It seems I have to humble brag, again, but there's an article up at The Guardian about the technical issues with the troubled Sun Cable project which indicates that my hunch that this idea wasn't likely to fly was correct:
The problems are technical, economic and even
geopolitical. Giving some observers solace is the presence of David
Griffin, Sun Cable’s founder and chief executive, who is a veteran of
the renewable industry. “He’s very competent at these kinds of things,”
said one industry insider. “He loves obstacles, he loves challenges.”
Griffin
will have many of these. Georgious Konstantinou, a senior lecturer in
energy systems at the University of New South Wales, said the length of
the cable alone makes the project “extremely ambitious”.
Konstantinou said a global desktop study done three years ago researching the feasibility of building power links between different regions was not promising for Sun Cable.
“It
ended up with the Australian connections being way more difficult and
way costlier than any of the other links that you would have around the
world,” he said, adding the depth of waters to be crossed – such a 2km
deep Timor trench – was a key issue.
“So when
Sun Cable says ‘we can actually do that’, it makes you think what are
the differences do they see compared to what everyone else is thinking?”
Konstantinou
estimates energy losses even with the best high voltage direct current
technology would be at least 15%. Boosters would also be needed to
ensure voltage is maintained for the end users, such as Singapore.
Singapore itself is yet to commit funds or sign up
as a customer. Sun Cable would need to offer the island nation an
ultra-low price if it’s to rely on one supplier for 15% of its
electricity, not least because it would need back-up in case of sudden
failure, Andrew Blaker, an energy expert at the Australian National
University, said.
“If you, in the space of half
a second, took out 15% of Australia’s electricity supply, Australia’s
grid might have a few problems,” said Blakers, who describes himself as
“cautiously sceptical” of Sun Cable’s prospects.
Singapore’s
Energy Market Authority declined to comment on Sun Cable’s
administration. A spokesperson, though, told Guardian Australia the
authority had “received more than 20 proposals to import electricity
from countries including Indonesia, Laos, Malaysia and Thailand”.
“We remain on track to meet our imports target of 4GW by 2035,” she said.
Blakers
said Sun Cable’s going to face “very stiff competition from similar
projects located in northern Indonesia or on hydroelectric reservoirs in
Borneo because they are within 50 to 500 or so kilometres across the
shallow sea from Singapore”.
While the solar resource is “not quite so good” in those regions
compared with the Northern Territory, “it’s still pretty good”, he said.
“I just wish they would turn the cable around and send [the power]
south” to markets in southern Australia.
Dylan McConnell, an energy expert also with UNSW,
said the estimated cost and timing of the venture of $30bn seem
unrealistic compared with projects being developed in Australia.
The
proposed Marinus Link, for instance, involves a 250km HVDC link across
Bass Strait at an average depth of about 60m. The combined capacity in
two stages would be 1.5GW with a total of more than $3bn. Stage 1, at
750MW, would be built by 2028 on current plans.
“Sun
Cable, on the other hand, is set to be almost 17 times longer, about
twice as much capacity , and is through the Timor Sea,” McConnell said.
“It’s also between two countries and through Indonesia’s territorial
waters, and was apparently targeting ‘first delivery ‘ to Singapore in
2027.”
“It’s difficult to imagine how you might
deliver that, alongside about 20GW of solar and about 40GW-hours of
storage for [$30bn],” he said.
OK, so it seems the project is looking technically and/or economically dubious.
Which raises the question, how reliable is the judgement of Infrastructure Australia, which ticked off on it 6 months ago:
Infrastructure Australia has provided its endorsement for the
economic benefits of the Australia-Asia PowerLink (AAPowerLink), which
would export solar power from the Australian outback to Singapore via a
submarine transmission link.
The endorsement ensures that the
project can advance to third-stage, “investment-ready” status on
Infrastructure Australia's priority list, opening the door for
government funding.
