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kishorxox · 11 days ago

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Green Data Center Market Size, Share, Forecast, & Trends Analysis

Meticulous Research®—a leading global market research company, published a research report titled ‘Green Data Center Market—Global Opportunity Analysis and Industry Forecast (2025-2032)’. According to this latest publication, the Green Data Center market is expected to reach $315.8 billion by 2032, at a CAGR of 18.3% from 2025 to 2032.

The green data center market is experiencing growth due to heightened government regulations on sustainability, rising energy consumption in data centers, and the increasing adoption of cloud services and IoT applications. Additionally, the enhanced accessibility and cost-effectiveness of renewable energy sources, coupled with the expansion of edge computing infrastructure, are anticipated to create potential growth opportunities.

However, the substantial initial capital investment required may hinder market growth. Additionally, the implementation of energy-efficient cooling systems poses a significant challenge for market stakeholders. Moreover, the prominent trend in the green data center market is the growing adoption of liquid cooling technologies and AI-powered energy management systems.

Key Players

The green data center market is characterized by a moderately competitive scenario due to the presence of many large- and small-sized global, regional, and local players. The key players operating in the Green Data Center market are Dell Technologies Inc. (U.S.), Fujitsu Limited (Japan), Cisco Systems, Inc. (U.S.), Hewlett Packard Enterprise Company (U.S.), Hitachi Energy Ltd (Switzerland) (a subsidiary of Hitachi, Ltd. (Japan)), Schneider Electric SE (France), IBM Corporation (U.S.), Eaton Corporation plc (Ireland), Vertiv Group Corporation (U.S.), Green Revolution Cooling, Inc. (U.S.), ABB Ltd (Switzerland), GE Vernova Inc. (U.S.), Delta Electronics, Inc. (Taiwan), Digital Realty Trust Inc. (U.S.), Equinix, Inc. (U.S.), Huawei Technologies Co., Ltd. (China), Ark Data Centres Limited (U.K.), and Iron Mountain, Inc. (U.S.).

The green data center market is segmented based on offering, deployment mode, data center size, and end user. The report also evaluates industry competitors and analyzes the green data center market at the regional and country-level markets.

Among the offerings studied in this report, the solution segment is anticipated to dominate the green data center market in 2025. The dominant position of this segment in the green data center market is driven by the increasing demand for energy-efficient power systems to lower operational costs, the need for scalable infrastructure, the growth of cloud computing and AI technologies, and the rising adoption of eco-friendly cooling and HVAC systems to comply with environmental regulations. As organizations increasingly seek to minimize their environmental impact and achieve sustainability goals, the adoption of green data center solutions is expected to accelerate in the coming years.

Energy-efficient power systems enable effective electricity distribution and renewable energy integration in data centers, thereby reducing overall power consumption. Cooling and HVAC systems maintain optimal temperatures in high-density environments while minimizing energy usage. Additionally, modular designs facilitate operational scaling without significantly increasing carbon footprints. Networking systems ensure fast, reliable connectivity and data transfer while utilizing minimal power in data centers.

Among the deployment modes studied in this report, the cloud-based deployments segment is anticipated to dominate the green data center market in 2025By leveraging cloud services, businesses can bypass the substantial capital expenditures linked to constructing and maintaining their data centers. Cloud providers facilitate high energy efficiency, enabling cost-effective green solutions. The rapid adoption of hybrid and multi-cloud environments to optimize workloads and enhance redundancy, along with the increasing demand for more energy-efficient alternatives to traditional on-premises infrastructure, are key factors contributing to this segment's dominant position in the green data center market. Moreover, the growing emphasis on optimizing energy consumption and improving operational efficiency in data centers further supports this dominance.

Among the data center sizes studied in this report, the hyperscale data centers segment is anticipated to dominate the green data center market in 2025. Hyperscale data centers are designed for maximum efficiency, utilizing advanced technologies for energy management, automated monitoring, and optimization. This focus on efficiency contributes to overall sustainability. The growing need to efficiently manage large volumes of data while minimizing energy consumption, exponential increase in data generation from IoT devices, AI applications, and digital services, and increasing adoption of renewable energy sources to power data center facilities are factors contributing to the segments dominant position to the green data center market.

Among the end users studied in this report, the cloud service providers (CSPs) segment is anticipated to dominate the green data center market in 2025. The increasing adoption of cloud computing by businesses across various sectors, along with growing government regulations and incentives promoting renewable energy, are significant factors contributing to this segment's dominant position in the green data center market. Additionally, the growth of edge computing technology necessitates that cloud service providers establish energy-efficient data centers closer to end users. Furthermore, the rising commitment to environmental responsibility and sustainability targets, including carbon neutrality and renewable energy usage, supports this dominance.

Geographic Review

This research report analyzes major geographies and provides a comprehensive analysis of North America (U.S., Canada), Europe (Germany, U.K., Italy, France, Spain, Russia, Netherlands, and Rest of Europe), Asia-Pacific (Japan, China, India, South Korea, Thailand, Singapore, and Rest of Asia-Pacific), Latin America (Brazil, Argentina, Mexico, and Rest of Latin America), and the Middle East & Africa (UAE, Saudi Arabia, South Africa, and Rest of the Middle East & Africa).

North America is anticipated to dominate the green data center market in 2025, followed by Asia-Pacific and Europe. North America, particularly the U.S., leads the green data center market due to its early adoption of green technologies, the presence of major tech companies, and robust government regulations promoting energy-efficient infrastructure. Contributing factors to the region's dominance include increasingly stringent government carbon emission regulations and sustainability mandates, growing investments in eco-friendly data center solutions, the rapid expansion of cloud computing and AI-based services, and the integration of renewable energy into data centers.

Download Sample Report Here @ https://www.meticulousresearch.com/download-sample-report/cp_id=6050

Key Questions Answered in the Report-

What is the value of revenue generated by the sale of green data centers?

At what rate is the global demand for green data centers projected to grow for the next five to seven years?

What is the historical market size and growth rate for the green data center market?

What are the major factors impacting the growth of this market at global and regional levels?

What are the major opportunities for existing players and new entrants in the market?

Which offering, deployment mode, data center size, and end user segments create major traction for the manufacturers in this market?

What are the key geographical trends in this market? Which regions/countries are expected to offer significant growth opportunities for the manufacturers operating in the green data center market?

Who are the major players in the green data center market? What are their specific product offerings in this market?

What recent developments have taken place in the green data center market? What impact have these strategic developments created on the market?

Contact Us: Meticulous Research® Email- [email protected] Contact Sales- +1-646-781-8004 Connect with us on LinkedIn- https://www.linkedin.com/company/meticulous-research

#Sustainable Data Centers #Smart Data Centers #Green Cloud Solutions #Renewable Energy Data Centers #Green IT Infrastructure #Edge Data Center #Cloud Service Providers

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reasonsforhope · 4 months ago

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Pictured: Luis Cassiano is the founder of Teto Verde Favela, a nonprofit that teaches favela residents in Rio de Janeiro, Brazil, how to build their own green roofs as a way to beat the heat. He's photographed at his house, which has a green roof.

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"Cassiano is the founder of Teto Verde Favela, a nonprofit that teaches favela residents how to build their own green roofs as a way to beat the heat without overloading electrical grids or spending money on fans and air conditioners. He came across the concept over a decade ago while researching how to make his own home bearable during a particularly scorching summer in Rio.

A method that's been around for thousands of years and that was perfected in Germany in the 1960s and 1970s, green roofs weren't uncommon in more affluent neighborhoods when Cassiano first heard about them. But in Rio's more than 1,000 low-income favelas, their high cost and heavy weight meant they weren't even considered a possibility.

That is, until Cassiano decided to team up with a civil engineer who was looking at green roofs as part of his doctoral thesis to figure out a way to make them both safe and affordable for favela residents. Over the next 10 years, his nonprofit was born and green roofs started popping up around the Parque Arará community, on everything from homes and day care centers, to bus stops and food trucks.

When Gomes da Silva heard the story of Teto Verde Favela, he decided then and there that he wanted his home to be the group's next project, not just to cool his own home, but to spread the word to his neighbors about how green roofs could benefit their community and others like it.

Pictured: Jessica Tapre repairs a green roof in a bus stop in Benfica, Rio de Janeiro, Brazil.

Relief for a heat island

Like many low-income urban communities, Parque Arará is considered a heat island, an area without greenery that is more likely to suffer from extreme heat. A 2015 study from the Federal Rural University of Rio de Janeiro showed a 36-degree difference in land surface temperatures between the city's warmest neighborhoods and nearby vegetated areas. It also found that land surface temperatures in Rio's heat islands had increased by 3 degrees over the previous decade.

That kind of extreme heat can weigh heavily on human health, causing increased rates of dehydration and heat stroke; exacerbating chronic health conditions, like respiratory disorders; impacting brain function; and, ultimately, leading to death.

But with green roofs, less heat is absorbed than with other low-cost roofing materials common in favelas, such as asbestos tiles and corrugated steel sheets, which conduct extreme heat. The sustainable infrastructure also allows for evapotranspiration, a process in which plant roots absorb water and release it as vapor through their leaves, cooling the air in a similar way as sweating does for humans.

The plant-covered roofs can also dampen noise pollution, improve building energy efficiency, prevent flooding by reducing storm water runoff and ease anxiety.

"Just being able to see the greenery is good for mental health," says Marcelo Kozmhinsky, an agronomic engineer in Recife who specializes in sustainable landscaping. "Green roofs have so many positive effects on overall well-being and can be built to so many different specifications. There really are endless possibilities.""

Pictured: Summer heat has been known to melt water tanks during the summer in Rio, which runs from December to March. Pictured is the water tank at Luis Cassiano's house. He covered the tank with bidim, a lightweight material conducive for plantings that will keep things cool.

A lightweight solution

But the several layers required for traditional green roofs — each with its own purpose, like insulation or drainage — can make them quite heavy.

For favelas like Parque Arará, that can be a problem.

"When the elite build, they plan," says Cassiano. "They already consider putting green roofs on new buildings, and old buildings are built to code. But not in the favela. Everything here is low-cost and goes up any way it can."

Without the oversight of engineers or architects, and made with everything from wood scraps and daub, to bricks and cinder blocks, construction in favelas can't necessarily bear the weight of all the layers of a conventional green roof.

That's where the bidim comes in. Lightweight and conducive to plant growth — the roofs are hydroponic, so no soil is needed — it was the perfect material to make green roofs possible in Parque Arará. (Cassiano reiterates that safety comes first with any green roof he helps build. An engineer or architect is always consulted before Teto Verde Favela starts a project.)

And it was cheap. Because of the bidim and the vinyl sheets used as waterproof screening (as opposed to the traditional asphalt blanket), Cassiano's green roofs cost just 5 Brazilian reais, or $1, per square foot. A conventional green roof can cost as much as 53 Brazilian reais, or $11, for the same amount of space.

"It's about making something that has such important health and social benefits possible for everyone," says Ananda Stroke, an environmental engineering student at the Federal University of Rio de Janeiro who volunteers with Teto Verde Favela. "Everyone deserves to have access to green roofs, especially people who live in heat islands. They're the ones who need them the most." ...

It hasn't been long since Cassiano and the volunteers helped put the green roof on his house, but he can already feel the difference. It's similar, says Gomes da Silva, to the green roof-covered moto-taxi stand where he sometimes waits for a ride.

"It used to be unbearable when it was really hot out," he says. "But now it's cool enough that I can relax. Now I can breathe again."

-via NPR, January 25, 2025

#architecture #sustainable architecture #heat islands #urban heat #brazil #brasil #south america #favela #rio de janeiro #green roof #plants #climate action #climate adaptation #infrastructure #good news #hope #solarpunk

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politijohn · 9 months ago

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Source

#capitalism #the left #climate change #climate justice #climate news #twitter post #progressive #current events #news #global warming #green new deal #end capitalism #infrastructure

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unbfacts · 2 months ago

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Scientists in China created a new cement that turns heat into electricity. This could help buildings produce their own power and support eco-friendly cities.

#cement #thermoelectric #sustainable #green energy #innovation #science #infrastructure #eco-friendly #construction #china #technology

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dandelionsresilience · 5 months ago

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Dandelion News - January 15-21

Like these weekly compilations? Tip me at $kaybarr1735 or check out my Dandelion Doodles!

1. Landmark debt swap to protect Indonesia’s coral reefs

“The government of Indonesia announced this week a deal to redirect more than US$ 35 million it owes to the United States into the conservation of coral reefs in the most biodiverse ocean area on Earth.”

2. [FWS] Provides Over $1.3 Billion to Support Fish and Wildlife Conservation and Outdoor Access

“Through these combined funds, agencies have supported monitoring and management of over 500 species of wild mammals and birds, annual stocking of over 1 billion fish, operations of fish and wildlife disease laboratories around the country, and provided hunter and aquatic education to millions of students.”

3. Philippine Indigenous communities restore a mountain forest to prevent urban flooding

“Indigenous knowledge systems and practices are considered in the project design, and its leaders and members have been involved throughout the process, from agreeing to participate to identifying suitable land and selecting plant species that naturally grow in the area.”

4. Responsible Offshore Wind Development is a Clear Win for Birds, the U.S. Economy, and our Climate

“[T]he total feasible offshore wind capacity along U.S. coasts is more than three times the total electricity generated nationwide in 2023. […] Proven strategies, such as reducing visible lights on turbines and using perching deterrents on turbines, have been effective in addressing bird impacts.”

5. Illinois awards $100M for electric truck charging corridor, Tesla to get $40M

“The project will facilitate the construction of 345 electric truck charging ports and pull-through truck charging stalls across 14 sites throughout Illinois[…. E]lectrifying [the 30,000 daily long-haul] trucks would make a huge impact in the public health and quality of life along the heavily populated roadways.”

6. Reinventing the South Florida seawall to help marine life, buffer rising seas

“[The new seawall] features raised areas inspired by mangrove roots that are intended to both provide nooks and crannies for fish and crabs and other marine creatures and also better absorb some of the impact from waves and storm surges.”

7. Long Beach Commits to 100% All-Electric Garbage Trucks

“[Diesel garbage trucks] produce around a quarter of all diesel pollution in California and contribute to 1,400 premature deaths every year. Electric options, on the other hand, are quieter than their diesel counterparts and produce zero tailpipe emissions.”

8. ‘This Is a Victory': Biden Affirms ERA Has Been 'Ratified' and Law of the Land

“President Joe Biden on Friday announced his administration's official opinion that the amendment is ratified and its protections against sex-based discrimination are enshrined in the U.S. Constitution.”

9. A Little-Known Clean Energy Solution Could Soon Reach ‘Liftoff’

“Ground source heat pumps could heat and cool the equivalent of 7 million homes by 2035—up from just over 1 million today[…. G]eothermal energy is generally considered to be more popular among Republicans than other forms of clean energy, such as wind and solar.”

10. Researchers combine citizens' help and cutting-edge tech to track biodiversity

“Researchers in the project, which runs from 2022 to 2026, are experimenting with tools like drones, cameras and sensors to collect detailed data on different species, [… and] Observation.org, a global biodiversity platform where people submit pictures of animals and plants, helping to identify and monitor them.”

January 8-14 news here | (all credit for images and written material can be found at the source linked; I don’t claim credit for anything but curating.)

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batboyblog · 9 months ago

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Things the Biden-Harris Administration Did This Week #34

Sep 13-20 2024.

President Biden announced $1.3 billion in new funding for Historically Black Colleges and Universities. The Biden-Harris Administration has already invested a record breaking $17 billion in HBCUs since the President took office. HBCUs represent an important engine for making black professionals. 40% of all Black engineers, 50% of all Black teachers, 70% of all Black doctors and dentists, 80% of all Black judges, and the first black Vice-President, Kamala Harris, are HBCU graduates. HBCUs have also been proven to be far better at boosting the long term economic prospects of graduates than non-HBCU colleges. The bulk of the new funding will go directly to supporting students and helping them pay for college.

The Department of Transportation celebrated 60,000 infrastructure projects funding by the Biden-Harris Bipartisan Infrastructure Law. This landmark is a part of the Biden-Harris team's effort to address America's long neglected infrastructure. From major multi-state projects to small town railway crossings every project was lead by a local community in need not a make-work project dreamed up in Washington

The Department of Energy announced over 3 billion dollars to support the battery sector. The 25 projects across 14 states will help support over 12,000 jobs. Advanced battery technology is key to the shift to a carbon energy free economy. The move is meant to not only boost battery production but also shift it away from China and toward America.

Maine and Rhode Island both launched a partnership with the federal government to help save low income families money on their utility bills. The program offers low and moderate income households aid in updating wiring, switching to energy efficient appliances, and installing heat pumps.

The EPA announced $156 million to help bring solar power to low-income New Mexico residents. This is part of the Biden-Harris Administration’s "Solar for All" project aimed at helping low-income people afford the switch over to solar power. It's expected that 21,750 low-income households in New Mexico will benefit from the money. New Mexicans can expect to save over the next 20 years $311 million in energy costs.

The Department of The Interior announced the first ever leases for wind power in the Gulf of Maine. The leases for 8 areas off the coast of Massachusetts, New Hampshire, and Maine will be sold in late October. The Department believes that once developed the wind power from these leases could produce 13 gigawatts of clean offshore wind energy, enough to power 4.5 million homes. When added to the 15 gigawatts already approved by the Biden-Harris team it brings America close to Biden's 30 gigawatts of clean offshore wind power by 2030.

The Senate approved the appointment of Kevin Ritz to the Court of Appeals for the Sixth Circuit, which covers Kentucky, Michigan, Ohio, and Tennessee. The Senate also approved Mary Kay Costello and Michelle Williams Court to district court judgeships in Pennsylvania and California respectively. Costello is the 12th LGBT judge appointed by President Biden, making him the President to appoint the most LGBT people to the federal bench more than during Obama's 8 years. President Biden has also appointed more black women, such as Judge Court, to the bench than any other President. Judge Court also represents President Biden's move to appoint civil rights attorneys to the bench, Court worked for the ACLU in the mid-90s and was a civil rights expect at HUD in the early 2000s. This brings the total number of judges appointed by Biden to 212.

#Thanks Biden #Joe Biden #kamala harris #HBCU #infrastructure #climate change #green energy #wind power #judges

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miamaimania · 5 months ago

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"Kawazu Nanadaru Loop Bridge" ~ Shizuoka, Japan by Unknown ⟲ Circular road loops seven stories above forest floor

#green #gray #japan #bridge design #aerial photography #modern engineering #infrastructure #architecture

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nono-uwu · 3 months ago

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New cover is so cute look at them

This is so rushed asfkmvksmkm

(Feel free to view this as platonic or romantic, whatever floats ur boat)

#anyone else notice that ky lost his gloves. and the fact his fucking ribbon/tie keeps changing color #owari no seraph #seraph of the end #ons #fanart #ky luc #urd geales #kyurd #again feel free to interpret as romantic or platonic #i didn't draw it but the backround of the cover?? omg it's SO PRETTY. i love the aesthetic of nature overtaking abandoned infrastructure #also it's green which is one of my favourite colors and it contrasts nicely with the guys's colors

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mostlysignssomeportents · 1 year ago

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Real innovation vs Silicon Valley nonsense

This is the LAST DAY to get my bestselling solarpunk utopian novel THE LOST CAUSE (2023) as a $2.99, DRM-free ebook!

If there was any area where we needed a lot of "innovation," it's in climate tech. We've already blown through numerous points-of-no-return for a habitable Earth, and the pace is accelerating.

Silicon Valley claims to be the epicenter of American innovation, but what passes for innovation in Silicon Valley is some combination of nonsense, climate-wrecking tech, and climate-wrecking nonsense tech. Forget Jeff Hammerbacher's lament about "the best minds of my generation thinking about how to make people click ads." Today's best-paid, best-trained technologists are enlisted to making boobytrapped IoT gadgets:

https://pluralistic.net/2024/05/24/record-scratch/#autoenshittification

Planet-destroying cryptocurrency scams:

https://pluralistic.net/2024/02/15/your-new-first-name/#that-dagger-tho

NFT frauds:

https://pluralistic.net/2022/02/06/crypto-copyright-%f0%9f%a4%a1%f0%9f%92%a9/

Or planet-destroying AI frauds:

https://pluralistic.net/2024/01/29/pay-no-attention/#to-the-little-man-behind-the-curtain

If that was the best "innovation" the human race had to offer, we'd be fucking doomed.

But – as Ryan Cooper writes for The American Prospect – there's a far more dynamic, consequential, useful and exciting innovation revolution underway, thanks to muscular public spending on climate tech:

https://prospect.org/environment/2024-05-30-green-energy-revolution-real-innovation/

The green energy revolution – funded by the Bipartisan Infrastructure Act, the Inflation Reduction Act, the CHIPS Act and the Science Act – is accomplishing amazing feats, which are barely registering amid the clamor of AI nonsense and other hype. I did an interview a while ago about my climate novel The Lost Cause and the interviewer wanted to know what role AI would play in resolving the climate emergency. I was momentarily speechless, then I said, "Well, I guess maybe all the energy used to train and operate models could make it much worse? What role do you think it could play?" The interviewer had no answer.

Here's brief tour of the revolution:

2023 saw 32GW of new solar energy come online in the USA (up 50% from 2022);

Wind increased from 118GW to 141GW;

Grid-scale batteries doubled in 2023 and will double again in 2024;

EV sales increased from 20,000 to 90,000/month.

https://www.whitehouse.gov/briefing-room/blog/2023/12/19/building-a-thriving-clean-energy-economy-in-2023-and-beyond/

The cost of clean energy is plummeting, and that's triggering other areas of innovation, like using "hot rocks" to replace fossil fuel heat (25% of overall US energy consumption):

https://rondo.com/products

Increasing our access to cheap, clean energy will require a lot of materials, and material production is very carbon intensive. Luckily, the existing supply of cheap, clean energy is fueling "green steel" production experiments:

https://www.wdam.com/2024/03/25/americas-1st-green-steel-plant-coming-perry-county-1b-federal-investment/

Cheap, clean energy also makes it possible to recover valuable minerals from aluminum production tailings, a process that doubles as site-remediation:

https://interestingengineering.com/innovation/toxic-red-mud-co2-free-iron

And while all this electrification is going to require grid upgrades, there's lots we can do with our existing grid, like power-line automation that increases capacity by 40%:

https://www.npr.org/2023/08/13/1187620367/power-grid-enhancing-technologies-climate-change

It's also going to require a lot of storage, which is why it's so exciting that we're figuring out how to turn decommissioned mines into giant batteries. During the day, excess renewable energy is channeled into raising rock-laden platforms to the top of the mine-shafts, and at night, these unspool, releasing energy that's fed into the high-availability power-lines that are already present at every mine-site:

https://www.euronews.com/green/2024/02/06/this-disused-mine-in-finland-is-being-turned-into-a-gravity-battery-to-store-renewable-ene

Why are we paying so much attention to Silicon Valley pump-and-dumps and ignoring all this incredible, potentially planet-saving, real innovation? Cooper cites a plausible explanation from the Apperceptive newsletter:

https://buttondown.email/apperceptive/archive/destructive-investing-and-the-siren-song-of/

Silicon Valley is the land of low-capital, low-labor growth. Software development requires fewer people than infrastructure and hard goods manufacturing, both to get started and to run as an ongoing operation. Silicon Valley is the place where you get rich without creating jobs. It's run by investors who hate the idea of paying people. That's why AI is so exciting for Silicon Valley types: it lets them fantasize about making humans obsolete. A company without employees is a company without labor issues, without messy co-determination fights, without any moral consideration for others. It's the natural progression for an industry that started by misclassifying the workers in its buildings as "contractors," and then graduated to pretending that millions of workers were actually "independent small businesses."

It's also the natural next step for an industry that hates workers so much that it will pretend that their work is being done by robots, and then outsource the labor itself to distant Indian call-centers (no wonder Indian techies joke that "AI" stands for "absent Indians"):

https://pluralistic.net/2024/05/17/fake-it-until-you-dont-make-it/#twenty-one-seconds

Contrast this with climate tech: this is a profoundly physical kind of technology. It is labor intensive. It is skilled. The workers who perform it have power, both because they are so far from their employers' direct oversight and because these fed-funded sectors are more likely to be unionized than Silicon Valley shops. Moreover, climate tech is capital intensive. All of those workers are out there moving stuff around: solar panels, wires, batteries.

Climate tech is infrastructural. As Deb Chachra writes in her must-read 2023 book How Infrastructure Works, infrastructure is a gift we give to our descendants. Infrastructure projects rarely pay for themselves during the lives of the people who decide to build them:

https://pluralistic.net/2023/10/17/care-work/#charismatic-megaprojects

Climate tech also produces gigantic, diffused, uncapturable benefits. The "social cost of carbon" is a measure that seeks to capture how much we all pay as polluters despoil our shared world. It includes the direct health impacts of burning fossil fuels, and the indirect costs of wildfires and extreme weather events. The "social savings" of climate tech are massive:

https://arstechnica.com/science/2024/05/climate-and-health-benefits-of-wind-and-solar-dwarf-all-subsidies/

For every MWh of renewable power produced, we save $100 in social carbon costs. That's $100 worth of people not sickening and dying from pollution, $100 worth of homes and habitats not burning down or disappearing under floodwaters. All told, US renewables have delivered $250,000,000,000 (one quarter of one trillion dollars) in social carbon savings over the past four years:

https://arstechnica.com/science/2024/05/climate-and-health-benefits-of-wind-and-solar-dwarf-all-subsidies/

In other words, climate tech is unselfish tech. It's a gift to the future and to the broad public. It shares its spoils with workers. It requires public action. By contrast, Silicon Valley is greedy tech that is relentlessly focused on the shortest-term returns that can be extracted with the least share going to labor. It also requires massive public investment, but it also totally committed to giving as little back to the public as is possible.

No wonder America's richest and most powerful people are lining up to endorse and fund Trump:

https://prospect.org/blogs-and-newsletters/tap/2024-05-30-democracy-deshmocracy-mega-financiers-flocking-to-trump/

Silicon Valley epitomizes Stafford Beer's motto that "the purpose of a system is what it does." If Silicon Valley produces nothing but planet-wrecking nonsense, grifty scams, and planet-wrecking, nonsensical scams, then these are all features of the tech sector, not bugs.

As Anil Dash writes:

Driving change requires us to make the machine want something else. If the purpose of a system is what it does, and we don’t like what it does, then we have to change the system.

https://www.anildash.com/2024/05/29/systems-the-purpose-of-a-system/

To give climate tech the attention, excitement, and political will it deserves, we need to recalibrate our understanding of the world. We need to have object permanence. We need to remember just how few people were actually using cryptocurrency during the bubble and apply that understanding to AI hype. Only 2% of Britons surveyed in a recent study use AI tools:

https://www.bbc.com/news/articles/c511x4g7x7jo

If we want our tech companies to do good, we have to understand that their ground state is to create planet-wrecking nonsense, grifty scams, and planet-wrecking, nonsensical scams. We need to make these companies small enough to fail, small enough to jail, and small enough to care:

https://pluralistic.net/2024/04/04/teach-me-how-to-shruggie/#kagi

We need to hold companies responsible, and we need to change the microeconomics of the board room, to make it easier for tech workers who want to do good to shout down the scammers, nonsense-peddlers and grifters:

https://pluralistic.net/2023/07/28/microincentives-and-enshittification/

Yesterday, a federal judge ruled that the FTC could hold Amazon executives personally liable for the decision to trick people into signing up for Prime, and for making the unsubscribe-from-Prime process into a Kafka-as-a-service nightmare:

https://arstechnica.com/tech-policy/2024/05/amazon-execs-may-be-personally-liable-for-tricking-users-into-prime-sign-ups/

Imagine how powerful a precedent this could set. The Amazon employees who vociferously objected to their bosses' decision to make Prime as confusing as possible could have raised the objection that doing this could end up personally costing those bosses millions of dollars in fines:

https://pluralistic.net/2023/09/03/big-tech-cant-stop-telling-on-itself/

We need to make climate tech, not Big Tech, the center of our scrutiny and will. The climate emergency is so terrifying as to be nearly unponderable. Science fiction writers are increasingly being called upon to try to frame this incomprehensible risk in human terms. SF writer (and biologist) Peter Watts's conversation with evolutionary biologist Dan Brooks is an eye-opener:

https://thereader.mitpress.mit.edu/the-collapse-is-coming-will-humanity-adapt/

They draw a distinction between "sustainability" meaning "what kind of technological fixes can we come up with that will allow us to continue to do business as usual without paying a penalty for it?" and sustainability meaning, "what changes in behavior will allow us to save ourselves with the technology that is possible?"

Writing about the Watts/Brooks dialog for Naked Capitalism, Yves Smith invokes William Gibson's The Peripheral:

With everything stumbling deeper into a ditch of shit, history itself become a slaughterhouse, science had started popping. Not all at once, no one big heroic thing, but there were cleaner, cheaper energy sources, more effective ways to get carbon out of the air, new drugs that did what antibiotics had done before…. Ways to print food that required much less in the way of actual food to begin with. So everything, however deeply fucked in general, was lit increasingly by the new, by things that made people blink and sit up, but then the rest of it would just go on, deeper into the ditch. A progress accompanied by constant violence, he said, by sufferings unimaginable.

https://www.nakedcapitalism.com/2024/05/preparing-for-collapse-why-the-focus-on-climate-energy-sustainability-is-destructive.html

Gibson doesn't think this is likely, mind, and even if it's attainable, it will come amidst "unimaginable suffering."

But the universe of possible technologies is quite large. As Chachra points out in How Infrastructure Works, we could give every person on Earth a Canadian's energy budget (like an American's, but colder), by capturing a mere 0.4% of the solar radiation that reaches the Earth's surface every day. Doing this will require heroic amounts of material and labor, especially if we're going to do it without destroying the planet through material extraction and manufacturing.

These are the questions that we should be concerning ourselves with: what behavioral changes will allow us to realize cheap, abundant, green energy? What "innovations" will our society need to focus on the things we need, rather than the scams and nonsense that creates Silicon Valley fortunes?

How can we use planning, and solidarity, and codetermination to usher in the kind of tech that makes it possible for us to get through the climate bottleneck with as little death and destruction as possible? How can we use enforcement, discernment, and labor rights to thwart the enshittificatory impulses of Silicon Valley's biggest assholes?

If you'd like an essay-formatted version of this post to read or share, here's a link to it on pluralistic.net, my surveillance-free, ad-free, tracker-free blog:

https://pluralistic.net/2024/05/30/posiwid/#social-cost-of-carbon

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oddestishottest · 8 days ago

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06/14/25

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wachinyeya · 3 months ago

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Australia has reached the 'electrification tipping point,' making electric alternatives cheaper over 15 years compared to gas appliances and petrol vehicles.

Households switching from gas to electric appliances can save an average of $4,100 per year over 15 years, factoring in upfront costs.

Electric vehicles are now the lowest cost option for driving, with potential savings of $17,000 over 15 years compared to petrol cars.

Mar 31, 2025

#good news #Australia #electric power #fossil fuels #retrofitting #electricity #infrastructure #science #environment #climate change #climate crisis #climate hope #green energy #greenhouse gases #green architecture #green development

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reasonsforhope · 1 year ago

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As relentless rains pounded LA, the city’s “sponge” infrastructure helped gather 8.6 billion gallons of water—enough to sustain over 100,000 households for a year.

Earlier this month, the future fell on Los Angeles. A long band of moisture in the sky, known as an atmospheric river, dumped 9 inches of rain on the city over three days—over half of what the city typically gets in a year. It’s the kind of extreme rainfall that’ll get ever more extreme as the planet warms.

The city’s water managers, though, were ready and waiting. Like other urban areas around the world, in recent years LA has been transforming into a “sponge city,” replacing impermeable surfaces, like concrete, with permeable ones, like dirt and plants. It has also built out “spreading grounds,” where water accumulates and soaks into the earth.

With traditional dams and all that newfangled spongy infrastructure, between February 4 and 7 the metropolis captured 8.6 billion gallons of stormwater, enough to provide water to 106,000 households for a year. For the rainy season in total, LA has accumulated 14.7 billion gallons.

Long reliant on snowmelt and river water piped in from afar, LA is on a quest to produce as much water as it can locally. “There's going to be a lot more rain and a lot less snow, which is going to alter the way we capture snowmelt and the aqueduct water,” says Art Castro, manager of watershed management at the Los Angeles Department of Water and Power. “Dams and spreading grounds are the workhorses of local stormwater capture for either flood protection or water supply.”

Centuries of urban-planning dogma dictates using gutters, sewers, and other infrastructure to funnel rainwater out of a metropolis as quickly as possible to prevent flooding. Given the increasingly catastrophic urban flooding seen around the world, though, that clearly isn’t working anymore, so now planners are finding clever ways to capture stormwater, treating it as an asset instead of a liability. “The problem of urban hydrology is caused by a thousand small cuts,” says Michael Kiparsky, director of the Wheeler Water Institute at UC Berkeley. “No one driveway or roof in and of itself causes massive alteration of the hydrologic cycle. But combine millions of them in one area and it does. Maybe we can solve that problem with a thousand Band-Aids.”

Or in this case, sponges. The trick to making a city more absorbent is to add more gardens and other green spaces that allow water to percolate into underlying aquifers—porous subterranean materials that can hold water—which a city can then draw from in times of need. Engineers are also greening up medians and roadside areas to soak up the water that’d normally rush off streets, into sewers, and eventually out to sea...

To exploit all that free water falling from the sky, the LADWP has carved out big patches of brown in the concrete jungle. Stormwater is piped into these spreading grounds and accumulates in dirt basins. That allows it to slowly soak into the underlying aquifer, which acts as a sort of natural underground tank that can hold 28 billion gallons of water.

During a storm, the city is also gathering water in dams, some of which it diverts into the spreading grounds. “After the storm comes by, and it's a bright sunny day, you’ll still see water being released into a channel and diverted into the spreading grounds,” says Castro. That way, water moves from a reservoir where it’s exposed to sunlight and evaporation, into an aquifer where it’s banked safely underground.

On a smaller scale, LADWP has been experimenting with turning parks into mini spreading grounds, diverting stormwater there to soak into subterranean cisterns or chambers. It’s also deploying green spaces along roadways, which have the additional benefit of mitigating flooding in a neighborhood: The less concrete and the more dirt and plants, the more the built environment can soak up stormwater like the actual environment naturally does.

As an added benefit, deploying more of these green spaces, along with urban gardens, improves the mental health of residents. Plants here also “sweat,” cooling the area and beating back the urban heat island effect—the tendency for concrete to absorb solar energy and slowly release it at night. By reducing summer temperatures, you improve the physical health of residents. “The more trees, the more shade, the less heat island effect,” says Castro. “Sometimes when it’s 90 degrees in the middle of summer, it could get up to 110 underneath a bus stop.”

LA’s far from alone in going spongy. Pittsburgh is also deploying more rain gardens, and where they absolutely must have a hard surface—sidewalks, parking lots, etc.—they’re using special concrete bricks that allow water to seep through. And a growing number of municipalities are scrutinizing properties and charging owners fees if they have excessive impermeable surfaces like pavement, thus incentivizing the switch to permeable surfaces like plots of native plants or urban gardens for producing more food locally.

So the old way of stormwater management isn’t just increasingly dangerous and ineffective as the planet warms and storms get more intense—it stands in the way of a more beautiful, less sweltering, more sustainable urban landscape. LA, of all places, is showing the world there’s a better way.

-via Wired, February 19, 2024

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reportsofagrandfuture · 1 year ago

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#solarpunk #permaculture #functional supply chains #green infrastructure #green future

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cognitivejustice · 11 months ago

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What is Green Infrastructure?

Runoff from stormwater continues to be a major cause of water pollution in urban areas. It carries trash, bacteria, heavy metals, and other pollutants through storm sewers into local waterways. Heavy rainstorms can cause flooding that damages property and infrastructure.

Historically, communities have used gray infrastructure—systems of gutters, pipes, and tunnels—to move stormwater away from where we live to treatment plants or straight to local water bodies. The gray infrastructure in many areas is aging, and its existing capacity to manage large volumes of stormwater is decreasing in areas across the country. To meet this challenge, many communities are installing green infrastructure systems to bolster their capacity to manage stormwater. By doing so, communities are becoming more resilient and achieving environmental, social and economic benefits.

Basically, green infrastructure filters and absorbs stormwater where it falls. In 2019, Congress enacted the Water Infrastructure Improvement Act, which defines green infrastructure as "the range of measures that use plant or soil systems, permeable pavement or other permeable surfaces or substrates, stormwater harvest and reuse, or landscaping to store, infiltrate, or evapotranspirate stormwater and reduce flows to sewer systems or to surface waters."

Green infrastructure elements can be woven into a community at several scales. Examples at the urban scale could include a rain barrel up against a house, a row of trees along a major city street, or greening an alleyway. Neighborhood scale green infrastructure could include acres of open park space outside a city center, planting rain gardens or constructing a wetland near a residential housing complex. At the landscape or watershed scale, examples could include protecting large open natural spaces, riparian areas, wetlands or greening steep hillsides. When green infrastructure systems are installed throughout a community, city or across a regional watershed, they can provide cleaner air and water as well as significant value for the community with flood protection, diverse habitat, and beautiful green spaces.

#solarpunk #solar punk #rain gardens #green infrastructure #DIY

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dandelionsresilience · 2 months ago

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Dandelion News - April 8-14

Based on preliminary results of this poll, for the next few weeks I’m gonna test out doing 5 articles a week instead of 10, as part of an effort to maintain my own mental health. If these half-sized posts get markedly fewer notes, I’ll try to figure out a different compromise.

Like these weekly compilations? Tip me at $kaybarr1735 or check out my Dandelion Doodles!

1. Zookeepers prepare Easter treats for animals

“”Our Asiatic lion cubs, who have just turned one, are at a crucial stage in their development, honing their natural exploratory and hunting instincts. Enrichment — like the enormous, scented Easter egg — plays an important role in this, helping to diversify their habitat and encouraging them to fully engage their strength and remarkably keen sense of smell.””

2. ‘People love being here’: London development shows harmony between nature and housing

“[… T]he charmingly named Tadpole Garden Village in Wiltshire will have 28 hectares (68 acres) of green space and nearly 2,000 homes. […] “We were initially brought in to find a nature-based solution to the flooding of the River Quaggy. We linked it to a floodplain and created sustainable urban drainage systems[….]””

3. Federal judge restores AP’s full access to White House events in victory for press freedom

“The ruling affirms that the First Amendment prohibits punishing journalists for refusing to adopt government-mandated language[….] “"Today’s ruling affirms the fundamental right of the press and public to speak freely without government retaliation.””

4. Huge Reductions in Plastic Pollution Along Aussie Coastlines

“[… P]lastic pollution along Australian coastlines has decreased by more than a third (39 per cent) over the past ten years[…. Other research found] a 16 percent increase in areas where no plastic debris was found at all.”

5. Pangolarium: world's first pangolin rehab facility opens in South Africa

“A purpose-built facility like the Pangolarium will give rescued pangolins the best chance at regaining health. Monitored release back into the wild is the goal whenever possible[….] “It will also be a research and conservation hub for pangolin academics, rehabilitators and veterinarians to share information and knowledge[….]””

April 1-7 news here | (all credit for images and written material can be found at the source linked; I don’t claim credit for anything but curating.)

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bumblebeeappletree · 3 months ago

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youtube

✅ Making cities resilient to floods

About 44% of all disaster events around the world are flood-related.

In our new explainer episode, we show how ‘sponging’ cities can help them overcome the challenge of flooding while strengthening the local ecology, and boosting the economic and social well-being of residents.

In this episode, you will learn:

🟡 What a sponge city is (and how it works)

🟡 The benefits of ‘sponging’ cities (beyond flood-resilience)

🟡 Projects that demonstrate the principles and benefits of a sponge city at various scales (and what we can learn from them)

🟡 Why developers should be in favour of sponge city initiatives (they can save millions in costs)

And much more!

💚 If you gain value from this conversation, we hope you will subscribe to the channel 💚

Thank you to Holcim Foundation for Sustainable Construction for supporting season 5 of Ecogradia.

----------------------------------------------------------------------

Timestamps

00:00 Intro

01:43 What is a sponge city?

02:08 Features of a sponge city

04:16 Is 'sponging' expensive?

04:44 Benefits of a sponge city

08:19 The man who pioneered sponge cities

09:01 Yanweizhou Park | Jinhua, China

09:46 Why Bangkok and Jakarta are sinking

10:39 Tebet Eco Park | Jakarta, Indonesia

11:36 Chulalongkorn University Centenary Park | Bangkok, Thailand

12:13 Copenhagen's Cloudburst Management Plan

13:14 Sankt Kjelds Plads | Copenhagen, Denmark

14:06 How sponge cities can profit: Bishan-Ang Mo Kio Park | Singapore

15:46 How sponge cities can profit: Portland | USA

16:21 Outro

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This episode features the following projects:

Yanweizhou Park | Jinhua, China (2014)

Tebet Eco Park | Jakarta, Indonesia (2022)

Chulalongkorn University Centenary Park | Bangkok, Thailand (2017)

Sankt Kjeld's Square & Bryggervangen | Copenhagen, Denmark (2019)

Bishan-Ang Mo Kio Park | Singapore (2012)

Also featuring:

Fish Tail Park | Nanchang, China (2022)

Benjakitti Park | Bangkok, Thailand (2022)

Hunter’s Point South Waterfront Park | New York City, USA (2018)

Houtan Park | Shanghai, China (2010)

High Plains Environmental Center | Loveland, USA

Thammasat Urban Rooftop Farm | Bangkok, Thailand (2019)

Khoo Teck Puat Hospital | Singapore (2010)

Shangrao Xinjiang Ecological Park | Shangrao, China

Telok Blangah Hill Park | Singapore

Interlace Apartments | Singapore (2013)

Jiangsu—Victoria Sponge City Innovation Park | Kunshan, China

Quzhou Luming Park | Quzhou, China (2015)

OCT OH BAY Retail Park | Shenzhen, China (2021)

Tanghe 'Red Ribbon' Park | Qinhuangdao, China (2007)

Sanya Mangrove Park | Sanya, China (2019)

----------------------------------------------------------------------

We are also available on

Spotify: https://open.spotify.c...

Apple podcasts: https://podcasts.apple...

Website

https://www.ecogradia....

Read about sustainable projects on

https://www.ecogradia....

Subscribe to our fortnightly newsletter

https://ecogradia.us5....

No spamming here! :)

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Instagram: / ecogradia

LinkedIn: / ecogradia

Twitter: https://x.com/Ecogradia

#Ecogradia #Sustainability #Architecture #SpongeCity #FloodproofCity #ResilientCity #FloodProofCity #GreenSpace

[sustainability, architecture, sponge city, green spaces, floodproof city, resilient city]

#Ecogradia #solarpunk #sponge city #floods #flood #climate crisis #climate change #climate collapse #global heating #global warming #green infrastructure #blue infrastructure #China #Indonesia #thailand #denmark #Singapore #USA #Youtube

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