The China Mail - China trials 'energy-saving' underwater data centres

On a wharf near the city, workers were finishing off the large yellow capsule -- a foray into alternative tech infrastructure that faces questions over its ecological impact and commercial viability.

The world's websites and apps rely on physical data centres to store information, with growing use of artificial intelligence contributing to skyrocketing demand for the facilities.

"Underwater operations have inherent advantages," said Yang Ye of maritime equipment firm Highlander, which is developing the Shanghai pod with state-owned construction companies.

Undersea servers are kept at a low temperature by ocean currents, rather than the energy-intensive air cooling or water evaporation required by centres on land.

The technology was trialled by Microsoft off the coast of Scotland in 2018, but the Chinese project, to be sunk in mid-October, is one of the world's first commercial services of its kind.

It will serve clients such as China Telecom and a state-owned AI computing company, and is part of a broader government push to lower data centres' carbon footprint.

"Underwater facilities can save approximately 90 percent of energy consumption for cooling," Yang, vice president of Highlander, told AFP.

Projects like this are currently focused on showing "technological feasibility", said expert Shaolei Ren from the University of California, Riverside.

Microsoft never built commercially on its trial, saying after retrieving its pod in 2020 that the project had been successfully completed.

Significant construction challenges and environmental concerns have to be overcome before underwater data centres can be deployed on a mass scale, said Ren.

In China, government subsidies are helping -- Highlander received 40 million yuan ($5.62 million) for a similar 2022 project in Hainan province that is still running.

- Technical challenges -

"The actual completion of the underwater data centre involved greater construction challenges than initially expected," said Zhou Jun, an engineer for Highlander's Shanghai project.

Built onshore in separate components before being installed in the sea, it will draw nearly all its power from nearby offshore wind farms.

Highlander says that more than 95 percent of the energy used will come from renewable sources.

The most obvious challenge in placing the structure under the waves is keeping its contents dry and safe from corrosion by salt water.

The Chinese project addresses this by using a protective coating containing glass flakes on the steel capsule that holds the servers.

To allow maintenance crews access, an elevator will connect the main pod structure to a segment that remains above the water.

Ren from UC Riverside said laying the internet connection between an offshore data centre and the mainland was a more complex process than with traditional land servers.

Researchers at the University of Florida and the University of Electro-Communications in Japan have also found that sub-marine data centres can be vulnerable to attacks using sound waves conducted through water.

- Ecological unknowns -

Technical hurdles aside, the warming effect of underwater data centres on the surrounding water has raised questions about the impact on marine ecosystems.

Andrew Want, a marine ecologist at the University of Hull, said the heat emitted could in some cases attract certain species while driving away others.

"These are unknowns at this point -- there's not sufficient research being conducted yet," he said.

Highlander told AFP a 2020 independent assessment of the company's test project near Zhuhai, in southern China, indicated that the surrounding water stayed well below acceptable temperature thresholds.

However, Ren warned that scaling up centres would also scale up the heat given off.

He stressed that "for megawatt-scale data centres underwater, the thermal pollution problem needs to be studied more carefully".

Offshore facilities can complement standard data centres, Ren suggested.

"They're probably not going to replace existing traditional data centres, but can provide service to some niche segments."

V.Liu--ThChM