Science

Google’s future data centers will be built next to solar and wind farms

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4 days ago

December 10, 2024

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In what it’s calling a “first-of-its-kind partnership,” Google will collaborate with developers to build data centers powered by renewable energy generated on-site.

It’s partnering with energy company Intersect Power and investment firm TPG Rise Climate on a $20 billion initiative to develop an unspecified number of “industrial parks” across the US this decade. The first one is supposed to be partially operational by 2026 and completed by 2027.

If successful, it would be a big change to how data centers are typically built and operated. Google and its competitors are racing to find clean sources of electricity for energy-hungry AI data centers. But the US electricity mix is still dominated by fossil fuels; connecting new data centers to the power grid leads to more pollution as a result. With this new partnership, Google can bypass that problem by connecting directly to solar and wind farms and batteries for renewable energy.

“The scale of AI presents an opportunity to completely rethink data center development.”

“To realize AI’s potential, the growth in electricity demand must be met with new, clean power sources. The scale of AI presents an opportunity to completely rethink data center development,” Amanda Peterson Corio, global head of data center energy at Google, said in a press release.

Google and its partners are being coy about details at the moment. The partnership aims to build out “gigawatts” of new capacity, but Google and Intersect declined to say exactly how much. They’re still figuring out how many data centers and renewable energy power plants they plan to build and where they would be located. But tech companies ought to be thinking about bringing data centers to places where renewable energy is plentiful, Intersect Power CEO Sheldon Kimber tells The Verge.

“It’s time for the industry to really develop with more of a power-first mentality,” Kimber says. “And when you start with power first, you start with renewables, and you start with the high solar and wind areas of the country.”

Doing so could lead data center development away from where it’s historically been concentrated. Around 70 percent of internet traffic passes through Virginia’s “data center alley,” for instance. Growing power demand from AI has extended the lifespan of aging coal-fired power plants nearby, raising concerns about data centers exacerbating climate change and worsening air quality.

“Data Center Alley and the existing big data center markets, they’re tough for power, right?” Kimber says. Affordable energy costs tend to attract tech companies to Virginia and similar data center hubs. But there’s not enough land available there for renewables, Kimber says. Their proximity to densely populated areas (another reason so many data centers were originally concentrated in these places) also makes it more difficult to build out new energy infrastructure.

Compared to traditional data centers built to shepherd people’s emails and videos, latency isn’t as big of an issue for new facilities used to train AI. That should free Google up a bit to chase the wind and sun with this new partnership.

The other big difference with a deal like this is that Google is essentially telling utilities that it’ll take care of its own electricity needs and energy infrastructure for new data centers. Intersect Power would develop, own, and operate the co-located power plant. Google would either build its data center at the same site or rent the data center campus from Intersect Power and purchase the electricity it generates. That should take some pressure off utilities since they wouldn’t have to pay for new infrastructure to accommodate the data center, which might otherwise have led to higher utility bills for customers in the region.

Intersect Power also announced $800 million in funding led by Google and TPG Rise Climate. That doesn’t mean it’s all smooth sailing ahead, of course. Intersect Power will have to raise the rest of the money needed to build out the industrial parks. The facilities will still need to connect to the local power grid — as a backup source of power — which can take years to approve.

But the “bring your own power” strategy is supposed to speed up the transition to renewable energy, one that’s sorely needed as greenhouse gas emissions from fossil fuels worsen climate disasters and take tech companies further away from their climate goals. Google’s carbon footprint has grown 48 percent since 2019, despite a goal it set for itself of slashing that pollution in half by the end of the decade.

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Science

NASA thinks it’s figured out why the Mars helicopter crashed

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1 day ago

December 13, 2024

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Ahead of a full technical report that’s expected to be released in the next few weeks, engineers from NASA’s Jet Propulsion Laboratory and AeroVironment have revealed what’s believed to be the cause of the Ingenuity Mars Helicopter’s crash on January 18th, 2024. The craft’s vision navigation system, which was designed to track textured features on the surface of Mars, was confused by a featureless stretch of rippled sandy terrain, resulting in incorrect velocity estimates that led to a hard landing.

Relying on remote data, including photographs taken after the flight, the investigators believe that “navigation errors created high horizontal velocities at touchdown,” which most likely resulted in Ingenuity experiencing a “hard impact on the sand ripple’s slope,” causing it to pitch and roll.

A graphic shared by NASA depicts what’s thought to be the most likely scenario for Ingenuity Mars Helicopter’s final flight.

Illustration: NASA/JPL-Caltech

NASA’s engineers originally assumed that Ingenuity’s spinning rotor blades were damaged after making contact with the surface of Mars during the crash. They now believe they snapped off because “the rapid attitude change resulted in loads on the fast-rotating rotor blades beyond their design limits.” A part of one of the rotor blades was located about 49 feet away from the craft’s final resting place.

Communications were lost during the crash as a result of excessive vibration in the damaged and unbalanced rotor system that resulted in an excessive power demand. However, despite being permanently grounded, communications were reestablished the next day, and Ingenuity “still beams weather and avionics test data to the Perseverance rover about once a week,” which NASA says “is already proving useful to engineers working on future designs of aircraft and other vehicles for the Red Planet.”

Initially designed to perform only up to five experimental flights over the course of a month on Mars, Ingenuity operated for almost three years and accumulated over two hours of flight time across 72 flights.

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Science

Biden administration raises tariffs on solar materials from China

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2 days ago

December 12, 2024

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Tariffs on solar wafers, polysilicon, and certain tungsten products from China are going to rise dramatically come January 1st, 2025, the Biden administration announced Wednesday. That means higher price tags on key materials needed to make solar panels at a time when solar is the fastest growing source of electricity in the US.

Polysilicon is used to make solar wafers, which are the semiconductors in solar panels. Tungsten — the same material in old-school incandescent lightbulbs — has many uses in electronics because of its high melting point. The metal is also part of supply chains for the aerospace, automotive, defense, medical, and oil and gas industries.

That means higher price tags on key materials needed to make solar panels at a time when solar is the fastest growing source of electricity in the US

It’s the latest instance of the Biden administration hiking up tariffs on goods from China — which dominates solar manufacturing — as part of its plan to build up domestic supply chains for clean energy.

“The tariff increases announced today will further blunt the harmful policies and practices by the People’s Republic of China,” ambassador Katherine Tai said in a statement. “These actions will complement the domestic investments made under the Biden-Harris Administration to promote a clean energy economy, while increasing the resilience of critical supply chains.”

American manufacturers welcomed the changes. “These trade measures will begin to counter the pervasive Chinese government subsidies in solar manufacturing. It is a step in the right direction,” Mike Carr, executive director of the Solar Energy Manufacturers for America (SEMA) Coalition, said in an emailed statement.

President-elect Donald Trump has said he plans to hike tariffs on imported goods from China even more than his predecessor, which is expected to increase prices on everything from cars to electronics.

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Science

The tundra keeps burning and it’s transforming the Arctic

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3 days ago

December 11, 2024

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For millennia, the Arctic tundra has helped stabilize global temperatures by storing carbon in the frozen ground. Wildfires have changed that, according to the latest Arctic Report Card released yesterday at the American Geophysical Union (AGU) conference.

Fires, intensified by climate change, release carbon trapped in soil and plants. More frequent infernos have now transformed the tundra into a net source of carbon dioxide emissions. It’s a dramatic shift for the Arctic, and one that will make the planet even hotter.

“Climate change is not bringing about a new normal. Instead, climate change is bringing ongoing and rapid change,” Twila Moon, lead editor of the Arctic Report Card and deputy lead scientist at the National Snow and Ice Data Center, said at the conference yesterday.

“Climate change is not bringing about a new normal.”

The Arctic’s permafrost, which stays frozen year-round, has kept planet-heating carbon sequestered for thousands of years. Northern permafrost has been estimated to hold about twice as much carbon as there is in the atmosphere. Tundra describes the Arctic’s tree-less plains, where shrubs, grasses, and mosses grow and take in carbon dioxide through photosynthesis. Plants eventually release that CO2 back into the atmosphere when they decompose or if they burn. And lucky for us, frigid temperatures slow microbial decomposition in the Arctic, keeping that carbon locked in the soil.

But greenhouse gas emissions from fossil fuels have made our planet a hotter place, and the Arctic has been warming nearly four times as fast as the rest of the planet. As a result, permafrost is thawing — waking up the microbes that break down dead plants and releasing previously trapped greenhouse gases. Permafrost temperatures hit record highs across nearly half of the monitoring stations in Alaska in 2024, according to the report card.

Wildfires are another growing problem since dead vegetation makes for a great fuel source. Blazes quickly release carbon trapped in plants and soil. Wildfires across areas with permafrost in North America have increased since the middle of the 20th century. Fires are more intense, burn across larger areas, and create more carbon pollution.

2023 was the worst year on record in terms of how much of the Arctic burned. A historically bad wildfire season in Canada led to the release of more than 640 million metric tons of carbon dioxide, an amount larger than any country’s annual carbon pollution with the exception of China, the US, and India.

Taking wildfire emissions into account, the Arctic tundra is now releasing more CO2 than it captures. It’s a long-term trend that the researchers expect to continue after crunching data from roughly the past two decades for this report card. The Arctic permafrost region as a whole — which encompasses tundra and forests — has become carbon neutral over the past 20 years, meaning it’s neither absorbing nor releasing excess CO2.

The amount of carbon dioxide now leaking from the tundra is small in comparison to the billions of tons of greenhouse gas emissions human activity sends into the atmosphere each year. But it adds to the many ways life in the Arctic is getting harder. Caribou populations have dropped by 65 percent over the last few decades as global warming transforms the landscape to which they’ve adapted, for example. They’ve been documented eating less on hot days, perhaps because they’re trying to stay cool or avoid mosquitoes. And caribou health has cascading impacts on the local people that rely on the herds for food.

Some species are finding ways to adjust. Ice seals in Alaska, for example, have started to eat different kinds of fish depending on what’s available and seem to be staying healthy. Understanding how the environment is changing, through research like the Arctic Report Card, might similarly help humans adapt. The report was produced by the National Oceanic and Atmospheric Administration (NOAA) working with 97 scientists from 11 different countries.

If not for the vast stores of carbon in the Arctic permafrost, the consequences of climate change would already be much more intense today. And now, the Arctic needs help from other regions of the world that are producing vastly more planet-heating pollution.

“While we can hope that many plants and animals will find pathways to adaptation as ice seals have so far, hope is not a pathway for preparation or risk reduction,” Moon said. “With almost all human produced heat trapping emissions created outside of the Arctic, only the strongest actions to reduce these emissions will allow us to minimize risk and damage as much as possible into the future. This is true for the Arctic and the globe.”

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