PBS News Hour - Full Show - Why communities are revolting against data centers
Episode Date: June 11, 2026Artificial intelligence data centers are popping up across America, spurring fierce backlash because of their need for huge amounts of water and power. Is the AI revolution worth the price communities... are paying? Horizons moderator William Brangham explores the impact of data centers with Michael Webber, author of "Power Trip: The Story of Energy," which was also made into a series on PBS. PBS News is supported by - https://www.pbs.org/newshour/about/funders. Hosted on Acast. See acast.com/privacy
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I'm William Brangham and this is Horizons.
Artificial intelligence data centers are popping up across America.
They're spurring innovation, but also fierce backlash
because of their need for huge amounts of water and power.
Is the AI revolution worth the price communities are paying?
What we know about the impact of data centers coming up next.
Welcome to Horizons.
We're going to do a deep dive today into the controversies
around the explosion of artificial intelligence data centers.
If one is or has been built in your community,
you likely know what I'm already talking about.
Hundreds of billions of dollars are being spent right now
constructing massive facilities to house and run the computers
that are needed for the spiking demand for artificial intelligence.
These centers are being built across the country
with a particular concentration in Virginia, Texas, California, and Illinois.
The biggest ones, so-called hyper-scale plants, like Meta's Hyperion plant in Louisiana,
could have a footprint nearly as big as Manhattan.
The leading tech giants, Meta, Google, Amazon, and Open AI, among others,
are in a breakneck race to get their centers up and running,
each hoping to seize the advantage and become a dominant supplier of AI.
But as those centers are being built, communities across the country are in open revolt,
concerned about the large amounts of water and energy that these centers require.
And it's a bipartisan backlash, with citizen activists pushing back at the speed of construction,
the concern over pollution and rising utility bills,
and the often opaque deals and tax breaks given to companies by their local officials.
According to one poll, seven in ten Americans would oppose a data center being constructed in their community,
and a majority would support a national moratorium on building more.
Given all of this, we wanted to examine the claims swirling around data centers to try and get a little clarity about their real impact.
And for that, we turn to Michael Weber.
He's a chair at both the LBJ School of Public Affairs and the Department of Mechanical Engineers,
both at the University of Texas at Austin.
He served as an officer and consultant
for several tech and energy companies,
including some in the AI business.
And he's the author of the book, Power Trip,
The Story of Energy, which was also made
into a multi-part series on PBS.
Michael Weber is so good to have you on the program.
I want to get into all these pros and cons
and accusations and defenses about these data centers,
but first off, just establish a baseline,
baseline for us. What are these data centers? What are they for? Who's building them?
That's a great question. So data centers, first of all, have been around for a while.
They're not new, but the pace of their construction and their size is really capturing
the attention because the last few years they've gotten a lot bigger. And we're starting to use
the tools in a more obvious way by tools. I mean, these AI tools, you might have used
Claude or Chattee BT or something like that. And these tools are calling these data
centers, which are these buildings that exist oftentimes outside of cities. And they've got big
warehouses, big built wall construction. And so they're just large facilities, maybe like it looks
like a distribution center or something, but inside is filled with computer racks just go on and on and on,
these rows and rows of racks of computers that are stacked up and down. And those data centers
fill of these computers are answering our queries as we use these tools. We ask it like,
make me a logo or look something up for me or help me analyze this data. That question we type into
our computer is going over fiber optics towards that data center, calling on those computers to do a
calculation and then giving us back some sort of replies. Those data centers,
are the place where those today, where those computations are made.
I see. Okay. I mentioned earlier this seven-and-10 poll,
people supporting a moratorium on building data centers.
I want to put up this recent Quinepiac poll,
which showed that I believe it was 65% of people would oppose a data center in their community.
And when asked why, 72% electricity costs, 64% said water use,
41% said noise.
So I want to go through each of those individually.
Let's start up with electricity.
Data centers do gobble up a lot of energy.
That is quite clear.
A lot of people argue data centers mean in my community
that my utility rates are going to go up.
What's the truth to that?
I mean, that's the concern.
That's a fair concern.
People are already nervous about electricity rates.
Rates have been going up for years
because of having to harden the system for hurricanes.
and windstorms or replace the system after wildfires in the mountain west.
So costs have already been going up for years.
And now we have data centers who want a lot of electricity.
So people are rightly concerned that rates will go up.
And I think there's a lot of political or policy concern that retirees and grandmothers will
have to pay higher rates to make really rich companies even richer.
So there's a lot of concern and sensitivity about electric rates.
There has always been concerned about electricity rates.
So that's not a new thing.
But all the recent inflation concerns really show up in our electric bills.
So there's a lot of concern.
And the reasons why that's a valid concern,
because these data centers consume a lot of electricity.
And so if you have a big new consumer come in,
who's going to take a lot of electricity,
and maybe they can outbid you for it,
they might bid the prices up.
So that's a valid concern.
Those same data centers are owned or operated or used by really rich companies,
so maybe we can convince them to invest in making the grid better,
which would drive down the rates for everybody.
In the challenges, we don't know which way it's going to go right now.
Are the data centers and the hyperscalers and these data companies?
Are they going to invest to make electricity more affordable for all of us?
Are they going to compete with us for electricity
and drive our rates up. That's the concern, I think, that they're stepping into with a lot of these
local communities. I know that some of these data centers, when they're being built, are saying,
look, because of these concerns and maybe because of local efficiency reasons, we will build our
own on-site power plants, that we will put turbines and generators on site to supply our own
electricity. Does that alleviate this problem? It solves one problem, but introduces other problems.
you're going to build what's called on-site power or behind the meter power generation,
the meter being where the building occurs with the local utility, they might say,
look, we'll build our own power plant, so we're not going to charge you or cause your rates
to go up or anything like that. That might solve the problem of competing with all of us at peak
times. And maybe we should take a moment to say that peak times tends to be afternoons in August
in the summer when everyone has their air conditioners on. We actually have an abundance of
electricity almost the entire year. But there are a few hours each year where we don't have an
abundance. And if they have on-site power generation, maybe that data center can disconnect from
the grid or partially disconnect and use their own power plant. So they're not competing with us at peak
times. And that's desirable in a variety of ways. The data center companies, for the most part,
are actually trying to solve a different problem. They're trying to solve a speed to power
problem where they want to get connected to electricity as soon as possible because they feel like they're
in a race. And when they talk to the local utility, the utility might say, look, it's going to take us
four or five years to connect you to the grid. They'll say, you know what? We'll build our own power plant
because that's faster. So they're often trying to solve a speed to power issue.
They can use that same equipment to reduce competition with all of us at peak times in those
afternoons in August. And that solves a couple problems, which is kind of nice.
But now all of a sudden you've got a power plant in your backyard and you might not want the noise
or the fumes or the trucks delivering the fuel, depending on what the fuel is.
So there are other problems that come with the on-site power generation, but it does perhaps
alleviate some pressure on electric rates.
Right. That is another one of the issues that you just touched on, this idea of local
pollution because those, if people haven't seen what a big electrical turbine is, it's like a jet engine
and that there can be dozens of them, if not more, on some of these big plants.
That is something that maybe when you bought your property out in a rural stretch of the country,
you weren't anticipating having a couple dozen jet engines firing up all the time in your backyard.
Yeah, a couple dozen jet engines or hundreds of these diesel generators.
And diesel generators are especially noisy and fuming and all.
all that kind of stuff.
And you can imagine hundreds of them lined up at your fence line.
Do you want that?
No one wants that.
In fact, diesel generators have been outlawed in California in other places because they're
so dirty.
And this is the challenge.
Like, hey, we'll build behind the meter or on-site generation.
But is it going to be an on-site generation at your fence line that you're comfortable
with?
That's part of the conversation.
Right.
Okay.
The next item on that Quinnipiac poll was people's concerns about water.
Data centers, the knock goes, use a ton of water.
Why?
What are they using the water?
for? If you picture a data center as like a big white box, maybe it's got power comes in,
electricity comes in, and then two things go out from the chips. Photons go out. So you're taking
electrons to photons. The chip is converting the electricity into photons, consider photons data
or information packets and generating heat. So the chip gets really hot there. A lot of these chips
and these computer servers and racks and these data centers. So electricity comes in, photons,
and heat goes out. And the heat's a real problem. You got to manage the heat so you don't
destroy the equipment or damage the facility or anything like that.
And so water is used for water cooling for the most part to cool these systems.
If you're inside a data center, there's actually a lot of air cooling.
They're blowing air over their computers and the racks and the chips.
But more and more, as the chips become more powerful, you need water cooling.
You can't cool them fast enough with just air.
So you have water cooling inside the facility.
You also have to cool that water cooling and that water cooling loop, imagine like a radiator
in your car, which has a closed loop of just radiator fluid going around to cool your engine.
And it's, that radiator's air cool as you drive on a highway.
If you take that water cooling loop inside your radiator, you have the same kind of thing
in your data center.
Sometimes you use a lake or a river or water to cool that water loop.
And that's part of the tension.
Like, wait, how much water are you going to use to cool your facility?
Is it a one-time charge where you're loading up the water in your closed loop cooling
and then you're done?
Or are you going to use water every day or every hour of every day to cool the water
loops for the data center.
So it's really around cooling the chips.
And this is where there is a lot of opportunity for innovation and research.
But if you go to a community that doesn't have much water, I'm thinking like West Texas, not much water.
Right.
A lot of competition for that water.
You say, we're going to build a data center.
We're going to create all these jobs that we're going to take all your water.
This is a real sensitive point for people because it's irreplaceable.
So there's a lot of pressure and pushback on data centers.
Like, we need you to use air cooling wherever possible.
We need water efficiency, thermal efficiency, reduce your water or do other things that we can talk about what some of the other things are.
But water is a very sensitive point.
And I would say from Texas, water is a more sensitive point than electricity, probably.
We have pretty cheap electricity in Texas.
We'd like to keep it that way.
But the water feels even more scarce.
So that's a real sore point.
Right. I mean, one of the last programs we just did here on Horizons
was about the Colorado River running dry
and all these states in the American Southwest,
sucking more and more out of a diminishing resource.
And if you're suddenly putting data centers on top of that,
you can see why there's a lot of resistance to that.
Yeah.
But the same kind of comment with electricity,
the data center companies are very rich,
Maybe they can invest in more water efficiency or water production systems or wetlands restoration or desalination.
They have the money and the desire to invest in water systems.
They might end up improving the water system if we ask them to and they agree and everything else.
So it doesn't just have to be that they're going to take all the water.
It can be they're part of the solution.
I mean, you're touching again on a point that really does come up a lot of times where local communities
look at the contracts that are signed.
oftentimes the companies will ask for non-disclosure agreements
so that the deals themselves that the data center construction companies
or the data center operators sign are really opaque.
And people think, what on earth is going on here?
Why are they speeding this through?
Like, are there examples of places where communities have said,
we want you to do this in the way that doesn't harm our community?
Are there effective examples that you would point to to say,
hey, here's an example where we did one of these right.
There is actually a lot of good examples.
And I think those are useful for us to know that, okay,
we're not trapped in this negative path.
We can look for a better opportunity.
It's not the standard yet.
It tends to be one-off examples.
Meta has a water-positive facility.
They're planning outside El Paso.
Google has done a really clever project with renewables in Minnesota.
Microsoft switched to air cooling outside of San Antonio.
So you can think of the big hyperscalers.
These are brand names we've all worked with.
or use or no, there are examples where they've done it in a really good way. It's not the default.
It's not the standard. And so I think that's part of all of us working together to say,
hey, the minimum standard should be quite good. And then let's make it better as time goes on and we
get more innovative. But the challenge is that where the locations are, they're not always within
a jurisdiction where there's really clear authority about who regulates what. In fact, a lot of the
development are in some of these unincorporated areas or maybe you have county commissioners or something.
They don't quite have like a city council and mayor or something. So there's a lot of ambiguity.
sometimes about who's in charge or how to respond and there's a lot of stealth that happens.
It's not always for malicious malign behavior. Sometimes the stealth is they're trying to get the
land to build the data center and they don't want their competitors to know. So there is
stealthy behavior as always happens in business and that arouses a lot of suspicions because people are
like, what's going on? What are you going to build where and why? Why didn't I know? And do we get
to be part of the process to help you make sure it's going to be sort of harmonious with society?
So there are a lot of examples of bad actors that have done it in a sort of too quiet, too malicious
way, maybe or dishonest way, and then some good examples. And I'd say, well, let's push for the good
examples. We know it's possible. Let's make that normal. Let's not make that the one-off exception.
Right. One of the other concerns that we have seen this in a lot of local news reporting is the noise
of these facilities. I mean, they are just quite enormous. And sometimes if they are in proximity
to where people live, that is a, that is just a cacophony that people do not want. What do we know about
how loud these things are? They're loud.
So, but there are a couple different sources of the noise to pay attention to do.
One is if you're inside the data center.
And when I walk through data centers and I've been to many, you're often given ear
protection like ear plugs or ear mitts or ear muffs or something of some sort,
to cover your ears because it's so noisy inside the data center from all the airflow.
They have to push so much air through the facility to cool the chips and computers.
It's quite noisy.
So you hear the constant hum of the fans moving the air.
That noise inside, you don't really hear outside though.
There's sound insulation for the most part.
Outside, you have a lot of generators.
You mentioned those diesel generators,
maybe those like aeros derivative jet engines
that are bolted to the ground to give you power on site.
Those diesel generators or gas generators or gas turbines,
those are all noisy.
You'll hear that as well.
And then there's all the truck noise and other things.
There's people coming and going.
Certainly during construction, there's a lot of noise.
And so if you move to the rural countryside to get away from the city noise,
and all of a sudden you've got a bunch of trucks and generators and fans and cooling towers,
it's noisier.
You can hear it.
That can be solved, usually by distance,
by getting more land and having a little more space between you and the fence line,
that would help if you have the space to do it.
And that's one reason why they don't build in urban areas is the noise is, well, the land's expensive,
but the noise is also a problem.
But there's several sources for the noise.
How much of this, Michael, do you think is a sort of mismatch between we're doing all of this massive construction
for the promise of the AI revolution, which right now, yes, we can use chat sheet,
and all of that, and I can figure out a recipe
or get an answer to some question
that my son is asking me about.
But that's, the real revolution
is still in the future, and the
present-day madness
is in people's backyards.
Without a doubt, I mean, I think
that's part of, I think we're always suspicious of new
stuff anyway. That's like kind of a human condition.
But we've got this new stuff showing up.
It's very visible, very loud. It might be expensive
for electricity. It might take our water, so we've got
all these concerns. And we don't even know what it's good
for. Maybe it's better cat videos, this kind of thing.
And that's the challenge is the benefits of AI haven't really shown up in visible ways yet,
but we should get better cancer treatments.
We should be able to accelerate fusion reactor design.
We should be able to optimize the grid.
Like there are all these really good things we can get out of AI, but those haven't shown up
in a very obvious visible way yet.
So we feel the impacts today.
The benefits come later.
That mismatch in time is a huge challenge because the benefits are kind of like, oh, maybe
I get a better search engine.
There are benefits from the economic development of the jobs, but not all those have a job
with those companies or get those economic benefits.
So there's a mismatch in who suffers, people in the rural countryside who now have a
noisy or loud or whatever it is, data center, very visible, ugly ones, for example,
versus who benefits, which are people later on or maybe some shareholders.
That mismatch and who benefits and who feels the impact and when we get the benefits and when
we feel that that's a huge problem.
The best example today we're getting from AI that people might understand is these
self-driving cars like Waymo, which are dramatically safer than human-driven cars.
like 80% reduction in accidents and fatalities, other things.
So that's all enabled by autonomy and artificial intelligence.
That is a great example of AI making traffic safer,
and that's one of the benefits we'll get.
So that's one we kind of see now at small scale in some cities,
but we really want all those other big benefits.
And then it will transform the world.
But meanwhile, we're suffering the impacts of the fumes,
the water, the electricity, the land, the noise, the light, the heat, everything else.
And then I think, too, I want to put this poll up.
This is a, according, a pew,
research poll about people's views of AI. According to Pew, half of Americans are, quote, more
concerned than excited about the increased use of AI in daily life. In the same poll, a slightly
smaller percentage, think it will make it harder to think creatively, that it'll worsen our
relationships, that it'll have a negative effect on the economy and on education. Do you think that that,
again, is also part of the equation here, that people seem to think, I'm going to get laid off
by AI. It's going to make my kids
dumber. Everyone's cheating on their homework
with it. Why are we building these
massive data centers to support all these things
that I think of as negative?
Without a doubt, like all these
human condition concerns or ethical concerns,
like, what is AI? Why is it good?
How is it going to change my relationship with my
fellow neighbor or my family and everything else?
These are real concerns. We see it at the
universities. We already have to figure out how to deal
with it with cheating and everything else. So there are
some downside of risk, without a doubt.
And I think this is true with every new technology.
said some of the same things with the arrival of the internet when I was in graduate school and
Wikipedia was a cheating to use Wikipedia. People would argue just the arrival of computers
decades before was cheating. You should have been able to do math with an abacus or your own by hand
or slide rule or something else. So we've had new tools come along. We have the same kind of fights
every time. Socrates was concerned when writing was developed. He thought if we used writing,
instead of committing things to memory, it would make us weak as learners. So they were afraid of
the new technology writing. And so this is kind of a constant.
thing. We're always afraid of the new thing because we don't really understand the benefits yet. And there are downside risks for sure of all this. I think that like any tool it could be used for good or bad. You can use a hammer for good or bad. It's a tool. You can use AI for good and bad. And for the most part, humans will use it for good. And some people will use it for bad. That's a real ethical concern. But if you're worried about it's going to lay me off and make my kids stupid and take all our water and make our electricity more expensive. Like, yeah, this is a big set of concerns. And I think that's on us to figure out on us or everyone who's developing AI to say, okay, is this a tool?
we can live with. If so, do we need rules? What are those rules going to be to ensure it's safe
for our children and everybody else? So I think that's part of the conversation and a huge part
of the concern. And kind of rightly so, I think we'll get through it because we'll start to see
some good use cases, but it's really hard right now. Do you think the companies, again,
you and we both have been saying how they are all in a headlong rush to get to be first to market,
to get these centers up to speed.
Do you think that they appreciate
and see this burgeoning opposition
all over the country
and they recognize, one, they have to address it more
and maybe make the case more publicly to people
as to here's why we're imposing on your communities.
And two, here's what the possible benefits are.
Do you think that they got that message
and that they are doing that?
I think they got the message
and they're starting now.
I also think they're very late.
They did not start with that.
So I feel like they have moved headlong of this.
They're in a race.
It feels like an arms race that there's only be a few winners and they want to be one of the few winners.
So speed matters more than niceties or getting along well with your neighbors.
And now they're finding out actually getting a long well with your neighbors is part of the condition for having speed because your neighbors can slow you down.
So I think they're figuring it out kind of late.
And this reminds me of the hydraulic fracturing or shale revolution that happened about 15 to 20 years ago where a lot of these oil and gas companies looking to produce shale moved into these rural communities with this new technology.
that unlock a lot of domestic oil and gas from these shell formations.
And they thought they'd be treated as heroes, liberating us from the yoke of Middle Eastern oil and gas.
And instead, people got mad because of all the noise and trucks and everything else.
The same kind of story.
And they figured out a few years in like, oh, we need to go talk to the neighbors and really sort this out because they see us as part of the problem rather than part of the solution.
AI companies see that now too.
They thought they'd be heroes.
We're bringing new tools.
We're going to make you rich.
We're going to employ all these people.
We're going to beat the bad guys.
And now they're finding out people perceive the.
these companies as the bad guys, so they're having to place some catch up.
And that's pretty typical that often happens when there's a sort of a land rush or gold rush,
so to speak, where they move quickly, make mistakes, then figure out, oh, we need to go back and
manage this better.
So they've got the message that's working on it.
I don't think they've solved it yet, and this reminds me of the Shell Revolution.
I've seen this before for oil and gas.
There are, in this conversation about data centers, you inevitably will hear Elon Musk, Google,
others talk about this, that, okay, maybe they're.
there are limits to what we can do on the land with regards to these data centers,
and we ought to go to outer space and build them up there.
Explain the rationale why that might be feasible and why they would want to do that.
Outer space or sub-sea, offshore and below water, right?
So it strikes me as an engineer is just so difficult.
Offshore is so much harder than onshore because you've got to deal with the waves and the wind
and the salt water, the corrosion, the water, tightness, everything else.
And then that's easy compared to space.
Space is really hard.
These are really hard places to make things work.
To be space rated means something different than to be suitable for use on land or offshore.
So the idea that you might go offshore and below water or out into outer space and out of the atmosphere
is driven by some sort of necessity, I think is what's happening, where they feel like it's just too
slow to build the grid the way we need it.
It's too hard to get the power we need.
There are too many neighbors who complain.
Let's go where there aren't neighbors who can complain offshore or outer space.
And so you can get a couple of things.
Fewer people complain because you're out of sight, out of mind.
You get your cooling for free.
Deep space is quite cold.
The ocean's quite cold.
It gets a lot of cooling so that reduces your energy needs.
But also, you might be able to get solar power in space more easily than building a huge solar farm on the ground.
Now, I'm skeptical.
The engineering of that all seems really, really hard.
But if you believe that the cost to go to space will drop, the cost for solar panels will drop, that the cost to expand the grid on ground will double, then it starts to like space might make sense.
If you think neighbors always get in your way going offshore for the cooling water and to get away from the neighbors might make sense as well.
That strikes me as really hard, frankly, but really smart people who are developing this who are thinking about it, they're all looking at it.
So I might be wrong on this, but I say it's going to be easier to build it on Earth, on ground, than in space.
But SpaceX and other companies are trying to drive down the lift costs to make it cheaper to go to space.
Maybe it won't make sense.
Just in the last 30 seconds we have or so, you do believe, though, you're optimistic,
that we have enough agency to do it right here.
Let's do it right way.
I mean, we can make these data centers,
power flexible, water positive, carbon negative,
and really harmonious with the land.
Let's just do it, let's demand it of our partners.
I say let's do it that way.
Michael Weber, it is always great to hear from you,
but especially on such a controversial
and confused and convoluted topic.
You're such a clear voice on this.
Thank you so much.
Michael Weber at the University of Texas.
Great to talk to you.
Thank you.
Thank you.
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