Science, Art, Litt, Science based Art & Science Communication
The rainbow colours of Hydrogen!
Krishna: Just want to know about black hydrogen? I am going to show you a rainbow of colours now!
Hydrogen is an invisible gas. But Hydrogen was given a rainbow of colours depending on different types of technology used to produce each. However, there is no visible difference between the different types of hydrogen.
Green hydrogen, blue hydrogen, brown hydrogen and even yellow hydrogen, turquoise hydrogen and pink hydrogen. They’re essentially colour codes, or names used within the energy industry to differentiate between the types of hydrogen.
Let us see what they are now
Green Hydrogen: In the kaleidoscope of hydrogen colours, green hydrogen is the one produced with no harmful greenhouse gas emissions. Green hydrogen is made by using clean electricity from surplus renewable energy sources, such as solar or wind power, to electrolyse water. Electrolysers use an electrochemical reaction to split water into its components of hydrogen and oxygen, emitting zero-carbon dioxide in the process.
Blue Hydrogen: This is produced mainly from natural gas, using a process called steam reforming, which brings together natural gas and heated water in the form of steam. The output is hydrogen – but also carbon dioxide as a by-product. That means carbon capture and storage (CCS) is essential to trap and store this carbon. Blue hydrogen is sometimes described as ‘low-carbon hydrogen’ as the steam reforming process doesn’t actually avoid the creation of greenhouse gases.
Grey Hydrogen: Currently, this is the most common form of hydrogen production. Grey hydrogen is created from natural gas, or methane, using steam methane reformation but without capturing the greenhouse gasses made in the process.
Black and brown Hydrogen: Using black coal or lignite (brown coal) in the hydrogen-making process, these black and brown hydrogen are the absolute opposite of green hydrogen in the hydrogen spectrum and the most environmentally damaging.
Any hydrogen made from fossil fuels through the process of ‘gasification’ is sometimes called black or brown hydrogen interchangeably.
Pink or purple or red Hydrogen: Pink hydrogen is generated through electrolysis powered by nuclear energy. Nuclear-produced hydrogen can also be referred to as purple hydrogen or red hydrogen.
Turquoise Hydrogen: This is a new entry in the hydrogen colour charts and production has yet to be proven at scale. Turquoise hydrogen is made using a process called methane pyrolysis to produce hydrogen and solid carbon. In the future, turquoise hydrogen may be valued as a low-emission hydrogen, dependent on the thermal process being powered with renewable energy and the carbon being permanently stored or used.
Yellow hydrogen: This is a relatively new phrase for hydrogen made through electrolysis using solar power.
White Hydrogen: This is a naturally-occurring geological hydrogen found in underground deposits and created through fracking.
In the future, some hydrogen colours may fade in importance and others become brighter. What’s certain is that the hydrogen rainbow will play a significant role in reaching net zero, as we reduce our historical reliance on fossil fuels.
Views: 44
Replies to This Discussion
-
Permalink Reply by Dr. Krishna Kumari Challa on
-
36
The colors of hydrogen
Hydrogen has emerged as the energy technology that could help nations like Australia to decarbonize their economies. But did you know that, beyond green and blue hydrogen, there's a whole rainbow of hydrogen types?
Swinburne University of Technology's Victorian Hydrogen Hub (VH2) is delving deeper than anyone has before to explore the extreme limits of what hydrogen can deliver, including investigating the capabilities of the hydrogen rainbow.
Hydrogen is the most common element in the universe, a colorless, odorless, tasteless yet flammable substance. Despite its massive abundance throughout the universe, it is virtually non-existent in its original form on Earth and requires energy to release it from the material forms where it is found. It forms part of other common chemical compounds such as water (H₂O), methane (CH₄) and ammonia (NH₃), which is often found in fertilizer and cleaning products.
Several chemical processes have been invented to harness the energy of hydrogen, all of which have environmental strengths and weaknesses. The hydrogen industry has assigned colored nicknames to each hydrogen process, based on the source it was produced from and the process used to separate it from that source.
One of the VH2's leading hydrogen experts, Dr. Kim Beasy, takes us on a journey over the rainbow, starting with some of the most commonly-discussed types of hydrogen, ordered from most sustainable to least, before exploring a few more experimental and emerging types.
Green hydrogen
Green hydrogen is produced through electrolysis, a process where electric currents from surplus renewable energy sources (such as solar or wind power) separate water into hydrogen and oxygen molecules. The hydrogen is then stored as an energy vector, which allows the transferring, in space and time, of a quantity of energy.
Because the energy used in this process comes from renewable sources, the process does not release any carbon emissions into the atmosphere. However, green hydrogen is more expensive than gray hydrogen, another promising form in the industry.
Yellow hydrogen
Yellow hydrogen is a relatively new concept, referring to hydrogen that is specifically produced through electrolysis using solar energy.
Blue hydrogen
Blue hydrogen is produced through steam reformation, a process that uses steam to separate hydrogen molecules from natural gas. This process produces carbon emissions, though most are stored underground or repurposed.
It is sometimes described as "low-carbon hydrogen" as the steam reforming process doesn't actually avoid the creation of greenhouse gases. But unlike gray hydrogen (described below), it promises the cost benefits of steam reformation without the pollution.
Gray hydrogen
Gray hydrogen is produced through steam reformation of natural gas in the same way as blue hydrogen. However, none of the carbon is captured in this process. Instead, all of the carbon emissions are released into the atmosphere.
Brown hydrogen
Brown hydrogen is produced by gasification, where carbonous materials are heated into a gas. This extraction process involves turning coal into gas and produces large quantities of carbon emissions that are released into the atmosphere.
Any hydrogen made from fossil fuels via gasification is often called black hydrogen or brown hydrogen interchangeably.
Turquoise hydrogen
Turquoise hydrogen is extracted through methane via a process called methane pyrolysis, where fossil fuels are heated to such high temperatures that the fuel decomposes into hydrogen and solid carbon, emitting no carbon emissions.
Turquoise hydrogen is similar to blue hydrogen but has only been used experimentally. The hydrogen is captured as a gas, and the solid carbon that falls to the ground can be buried underground or used in industrial processes. The entire process still results in fugitive methane emissions from natural gas extraction.
Pink hydrogen
Pink hydrogen, also known as purple hydrogen or red hydrogen, uses the electrolysis method. However, instead of being powered through renewable energy, it is powered through nuclear energy.
While there are few carbon emissions produced with this method, there can be other environmental impacts such as the production of radioactive nuclear waste.
White hydrogen
White hydrogen is naturally-occurring geological hydrogen found underground through the by-product of industrial processes such as oil or natural gas extraction (fracking).
There is not much known about white hydrogen, with research currently underway. In its production, there are few carbon emissions created. But, like pink hydrogen, there can be other environmental impacts.
-
Badge
Birthdays
Birthdays Today
Birthdays Tomorrow
© 2024 Created by Dr. Krishna Kumari Challa.
Powered by
