Showing posts with label Green Hydrogen. Show all posts
Showing posts with label Green Hydrogen. Show all posts

Sunday, December 8

Hydrogen Teleported for the First Time


There is decarbonization that the world seems to be racing toward; hydrogen is seen to be one of the players in the clean energy revolution. Storage and transport remain big challenges in hydrogen, but innovations such as Liquid Organic Hydrogen Carriers or LOHC are remolding the face of hydrogen, making it more affordable and efficient in distributing it. 

Recently, pioneering projects that prove the high-demand and transformative use of this technology in the UK and Scotland are occurring for global implications about greener tomorrow.


Green hydrogen transport utilizing oil infrastructure is a pioneering effort by Exolum

In a historic first, Exolum has created the world’s first commercial-size project that uses existing oil infrastructure to transport and store green hydrogen. It is based at the largest freight port in England, Immingham, and the project depends on organic hydrogen carriers, compounds that can store hydrogen in liquid form in a safe manner.     READ MORE...

Thursday, February 23

Green Hydrogen


Decarbonising the planet is one of the goals that countries around the world have set for 2050. To achieve this, decarbonising the production of an element like hydrogen, giving rise to green hydrogen, is one of the keys as this is currently responsible for more than 2 % of total global CO2 emissions. 

Decarbonising the planet is one of the goals that countries around the world have set for 2050. To achieve this, decarbonising the production of an element like hydrogen, giving rise to green hydrogen, is one of the keys as this is currently responsible for more than 2 % of total global CO2 emissions. Find out how this is achieved and what its impact will be in the coming decades.

Green hydrogen is efficient and 100 % sustainable, with some experts predicting that it will be the fuel of the future.  Our way of life needs an increasing amount of watts to function. The latest estimates by the International Energy Agency (IEA), published at the end of 2019, predict that global energy demand will increase by between 25 % and 30 % by 2040, which in an economy dependent on coal and oil would mean more CO2, exacerbating climate change. However, decarbonising the planet suggests a different world in 2050: one that is more accessible, efficient and sustainable, and driven by clean energies such as green hydrogen.

WHAT IS GREEN HYDROGEN AND HOW IS IT OBTAINED?
This technology is based on the generation of hydrogen — a universal, light and highly reactive fuel — through a chemical process known as electrolysis. This method uses an electrical current to separate the hydrogen from the oxygen in water. If this electricity is obtained from renewable sources we will, therefore, produce energy without emitting carbon dioxide into the atmosphere.

As the IEA points out, this method of obtaining green hydrogen would save the 830 million tonnes of CO2 that are emitted annually when this gas is produced using fossil fuels. Likewise, replacing all grey hydrogen in the world would require 3,000 TWh/year from new renewables — equivalent to current demand of Europe. However, there are some questions about the viability of green hydrogen because of its high production cost; reasonable doubts that will disappear as the decarbonisation of the earth progresses and, consequently, the generation of renewable energy becomes cheaper.  READ MORE...