrolysis. This mechanism involves the heating of natural gas in the presence of a molten metal, which triggers the decomposition of methane into hydrogen and solid carbon. The latter, in the form of a by-product, has multiple industrial applications. It is used, for example, in the production of carbon fibers for airplanes and automobiles, as well as in reinforcing tires.
The best thing about all this is that does not generate any type of toxic gas or harmful to people or the environment. And this translates into an alternative that must undoubtedly continue to be explored in the face of a clean, pure and free future. A future where each and every one of us is able to take the car without fear of contaminating our lungs. A future where we see that, more and more, people are interested in ensuring the health of the planet itself.
The role of dihydrogen turquoise in decarbonization
The production of turquoise hydrogen is aligned with the goal of achieving carbon neutrality globally. By not generating carbon dioxide emissions during its production, this fuel has the potential to replace other less ecological ones, which would contribute significantly to the reduction of the carbon footprint in key industrial sectors. Furthermore, its ability to take advantage of resources such as natural gas and biogas makes it a sustainable option for the transition towards a cleaner energy model.
Commercial application
Companies such as the Japanese Ebara, in association with research institutes, have perfected the method to bring turquoise dihydrogen to the market from 2026. That is, only two years separate us from being able to enjoy (at least some) clean energy that produces great benefits for the earth and humanity itself. This project is supported by the Japanese government and is based on the independent extraction of hydrogen and carbon in separate reactors, allowing different types of solid carbon to be obtained without affecting hydrogen production. With this novel approach, it seeks to satisfy the growing demand for energy with a clean, efficient and affordable fuel. Putting the emphasis on affordable, especially if we consider how expensive it can be to be “sustainable” today.
A promising future that we all want to see
With global energy demand constantly growing, the dihydrogen Turquoise has the potential to become a fundamental pillar for the decarbonization of the global economy. Its clean and efficient production process promises to revolutionize the way hydrogen is produced, opening new opportunities for industries seeking energy sources with a low environmental footprint. If this fuel manages to deliver on its promises, it could be the catalyst for significant change towards a sustainable future. All of this is news that will not only change the way we “refuel,” but also that of humanity itself.
