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What is Power-to-X? The technology explained in a simple and short manner.
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Power-to-X: Check out this short and easily explained animation video to find out what is behind Power-to-X. We share with you how PtX is produced by using green hydrogen and how the PtX technology works. You will also learn which hydrogen derivatives, Power-to-X applications and energy carriers are available.
You can find more valuable information on the topic of hydrogen and Power-to-X in our blog. In our blog, we regularly keep you up to date with technical articles on numerous key topics related to hydrogen as well as Power-to-X applications. Browse through the numerous hydrogen blog articles and let us inspire you and expand your knowledge.
Our hint for you: Subscribe to our newsletter today so that you will never miss a new blog article on the topic of hydrogen and its derivatives (P2X):
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★ AS-Schneider Blog ★:
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According to Climate Change Conference COP21 and COP26, a shift to Carbon-free energy for reducing carbon emissions, is the way to fight climate change.
That’s where hydrogen and its derivatives popularly known as Power-to-X become even more important.
But what is Power-to-X?
To begin with, green hydrogen is a necessity for the production of PtX derivatives.
Green hydrogen is based on renewable energy such as wind power or solar energy.
The renewable electricity is used for the electrolysis process, which splits water into oxygen and hydrogen in a CO2-neutral way.
Hydrogen itself can be used directly or after its change into other types of fuel.
CO or CO2 is then added to the green hydrogen dependent on the process used to produce several energy carriers.
The "X" in Power-to-X stands for these different energy carriers.
For example, you can produce green ammonia, which is already used in fertilizer production.
You can produce green methane.
Synthetic natural gas can act as a transition resource in the eventual replacement of fossil fuels with synthetic fuels.
But you can also produce liquid fuels, like diesel, gasoline, synthetic kerosene, for use in aviation and shipping.
Ultimately, we include all these energy sources under the umbrella term Power-to-X.
Power-to-X technologies can be subdivided according to intended use or form of energy.
Power-To-X technologies by usage includes
• Power-to-Fuel
• Power-to-Chemicals
• Power-to-Ammonia
• Power-to-Power
• Power-to-Protein
• Power-to-Syngas
Similarly, Power-to-X technologies by energy form includes
• Power-to-Gas
• Power-to-Liquid
• Power-to-Heat
Green hydrogen and its derivates are the gateway to a climate-neutral world.
#Hydrogen #PowerToX #PtX
You can find more valuable information on the topic of hydrogen and Power-to-X in our blog. In our blog, we regularly keep you up to date with technical articles on numerous key topics related to hydrogen as well as Power-to-X applications. Browse through the numerous hydrogen blog articles and let us inspire you and expand your knowledge.
Our hint for you: Subscribe to our newsletter today so that you will never miss a new blog article on the topic of hydrogen and its derivatives (P2X):
▬▬▬▬
★ AS-Schneider Blog ★:
▬▬▬▬
According to Climate Change Conference COP21 and COP26, a shift to Carbon-free energy for reducing carbon emissions, is the way to fight climate change.
That’s where hydrogen and its derivatives popularly known as Power-to-X become even more important.
But what is Power-to-X?
To begin with, green hydrogen is a necessity for the production of PtX derivatives.
Green hydrogen is based on renewable energy such as wind power or solar energy.
The renewable electricity is used for the electrolysis process, which splits water into oxygen and hydrogen in a CO2-neutral way.
Hydrogen itself can be used directly or after its change into other types of fuel.
CO or CO2 is then added to the green hydrogen dependent on the process used to produce several energy carriers.
The "X" in Power-to-X stands for these different energy carriers.
For example, you can produce green ammonia, which is already used in fertilizer production.
You can produce green methane.
Synthetic natural gas can act as a transition resource in the eventual replacement of fossil fuels with synthetic fuels.
But you can also produce liquid fuels, like diesel, gasoline, synthetic kerosene, for use in aviation and shipping.
Ultimately, we include all these energy sources under the umbrella term Power-to-X.
Power-to-X technologies can be subdivided according to intended use or form of energy.
Power-To-X technologies by usage includes
• Power-to-Fuel
• Power-to-Chemicals
• Power-to-Ammonia
• Power-to-Power
• Power-to-Protein
• Power-to-Syngas
Similarly, Power-to-X technologies by energy form includes
• Power-to-Gas
• Power-to-Liquid
• Power-to-Heat
Green hydrogen and its derivates are the gateway to a climate-neutral world.
#Hydrogen #PowerToX #PtX
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