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Swedish developer Vattenfall has announced that it has received £9.
3 million funding from the UK government to try to build the world's first on-site hydrogen offshore wind turbine
at its Aberdeen offshore wind farm.
The Aberdeen Offshore Wind Farm is located in the Gulf of Aberdeen, Scotland, about 3km offshore, with an installed capacity of 93.
2MW and 11 Vestas 8MW wind turbines installed (2 of which can be upgraded to 8.
8MW and 9 of which can be upgraded to 8.
4MW), making it the world's first wind farm
with a jacket suction cylinder foundation.
The project was originally scheduled to open in 2015, but was delayed by former U.
S.
President Donald Trump's complaint that the wind farm affected the landscape of his golf course on the coast, and it was not commissioned
until 2018.
Named "Hydrogen Turbine 1", or HT1 for short, Falls will select one of the fans and install a proton exchange membrane (PEM) water electrolysis hydrogen production plant on the jacket platform, and the hydrogen produced will be transported to the port of Aberdeen through an undersea pipeline, with the goal of completion
by 2025.
It is predicted that the fan's daily hydrogen production can cover a hydrogen energy bus of 24,000 km
.
Swedish developer Vattenfall has announced that it has received £9.
3 million funding from the UK government to try to build the world's first on-site hydrogen offshore wind turbine
at its Aberdeen offshore wind farm.
The Aberdeen Offshore Wind Farm is located in the Gulf of Aberdeen, Scotland, about 3km offshore, with an installed capacity of 93.
2MW and 11 Vestas 8MW wind turbines installed (2 of which can be upgraded to 8.
8MW and 9 of which can be upgraded to 8.
4MW), making it the world's first wind farm
with a jacket suction cylinder foundation.
The project was originally scheduled to open in 2015, but was delayed by former U.
S.
President Donald Trump's complaint that the wind farm affected the landscape of his golf course on the coast, and it was not commissioned
until 2018.
Named "Hydrogen Turbine 1", or HT1 for short, Falls will select one of the fans and install a proton exchange membrane (PEM) water electrolysis hydrogen production plant on the jacket platform, and the hydrogen produced will be transported to the port of Aberdeen through an undersea pipeline, with the goal of completion
by 2025.
It is predicted that the fan's daily hydrogen production can cover a hydrogen energy bus of 24,000 km
.
