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There is more than one way to raise a house.

Many of the mobile homes, Creole cottages, and other dwellings that have been flagged for flood risk along Louisiana’s low-lying coastline can be separated from their foundations and slowly raised into the sky on hydraulic jacks. While a home is held aloft by temporary support beams, a new, elevated floor is built underneath or the foundation extended upward—think of the pilings you might see supporting a beach house.

But for homes like Christa and Alex Bell’s, which consists of two stories and a two-car garage sitting on a concrete slab, the house-jacking process is more complex.

Slab homes depend on the concrete foundation underneath for flooring and for most, if not all, of their structural support. It’s ideal, though difficult, to raise the house and the slab together and build a new foundation underneath; the other option is to separate the two and build a new, elevated floor. From there, homeowners could extend the foundation walls up and construct a new bottom space they could use for storage or parking. Or they could remove the roof, raise the exterior walls up an entire story, replace the roof, and write off the house’s bottom floor as storage space.

No matter the approach, residents usually need to relocate for 60 to 90 days, after which their homes stand several feet higher in the air.

None of these details were on the Bells’ minds a decade ago when they moved from Alabama to Lake Charles, an oil refinery and casino town of 81,000 near the Gulf Coast and Texas border.

But in May 2021, more than a foot of rain came down on the region in just 24 hours, causing flash floods. Even as Christa Bell watched Bayou Contraband—one of the region’s many small, slow-­moving rivers—rise until it spilled over and into their backyard, she wasn’t concerned her house might flood. Only a single corner of the 1,900-square-foot home was in a floodplain, according to federal flood maps when they bought the house in 2017. Yet that day, the bayou kept rising, and by evening, floodwaters stood shin deep in the living room. “Everything in the garage was just floating,” she says.

Every home on the block required at least partial gutting. Weeks passed; couches, mattresses, carpet, and other flood debris collected in heaps near the street, mildewed and rotting.

It was a scene mirrored across much of southwest Louisiana, and not for the first time. In a 10-month span in 2020–2021, the area saw five climate-related disasters, including two destructive hurricanes and the impacts of a tropical storm’s outer bands. More storms are coming, and many areas are not prepared: a 2021 study from First Street Foundation, a nonprofit focused on climate risk data, estimates that nearly 40% of Lake Charles residential properties and more than half the city’s infrastructure are at risk of future flooding.

Some people aren’t waiting around to experience that uncertain future. In the months after the 2020 hurricanes, Christa Bell says, she noticed more friends making home improvements before placing their houses on the market. “We had five disasters in a row. That hastened the departure for a lot of people,” she says. “If it flooded again, we would seriously think about it.”

6. Hanusik 1 scaled
VIRGINIA HANUSIK

But some government officials and state engineers are hoping there is an alternative: elevation. The $6.8 billion Southwest Coastal Louisiana Project is betting that raising residences by an average of three to five feet and nonresidential buildings by three to six, coupled with extensive work to restore coastal boundary lands, will keep Louisianans in their communities and a local economy that helps power the country’s oil industry running. The project, a collaboration between the US Army Corps of Engineers and the Louisiana Coastal Protection and Restoration Authority (CPRA), is focused on roughly 4,700 square miles of land inthree parishes in the southwestern corner of the state: Cameron, Vermilion, and

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By: Xander Peters
Title: How to stop a state from sinking
Sourced From: www.technologyreview.com/2024/04/15/1090733/louisiana-sinking-climate-change-flooding/
Published Date: Mon, 15 Apr 2024 09:00:00 +0000

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How gamification took over the world

It’s a thought that occurs to every video-game player at some point: What if the weird, hyper-focused state I enter when playing in virtual worlds could somehow be applied to the real one?

Often pondered during especially challenging or tedious tasks in meatspace (writing essays, say, or doing your taxes), it’s an eminently reasonable question to ask. Life, after all, is hard. And while video games are too, there’s something almost magical about the way they can promote sustained bouts of superhuman concentration and resolve.

For some, this phenomenon leads to an interest in flow states and immersion. For others, it’s simply a reason to play more games. For a handful of consultants, startup gurus, and game designers in the late 2000s, it became the key to unlocking our true human potential.

In her 2010 TED Talk, “Gaming Can Make a Better World,” the game designer Jane McGonigal called this engaged state “blissful productivity.” “There’s a reason why the average World of Warcraft gamer plays for 22 hours a week,” she said. “It’s because we know when we’re playing a game that we’re actually happier working hard than we are relaxing or hanging out. We know that we are optimized as human beings to do hard and meaningful work. And gamers are willing to work hard all the time.”

McGonigal’s basic pitch was this: By making the real world more like a video game, we could harness the blissful productivity of millions of people and direct it at some of humanity’s thorniest problems—things like poverty, obesity, and climate change. The exact details of how to accomplish this were a bit vague (play more games?), but her objective was clear: “My goal for the next decade is to try to make it as easy to save the world in real life as it is to save the world in online games.”

While the word “gamification” never came up during her talk, by that time anyone following the big-ideas circuit (TED, South by Southwest, DICE, etc.) or using the new Foursquare app would have been familiar with the basic idea. Broadly defined as the application of game design elements and principles to non-game activities—think points, levels, missions, badges, leaderboards, reinforcement loops, and so on—gamification was already being hawked as a revolutionary new tool for transforming education, work, health and fitness, and countless other parts of life.

Instead of liberating us, gamification turned out to be just another tool for coercion, distraction, and control.

Adding “world-saving” to the list of potential benefits was perhaps inevitable, given the prevalence of that theme in video-game storylines. But it also spoke to gamification’s foundational premise: the idea that reality is somehow broken. According to McGonigal and other gamification boosters, the real world is insufficiently engaging and motivating, and too often it fails to make us happy. Gamification promises to remedy this design flawby engineering a new reality, one that transforms the dull, difficult, and depressing parts of life into something fun and inspiring. Studying for exams, doing household chores, flossing, exercising, learning a new language—there was no limit to the tasks that could be turned into games, making everything IRL better.

Today, we live in an undeniably gamified world. We stand up and move around to close colorful rings and earn achievement badges on our smartwatches; we meditate and sleep to recharge our body batteries; we plant virtual trees to be more productive; we chase “likes” and “karma” on social media sites and try to swipe our way toward social connection. And yet for all the crude gamelike elements that have been grafted onto our lives, the more hopeful and collaborative world that gamification promised more than a decade ago seems as far away as ever. Instead of liberating us from drudgery and maximizing our potential, gamification turned out to be just another tool for coercion, distraction, and control.

Con game

This was not an unforeseeable outcome. From the start, a small but vocal group of journalists and game designers warned against the fairy-tale thinking and facile view of video games that they saw in the concept of gamification. Adrian Hon, author of You’ve Been Played, a recent book that chronicles its dangers, was one of them.

“As someone who was building so-called ‘serious games’ at the time the concept was taking off, I knew that a lot of the claims being made around the possibility of games to transform people’s behaviors and change the world were completely overblown,” he says.

Hon isn’t some knee-jerk polemicist. A trained neuroscientist who switched to a career in game design and development, he’s the co-creator of Zombies, Run!—one of the most popular gamified fitness apps in the world. While he still believes games can benefit and enrich aspects of our nongaming lives, Hon says a one-size-fits-all

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By: Bryan Gardiner
Title: How gamification took over the world
Sourced From: www.technologyreview.com/2024/06/13/1093375/gamification-behaviorism-npcs-video-games/
Published Date: Thu, 13 Jun 2024 09:00:00 +0000

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Why we need to shoot carbon dioxide thousands of feet underground

This article is from The Spark, MIT Technology Review’s weekly climate newsletter. To receive it in your inbox every Wednesday, sign up here

There’s often one overlooked member in a duo. Peanut butter outshines jelly in a PB&J every time (at least in my eyes). For carbon capture and storage technology, the storage part tends to be the underappreciated portion.

Carbon capture and storage (CCS) tech has two main steps (as you might guess from the name). First, carbon dioxide is filtered out of emissions at facilities like fossil-fuel power plants. Then it gets locked away, or stored.

Wrangling pollution might seem like the important bit, and there’s often a lot of focus on what fraction of emissions a CCS system can filter out. But without storage, the whole project would be pretty useless. It’s really the combination of capture and long-term storage that helps to reduce climate impact.

Storage is getting more attention lately, though, and there’s something of a carbon storage boom coming, as my colleague James Temple covered in his latest story. He wrote about what a rush of federal subsidies will mean for the CCS business in the US, and how supporting new projects could help us hit climate goals or push them further out of reach, depending on how we do it. 

The story got me thinking about the oft-forgotten second bit of CCS. Here’s where we might store captured carbon pollution, and why it matters.

When it comes to storage, the main requirement is making sure the carbon dioxide can’t accidentally leak out and start warming up the atmosphere.

One surprising place that might fit the bill is oil fields. Instead of building wells to extract fossil fuels, companies are looking to build a new type of well where carbon dioxide that’s been pressurized until it reaches a supercritical state—in which liquid and gas phases don’t really exist—is pumped deep underground. With the right conditions (including porous rock deep down and a leak-preventing solid rock layer on top), the carbon dioxide will mostly stay put.

Shooting carbon dioxide into the earth isn’t actually a new idea, though in the past it’s largely been used by the oil and gas industry for a very different purpose: pulling more oil out of the ground. In a process called enhanced oil recovery, carbon dioxide is injected into wells, where it frees up oil that’s otherwise tricky to extract. In the process, most of the injected carbon dioxide stays underground. 

But there’s a growing interest in sending the gas down there as an end in itself, sparked in part in the US by new tax credits in the Inflation Reduction Act. Companies can rake in $85 per ton of carbon dioxide that’s captured and permanently stored in geological formations, depending on the source of the gas and how it’s locked away.

In his story, James took a look at one proposed project in California, where one of the state’s largest oil and gas producers has secured draft permits from federal regulators. The project would inject carbon dioxide about 6,000 feet below the surface of the earth, and the company’s filings say the project could store tens of millions of tons of carbon dioxide over the next couple of decades. 

It’s not just land-based projects that are sparking interest, though. State officials in Texas recently awarded a handful of leases for companies to potentially store carbon dioxide deep underwater in the Gulf of Mexico.

And some companies want to store carbon dioxide in products and materials that we use, like concrete. Concrete is made by mixing reactive cement with water and material like sand; if carbon dioxide is injected into a fresh concrete mix, some of it will get involved in the reactions, trapping it in place. I covered how two companies tested out this idea in a newsletter last year.

Products we use every day, from diamonds to sunglasses, can be made with captured carbon dioxide. If we assume that those products stick around for a long time and don’t decompose (how valid this assumption is depends a lot on the product), one might consider these a form of long-term storage, though these markets probably aren’t big enough to make a difference in the grand scheme of climate change. 

Ultimately, though of course we need to emit less, we’ll still need to lock carbon away if we’re going to meet our climate goals.  

Now read the rest of The Spark

Related reading

For all the details on what to expect in the coming carbon storage boom, including more on the potential benefits and hazards of CCS, read James’s full story here.

This facility in Iceland uses mineral storage deep underground to lock away carbon dioxide that’s been vacuumed out of the atmosphere. See all the photos in this story from 2022. 

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By: Casey Crownhart
Title: Why we need to shoot carbon dioxide thousands of feet underground
Sourced From: www.technologyreview.com/2024/06/13/1093635/carbon-dioxide-storage/
Published Date: Thu, 13 Jun 2024 10:00:00 +0000

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The Download: the rise of gamification, and carbon dioxide storage

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This is today’s edition of The Download our weekday newsletter that provides a daily dose of what’s going on in the world of technology.

How gamification took over the world

It’s a thought that occurs to every video-game player at some point: What if the weird, hyper-focused state I enter when playing in virtual worlds could somehow be applied to the real one?

Often pondered during especially challenging or tedious tasks in meatspace (writing essays, say, or doing your taxes), it’s an eminently reasonable question to ask. Life, after all, is hard. And while video games are too, there’s something almost magical about the way they can promote sustained bouts of superhuman concentration and resolve.

For some, this phenomenon leads to an interest in flow states and immersion. For others, it’s simply a reason to play more games. For a handful of consultants, startup gurus, and game designers in the late 2000s, it became the key to unlocking our true human potential. But instead of liberating us, gamification turned out to be just another tool for coercion, distraction, and control. Read the full story.

—Bryan Gardiner

This piece is from the forthcoming print issue of MIT Technology Review, which explores the theme of Play. It’s set to go live on Wednesday June 26, so if you don’t already, subscribe now to get a copy when it lands.

Why we need to shoot carbon dioxide thousands of feet underground

Carbon capture and storage (CCS) tech has two main steps. First, carbon dioxide is filtered out of emissions at facilities like fossil-fuel power plants. Then it gets locked away, or stored.

Wrangling pollution might seem like the important bit, and there’s often a lot of focus on what fraction of emissions a CCS system can filter out. But without storage, the whole project would be pretty useless. It’s really the combination of capture and long-term storage that helps to reduce climate impact.

Storage is getting more attention lately, though, and there’s something of a carbon storage boom coming, as my colleague James Temple covered in his latest story. Read on to find out where we might store captured carbon pollution, and why it matters.

—Casey Crownhart

This story is from The Spark, our weekly climate and energy newsletter. Sign up to receive it in your inbox every Wednesday.

The must-reads

I’ve combed the internet to find you today’s most fun/important/scary/fascinating stories about technology.

1 How Microsoft is building an AI empire
Its early investment in OpenAI helped it to leapfrog its old rival Google. (WSJ $)
OpenAI has lobbying regulators on its mind. (FT $)
Microsoft’s bet is paying off: OpenAI’s revenue has doubled. (The Information $)
Behind Microsoft CEO Satya Nadella’s push to get AI tools in developers’ hands. (MIT Technology Review)

2Rapid tests to target antimicrobial resistance are on the rise
Fast and easy analysis of common infections would stop doctors resorting to antibiotics. (FT $)
How bacteria-fighting viruses could go mainstream. (MIT Technology Review)

3 Stable Diffusion’s new release is generating horrifying bodies
Its mangled generations inspire revulsion and amusement in equal measure. (Ars Technica)
Text-to-image AI models can be tricked into generating disturbing images. (MIT Technology Review)

4 A hacker broke into Tile’s location tracking system
And they’re holding customer data to ransom. (404 Media)

5 Inside the lucrative black market for Silicon Valley’s stolen bicycles
🚲
One man made it his mission to unveil the theft pipeline. (Wired $)

6 What’s going on with Apple’s Vision Pro?
Analyst estimates suggest it hasn’t sold as well as expected. (NYT $)
It’s changing disabled users’ lives for the better. (NY Mag $)

7 Drone mapping is protecting slums from climate disasters
Because informal settlements aren’t visible on standard internet maps. (Bloomberg $)

8 The Excel World Championship is here
Spreadsheet fans, unite! (The Verge)

9 This humanoid robot can drive a car
🚗
That’s one solution to the problems posed by driverless cars. (TechCrunch)
Is robotics about to have its own ChatGPT moment? (MIT Technology Review)

10 America’s new cricket superstars are also tech workers
🏏
Saurabh Netravalkar, a software engineer for Oracle, is turning his hobby into a global spectacle. (WP $)

Quote of the

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By: Rhiannon Williams
Title: The Download: the rise of gamification, and carbon dioxide storage
Sourced From: www.technologyreview.com/2024/06/13/1093711/the-download-the-rise-of-gamification-and-carbon-dioxide-storage/
Published Date: Thu, 13 Jun 2024 12:10:00 +0000

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