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Tag: Hywind Scotland

Masdar: Using technology to power a sustainable future

Posted on by dishanth
Masdar: Using technology to power a sustainable future
Renewable energy company Masdar has been making strides towards its sustainability goals by utilising the latest technology

As a global leader in renewable energy and green hydrogen, Masdar has pioneered commercially viable solutions in clean energy, sustainable real estate and clean technology in the UAE and around the world for over a decade.

Headquartered in Abu Dhabi, UAE, the business is currently developing large-scale renewable energy initiatives, in a bid to drive the progression of clean technologies and further grow technology in the renewable energy sector. In doing so, Masdar is focused on creating new long-term revenue streams for the UAE.

How is Masdar utilizing technology to boost sustainable energy?

Committed to advancing clean-tech innovation, Masdar utilises technology to enhance the renewable energy sector.

Masdar hosts a range of wind farms in its offshore project portfolio, including sites in London Array and the Dudgeon Offshore Wind Farm in the United Kingdom. The business has also partnered with Hywind Scotland, the world’s first floating offshore wind farm.

Additionally, Masdar deploys solar photovoltaic (PV) technology in utility-scale and off-grid solar power plants and rooftop systems, including monocrystalline silicon panels, polycrystalline silicon panels, and thin-film panels.

Depending on the solar potential, geographical location, and financial requirements of a specific solar PV project, a suitable PV system is implemented to meet the project’s needs.

Likewise, concentrated solar power (CSP) systems – which use mirrors to focus a large area of sunlight onto much smaller areas – are used to convert concentrated light into heat, to drive a heat engine connected to an electrical power generator. CSP systems have become known as a promising solar power technology for large-scale power generation.

When CSP and thermal energy storage (TES) are used together, it is capable of producing constant power for up to 24 hours a day.

Masdar’s sustainability commitments

With the aim of investing and actively supporting the development of young people, Masdar strives to help support the sustainability leaders of tomorrow through its Youth 4 Sustainability (Y4S).

His Highness Sheikh Khaled bin Mohamed bin Zayed Al Nahyan, Crown Prince of Abu Dhabi invested in the initiative, ensuring it aligned with the United Nations Sustainable Development Goals to bolster the nation’s sustainability efforts.

By 2030, Y4S aims to reach up to one million youth, creating awareness of the skills needed for future jobs in sustainability.

 

 

 

 

Source Sustainability

Huge floating wind farms are being planned off the coast of Australia

Posted on by dishanth
Huge floating wind farms are being planned off the coast of Australia

Key Points

  • At this moment in time, Australia has no offshore wind farms.
  • Floating offshore wind turbines are different to bottom-fixed offshore wind turbines that are rooted to the seabed. One advantage of floating turbines is that they can be installed in deeper waters compared to bottom-fixed ones.
  • The Global Wind Energy Council estimates that over 235 GW of offshore wind capacity will be installed across the next decade.

 

Plans for three major offshore wind developments in Australia have been announced, with two of them set to incorporate floating wind technology.

In a statement Wednesday, Madrid-headquartered BlueFloat Energy said it was looking to develop the projects with advisory firm Energy Estate, which has a presence in the Australian cities of Sydney, Canberra and Adelaide.

The proposed facilities are the 1.4 gigawatt Hunter Coast Offshore Wind Project, which would be in waters off Newcastle, New South Wales; the Wollongong Offshore Wind Project, set to have a capacity of 1.6 GW and be spread across two sites off Wollongong, New South Wales; and the 1.3 GW Greater Gippsland Offshore Wind Project, planned for waters off Victoria’s Gippsland region.

According to BlueFloat Energy, the Hunter Coast and Wollongong projects will utilize floating wind technology. The Greater Gippsland wind farm will be a bottom-fixed development.

“Offshore wind energy is booming globally and now it is Australia’s time,” Carlos Martin, BlueFloat Energy’s CEO, said in a statement.

“We are excited by the prospect of introducing the two types of offshore wind technology … into Australia, as this will enable us to harness some of the best offshore wind resources globally.”

 

It comes after a report from the Global Wind Energy Council revealed that 6.1 GW of offshore wind capacity was installed in 2020, a small decrease compared to 6.24 GW in 2019.

The GWEC’s report, published earlier this year, forecasts that over 235 GW of offshore wind capacity is set to be installed across the next decade, however, with overall capacity hitting 270 GW by the year 2030.

Australia currently has no offshore wind farms. Toward the end of November its parliament endorsed laws which authorities said would “support the development of Australia’s offshore energy industry and deliver new jobs and investment in offshore windfarms and transmission projects.”

In a statement at the time, Angus Taylor, Australia’s minister for industry, energy and emissions reduction, said the legislation would “accelerate a number of key projects already under development.”

These include Star of the South, another offshore wind farm that’s been proposed for waters off the coast of Gippsland. Those behind the project say if Star of the South is “developed to its full potential” the facility will power roughly 1.2 million homes in the state of Victoria.

 

Over the past few years, a number of firms have become involved with floating offshore wind projects.

Back in 2017 Norway’s Equinor opened Hywind Scotland, a 30 megawatt facility it calls “the first full-scale floating offshore wind farm.”

Then in September 2021, another Norwegian company, Statkraft, said that a long-term purchasing agreement related to a floating offshore wind farm dubbed “the world’s largest” had started.

Elsewhere, RWE Renewables and Kansai Electric Power announced in August that they had signed an agreement that will see them look into the “feasibility of a large-scale floating offshore wind project” in waters off Japan’s coast.

Floating offshore wind turbines are different to bottom-fixed offshore wind turbines that are rooted to the seabed. One advantage of floating turbines is that they can be installed in deeper waters compared to bottom-fixed ones.

RWE has described floating turbines as being “deployed on top of floating structures that are secured to the seabed with mooring lines and anchors.”

 

 

Source CNBC