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With the ongoing disaster approaching its second week, here’s where things stand.

A week ago, forecasters in Southern California warned residents of Los Angeles that conditions would be dry, windy, and conducive to wildfires. How bad things have gotten, though, has taken everyone by surprise. As of Monday morning, almost 40,000 acres of Los Angeles County have burned in six separate fires, the biggest of which, Palisades and Eaton, have yet to be fully contained. The latest red flag warning, indicating fire weather, won’t expire until Wednesday.
Many have questions about how the second-biggest city in the country is facing such unbelievable devastation (some of these questions, perhaps, being more politically motivated than others). Below, we’ve tried to collect as many answers as possible — including a bit of good news about what lies ahead.
A second Santa Ana wind event is due to set in Monday afternoon. “We’re expecting moderate Santa Ana winds over the next few days, generally in the 20 to 30 [mile per hour] range, gusting to 50, across the mountains and through the canyons,” Eric Drewitz, a meteorologist with the Forest Service, told me on Sunday. Drewitz noted that the winds will be less severe than last week’s, when the fires flared up, but he also anticipates they’ll be “more easterly,” which could blow the fires into new areas. A new red flag warning has been issued through Wednesday, signaling increased fire potential due to low humidity and high winds for several days yet.
If firefighters can prevent new flare-ups and hold back the fires through that wind event, they might be in good shape. By Friday of this week, “it looks like we could have some moderate onshore flow,” Drewitz said, when wet ocean air blows inland, which would help “build back the marine layer” and increase the relative humidity in the region, decreasing the chances of more fires. Information about the Santa Anas at that time is still uncertain — the models have been changing, and the wind is tricky to predict the strength of so far out — but an increase in humidity will at least offer some relief for the battered Ventura and Orange Counties.
The Palisades Fire, the biggest in L.A., ripped through the hilly and affluent area between Santa Monica and Malibu, including the Pacific Palisades neighborhood, the second-most expensive zip code in Los Angeles and home to many celebrities. Structures in Big Rock, a neighborhood in Malibu, have also burned. The fire has also encroached on the I-405 and the Getty Villa, and destroyed at least two homes in Mandeville Canyon, a neighborhood of multimillion-dollar homes. Students at nearby University of California, Los Angeles, were told on Friday to prepare for a possible evacuation.
The Eaton Fire, the second biggest blaze in the area, has killed 16 people in Altadena, a neighborhood near Pasadena, according to the Los Angeles Times, making it one of the deadliest fires in the modern history of California.
The 1,000-acre Kenneth fire is 100% contained but still burning near Calabasas and the gated community of Hidden Hills. The Hurst Fire has burned nearly 800 acres and is 89% contained and is still burning near Sylmar, the northernmost neighborhood in L.A. Though there are no evacuation notices for either the Kenneth or the Hurst fires, residents in the L.A. area should monitor the current conditions as the situation continues to be fluid and develop.
The 43-acre Sunset Fire, which triggered evacuations last week in Hollywood and Hollywood Hills, burned no homes and is 100% contained.
The Lidia Fire, which ignited in a remote area south of Acton, California, on Wednesday afternoon, burned 350 acres of brush and is 100% contained.
It can take years to determine the cause of a fire, and investigations typically don’t begin until after the fire is under control and the area is safe to reenter, Edward Nordskog, a retired fire investigator from the Los Angeles Sheriff’s Department, told Heatmap’s Emily Pontecorvo. He also noted, however, that urban fires are typically easier to pinpoint the cause of than wildland fires due to the availability of witnesses and surveillance footage.
The vast majority of wildfires, 85%, are caused by humans. So far, investigators have ruled out lightning — another common fire-starter — because there were no electrical storms in the area when the fires started. In the case of the Palisades Fire, there were no power lines in the area of the ignition, though investigators are now looking into an electrical transmission tower in Eaton Canyon as the possible cause of the deadly fire in Altadena. There have been rumors that arsonists started the fires, but investigators say that scenario is also pretty unlikely due to the spread of the fires and how remote the ignition areas are.
Officially, 24 people have died, but that tally is likely to rise. California Governor Gavin Newsom said Sunday that he expects “a lot more” deaths will be added to the total in the coming days as search efforts continue.
Incoming President Donald Trump slammed the response to the L.A. fires in a Truth Social post on Sunday morning: “This is one of the worst catastrophes in the history of our Country,” he wrote. “They just can’t put out the fires. What’s wrong with them?”
Though there is much blame going around — not all of it founded in reality — the challenges facing firefighters are immense. Last week, because of strong Santa Ana winds, fire crews could not drop suppressants like water or chemical retardant on the initial blazes. (In strong winds, water and retardant will blow away before they reach the flames on the ground.)
Fighting a fire in an urban or suburban area is also different from fighting one in a remote, wild area. In a true wildfire, crews don’t use much water; firefighters typically contain the blazes by creating breaks — areas cleared of vegetation that starve a fire of fuel and keep it from spreading. In an urban or suburban event, however, firefighters can’t simply hack through a neighborhood, and typically have to use water to fight structure fires. Their priority also shifts from stopping the fire to evacuating and saving people, which means putting out the fire itself has to wait.
What’s more, the L.A. area faced dangerous fire weather going into last week — with wind gusts up to 100 miles per hour and dry air — and the persistence of the Santa Ana winds during firefighting operations through the weekend made it extremely difficult for emergency managers to gain a foothold.
Trump and others have criticized Los Angeles for being unprepared for the fires, given reports that some fire hydrants ran dry or had low pressure during operations in Pacific Palisades. According to the Los Angeles Department of Water and Power, about 20% of hydrants were affected, mostly at higher elevations.
The problem isn’t a lack of preparation, however. It’s that the L.A. wildfires are so large and widespread, the county’s preparations were quickly overwhelmed. “We’re fighting a wildfire with urban water systems, and that is really challenging,” Los Angeles Department of Water and Power CEO Janisse Quiñones said in a news conference last week. When houses burn down, water mains can break open. Civilians also put a strain on the system when they use hoses or sprinkler systems to try to protect their homes.
On Sunday, Judy Chu, the Democratic lawmaker representing Altadena, confirmed that fire officials had told her there was enough water to continue the battle in the days ahead. “I believe that we're in a good place right now,” she told reporters. Newsom, meanwhile, has responded to criticism over the water failure by ordering an investigation into the weak or dry hydrants.
So-called “super soaker” planes have had no problem with water access; they’re scooping directly from the ocean.
Yes. Although aerial support was grounded in the early stages of the wildfires due to severe Santa Ana winds, flights resumed during lulls in the storms last week.
There is a misconception, though, that water and retardant drops “put out” fires; they don’t. Instead, aerial support suppresses a fire so crews can get in close and use traditional methods, like cutting a fire break or spraying water. “All that up in the air, all that’s doing is allowing the firefighters [on the ground] a chance to get in,” Bobbie Scopa, a veteran firefighter and author of the memoir Both Sides of the Fire Line, told me last week.
With winds expected to pick up early this week, aerial firefighting operations may be grounded again. “If you have erratic, unpredictable winds to where you’ve got a gust spread of like 20 to 30 knots,” i.e. 23 to 35 miles per hour, “that becomes dangerous,” Dan Reese, a veteran firefighter and the founder and president of the International Wildfire Consulting Group, told me on Friday.
Because of the direction of the Santa Ana winds, wildfire smoke should mostly blow out to sea. But as winds shift, unhealthy air can blow into populated areas, affecting the health of residents.
Wildfire smoke is unhealthy, period, but urban and suburban smoke like that from the L.A. fires can be particularly detrimental. It’s not just trees and brush immolating in an urban fire, it’s also cars, and batteries, and gas tanks, and plastics, and insulation, and other nasty, chemical-filled things catching fire and sending fumes into the air. PM2.5, the inhalable particulates from wildfire smoke, contributes to thousands of excess deaths annually in the U.S.
You can read Heatmap’s guide to staying safe during extreme smoke events here.
“The bad news is, I’m not seeing any rain chances,” Drewitz, the Forest Service meteorologist, told me on Sunday. Though the marine layer will bring wetter air to the Los Angeles area on Friday, his models showed it’ll be unlikely to form precipitation.
Though some forecasters have signaled potential rain at the end of next week, the general consensus is that the odds for that are low, and that any rain there may be will be too light or short-lived to contribute meaningfully to extinguishing the fires.
The chaparral shrublands around Los Angeles are supposed to burn every 30 to 130 years. “There are high concentrations of terpenes — very flammable oils — in that vegetation; it’s made to burn,” Scopa, the veteran firefighter, told me.
What isn’t normal, though, is the amount of rain Los Angeles got ahead of this past spring — 52.46 inches in the preceding two years, the wettest period in the city’s history since the late 1800s — which was followed by a blisteringly hot summer and a delayed start to this year’s rainy season. Since October, parts of Southern California have received just 10% of their normal rainfall
This “weather whiplash” is caused by a warmer atmosphere, which means that plants will grow explosively due to the influx of rain and then dry out when the drought returns, leaving lots of dry fuels ready and waiting for a spark. “This is really, I would argue, a signature of climate change that is going to be experienced almost everywhere people actually live on Earth,” Daniel Swain, a climate scientist at the University of California, Los Angeles, who authored a new study on the pattern, told The Washington Post.
We know less about how climate change may affect the Santa Anas, though experts have some theories.
At least 12,000 structures have burned so far in the fires, which is already exacerbating the strain on the Los Angeles housing market — one of the country’s tightest even before the fires — as thousands of displaced people look for new places to live. “Dozens and dozens of people are going after the same properties,” one real estate agent told the Los Angeles Times. The city has reminded businesses that price gouging — including raising rental prices more than 10% — during an emergency is against the law.
Los Angeles had a shortage of about 370,000 homes before the fires, and between 2021 and 2023, the county added fewer than 30,000 new units per year. Recovery grants and federal aid can lag, and it often takes more than two years for even the first Housing and Urban Development Disaster Recovery Grants’ expenditures to go out.
My colleague Matthew Zeitlin wrote for Heatmap that the economic impact of the Los Angeles fire is already much higher than that of other fires, such as the 2018 Camp fire, partly because of the value of the Pacific Palisades real estate.
The wildfires may “deal a devastating blow to [California’s] fragile home insurance market,” Heatmap’s Matthew Zeitlin wrote last week. In recent years, home insurers have left California or declined to write new policies, at least partially due to the increased risk of wildfires in the state.
Depending on the extent of the damage from the fires, the coffers of California’s FAIR Plan — which insures homeowners who can’t get insurance otherwise, including many in Pacific Palisades and Altadena — could empty, causing it to seek money from insurers, according to the state’s regulations. As Zeitlin writes, “This would mean that Californians who were able to buy private insurance — because they don’t live in a region of the state that insurers have abandoned — could be on the hook for massive wildfire losses.”
First and foremost, sign up for all relevant emergency alerts. Make sure to turn on the sound on your phone and keep it near you in case of a change in conditions. Pack a “go bag” with essentials and consider filling your gas tank now so that you can evacuate at a moment’s notice if needed. Read our guide on what to do if you get a pre-evacuation or an evacuation notice ahead of time so that you’re not scrambling for information if you get an alert.
The free Watch Duty app has become a go-to resource for people affected by the fires, including friends and family of Angelenos who may themselves be thousands of miles away. The app provides information on fire perimeters, evacuation notices, and power outages. Its employees pull information directly from emergency responders’ radio broadcasts and sometimes beat official sources to disseminating it. If you need an endorsement: Emergency responders rely on the app, too.
There are many scams in the wake of disasters as crooks look to take advantage of desperate people — and those who want to help them. To play it safe, you can use a hub like the one established by GoFundMe, which is actively vetting campaigns related to the L.A. fires. If you’re looking to volunteer your time, make a donation of clothing or food, or if you’re able to foster animals the fire has displaced, you can use this handy database from the Mutual Aid Network L.A. There are also many national organizations, such as the Red Cross, that you can connect with if you want to help.
The City of Los Angeles and the Los Angeles Fire Department have asked that do-gooders not bring donations directly to fire stations or shelters; such actions can interfere with emergency operations. Their website provides more information about how you can help — productively — on their website.
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Building a data center is also quite carbon-intensive.
When I helped start Heatmap News three years ago, I didn’t think I would be writing this much about big tech companies.
I knew that, sure, they were crucial to America’s ability to develop and scale some next-generation emissions-reducing technologies. (By then, Microsoft had already started its huge carbon removal purchasing program.) And, yes, I knew they bought a lot of renewables. But I still understood their clean energy programs chiefly as an employee perk — a way for some of the economy’s richest firms to show their largely urban, college-educated, and liberal employees that they cared.
Perhaps that was true once. It’s not true anymore. Over the past several years, the tech companies have become major electricity consumers and producers in their own right. Artificial intelligence has turned their electricity procurement and development businesses into core operational competencies. (Meta and Microsoft have even considered entering the electricity trading business.) Some of the thorniest questions in climate policy were first encountered by these tech companies.
More importantly, their hunger for electricity has transformed them into quasi-industrial companies — and given them enough heft in the market to sometimes counterbalance (and sometimes collaborate with) the utilities and fossil fuel firms that previously steered the sector. As such, they’re now crucial parts of the U.S. decarbonization story.
Three companies in particular dominate the artificial intelligence cloud business: Google, Amazon, and Microsoft.
The country’s best-known frontier labs, such as OpenAI and Anthropic, rely on these companies to provide their compute power; Amazon Web Services is the backbone of virtually the entire online software industry. Amazon, Google, and Microsoft account for more than half of the country’s data center power capacity, according to the investment firm Jeffries.
So these companies’ emissions are, in a sense, not only their own; they also give us a view into the AI industry’s carbon footprint more broadly.
Over the past two weeks, all three of these cloud providers released their energy and emissions data for the past year, and we’ve looked at the top line findings from these reports in past editions. Today I want to briefly dive into what they could mean together.
Let’s handle the part you already know: Everyone’s emissions are up.
Microsoft’s emissions grew by 25% last year, their largest year-over-year leap since the pandemic. Amazon’s emissions leapt by 16%, its largest one-year increase ever. Google’s emissions increased by 18%, rising above their pre-pandemic level.
This surge will make the companies’ climate goals increasingly difficult to meet — and some of them are coming up fast. Microsoft has pledged to become ‘carbon negative’ by 2030, meaning it must remove more climate pollution from the atmosphere than it emits in that year. Google has pledged to achieve net zero by 2030, a goal that requires — by its own estimate — cutting its emissions in half by that year, as compared to their 2019 level. Amazon, meanwhile, has pledged to achieve net-zero in its operations by 2040.
All three firms’ greenhouse gas emissions are up because of the AI data center boom. Microsoft consumes nearly four times as much electricity as it did before the pandemic; Google’s electricity use has more than doubled.
These companies’ energy use has swelled, too, but at least as of last year, nearly all of their energy demand still took the form of electricity. When we think about “electrification” in the national context, perhaps we should think at least as much about these AI megalodons as we do about heat pump or battery manufacturers.
Amazon, to its shame, does not publish recent electricity usage data, so it doesn’t appear on either of these charts.
But outsiders have estimated its power consumption based on the numbers it does publish. Hendrik Rood, an IT researcher and consultant in the Netherlands, calculates that Amazon’s data center business used 78,000 gigawatt-hours in 2025. That would mean it consumes nearly as much electricity as Microsoft and Google combined.
As I cautioned yesterday, some of these figures are already outdated. Although all three companies just released their 2025 sustainability data, Microsoft brackets its report to the fiscal year, which ended on June 30, 2025. Google and Amazon’s data covers the calendar year.
In what might be a quirk inherent to the genre, all three sustainability reports have a somewhat defensive tone (or at least a writing style that tries to anticipate quibbles). These companies know that their sustainability pledges, embraced in the heady flush of 2020 and 2021, have become much more difficult to fulfill in the AI era. And they want you to know that all of their emissions could be worse — if not for their corporate policies, pollution might be much higher.
I can’t say I find these counterfactuals entirely believable. We don’t know what Google or Microsoft or Amazon would do if, say, computing were more energy intensive or a certain process more environmentally damaging. And Jevon’s paradox suggests that every gain in efficiency — especially for a service as in-demand as AI — will make it cheaper to use AI, therefore raising its energy demand.
But I do think it’s worth sharing these claims to get some perspective. Google, for its part, says that its corporate emissions would be five times higher than they are if not for its total slate of policies:

Microsoft takes a more clinical approach. It selects four of its corporate policies: “carbon-free electricity, sustainable fuels, XBOX console efficiency,” as well as efforts to decarbonize its Surface tablet production. If not for these interventions, it says, it would have emitted 34 million tons of greenhouse gas into the atmosphere last year, not the 21 million tons that it did produce.
For all the focus on the difficulty of powering data centers (including by Heatmap), electricity does not drive most of these companies’ emissions — or it didn’t in the first half of last year, at least. The majority of Microsoft, Google, and Amazon’s greenhouse gas emissions came from what are dubbed “scope 3” emissions, a somewhat nebulous category that includes buildings, employee travel, and the full carbon footprint of their supply chain. This category reflects the AI boom in its own way.
(Skip this if you’re a sustainability nerd: In the classic schema used for corporate emissions accounting, “scope 1” emissions are direct fossil fuel pollution from an asset that the company owns or controls, “scope 2” emissions are pollution associated with the electricity, steam, or chilled water purchased by the company, and “scope 3” emissions are everything else — pollution from the company’s upstream supply chain and its downstream product use. I find this scheme makes somewhat more sense for businesses like airlines and automakers than it does for technology conglomerates. But that’s a different newsletter.)
It makes sense, then, that Amazon should have huge scope 3 emissions. The scope 3 subcategory called “Purchased Goods and Services” drives the largest share of its emissions; these include pollution from goods and services that Amazon buys for its employees to use, as well as all the embodied carbon in its line of Amazon Basics products.
But the biggest driver of scope 3 emissions — and thus for emissions overall — for Microsoft and Google came from “capital goods,” a category that covers new construction, physical assets and other fixed infrastructure used to produce products and services. More than 40% of Microsoft’s total emissions came from capital goods, and they made up more than 9 million metric tons of the company’s greenhouse gases. Google doesn’t fully aggregate out its “capital goods” category, combining it with the “use of sold products” subcategory, but it was responsible for almost 9 million tons as well.
These capital goods include the new data centers themselves: all the cement, steel, server racks, and silicon that actually make up the physical infrastructure supporting the AI boom. Here at Heatmap, we often focus on the electricity sector because it’s where so much change. But it’s good to remember that construction remains enormously carbon-intensive, and the literal buildings that house AI are, in many cases, still driving a disproportionate amount of emissions.
The July 4 heat wave showed just how far the metropolis has to go to reach its decarbonization goals.
New York City’s decarbonization plan has stalled. The events of this year’s Fourth of July weekend all but prove it.
The temperature in the city reached as high as 100 degrees Fahrenheit on Thursday, July 2, the hottest it’s been here in 14 years. As New Yorkers blasted their air conditioners to stay cool, utilities drew on all of New York’s resources to serve the resulting electricity demand for cooling. These included a fleet of dual-fuel power plants, which can burn both oil and natural gas and encompasses many of its peakers, which turn on to deal with spikes of demand.
Those dual-fuel plants pushed over 10 gigawatts of electricity onto the grid on the evening of July 1— about a third of the total load in the state — and hit similar peaks on the 2nd and 3rd. The peaker fleet owned and operated by the New York Power Authority was operational for over two-thirds of the heat wave, which persisted for four consecutive days, while some ran nonstop from 7 a.m. July 2 to 3 a.m. July 4, according to NYPA.
In response to questions about the use of its peakers during the heat wave, a NYPA spokesperson told me, “During times of peak energy demand, like last week’s heat wave, the state’s independent grid operator called upon NYPA’s Small Natural Gas Power Plants to run well beyond their typical usage to meet high energy needs and prevent localized blackouts.”
While specific generator information is a protected trade secret, they said, “capacity suppliers are critical resources to meet system peak loads like those experienced during the recent heatwave.”
And yet still, over 100,000 people lost power during the heat wave. Real-time electricity prices in the area of the New York grid that includes the city got as high as $1,465 per megawatt-hour on the evening of July 3, according to data collected by Grid Status.
At the same time, the latest addition to New York’s non-carbon electricity generation fleet, a transmission line from Quebec that can transmit up to 1,250 megawatts known as the Champlain Hudson Power Express, was struggling. It experienced an unplanned outage on July 1, the first day of the heat wave, followed by a second outage beginning on July 4 that still had not been resolved as of Friday.
Since 2014, the city has had an aspirational goal of reducing emissions by 80% of its 2005 levels by 2050. CHPE was a major part of that plan, which also included offshore wind and utility-scale solar. There has been progress: Of the 1,000 megawatts of solar the city aims to have installed by 2030, about two thirds have been built. Even so, about 90% of New York City’s electricity came from fossil fuels in 2025, according to the city’s comptroller.
Why the difficulty decarbonizing? Blame a mixture of policy and geography. New York City is dense and has a lot of old buildings with old heating systems. Reducing consumption of fossil fuels requires getting cars off the road (congestion pricing) and retrofitting buildings with electric appliances (Local Law 97).
But that’s the demand side — the supply side is far trickier. Utility-scale non-carbon-emitting power on the orders of hundreds of megawatts or a gigawatt will have to be built elsewhere and piped in via transmission lines. That means offshore wind, solar (ideally with battery storage), and maybe one day nuclear power.
To the extent New York City can build solar and storage locally, it means dealing with a thicket of building regulations and local opposition. Efforts to shut down or replace peaker plants in the city have run into a brick wall at the New York Independent System Operator, which has declared that at least some peakers will have to stay online through the end of the decade to maintain system-wide reliability.
The only other new source of carbon-free power currently under construction is the offshore wind project Empire Wind, due to come online in 2027. NYISO said last year that without CHPE, Empire, and two local transmission projects planned to enter service by 2030, New York City would be “deficient in the summer” through 2030.
Of course developers have scrapped several other offshore wind projects over the years, whether due to problems procuring the right size turbine or the Trump administration buying out their lease. And though New York Governor Kathy Hochul pledged last summer to develop at least a gigawatt of new nuclear capacity in the northern region of the state, that is probably a decade away from fruition.
Meanwhile the Clean Path transmission line, which was meant to connect New York City to several gigawatts of new wind, solar and hydropower, saw its contracts canceled in late 2024 as its projected costs continued to rise. Last year, utility regulators shut down an effort by the state-run New York Power Authority to take it over as a “priority transmission project,” questioning whether it was “needed expeditiously” to meet downstate reliability needs and arguing that the project “will not be needed to serve substantial amounts of generation until well after 2033, and possibly not until 2040.”
While the city has some utility-scale battery storage systems, would-be developers have faced intense local opposition. Fullmark Energy, for instance, scrapped a planned 650-megawatt storage project after protests from political figures, including frequent mayoral candidate Curtis Sliwa. A dispute over another battery storage project in Queens has escalated into accusations of assault leveled by Councilmember Phil Wong, who called for a criminal investigation into what he said was an assault by a contractor for a project against his staffer.
So what’s left for New York City to do?
Any near-term progress will likely come from increasing efficiency and adding marginal generation capacity, as opposed to large-scale new projects and decommissioning of power plants.
“We need to max out our energy efficiency gains from Local Law 97,” former New York City Chief Climate Policy Advisor Daniel Zarelli told me, referring to a 2019 law mandating steep reductions in emissions from large buildings in the city, which came into effect two years ago. He also called for a further“push on batteries and behind the meter solar, clean energy, and energy efficiency.”
Already across the state, behind-the-meter solar is shaving off peak power demand. On the afternoon of July 2, behind-the-meter solar accounted served about 4.5 gigawatts to users, according to NYISO and Grid Status data.
Going forward, Zarelli said, the city should use its purchasing and planning power — as it did with CHPE — for projects like resurrecting Clean Path. “We need to be starting now. Maybe it’s not by 2030, but soon after we could be getting the benefit of that.”
“Battery developers started to see interconnection costs that were around 30 or 40 times what is standard,” Patrick Robbins, director of the Utility Customers Association told me. “It just means that new battery projects completely don’t pencil out and so we have a de facto moratorium on new [battery] projects.”
Advocates for solar and storage have blamed Con Edison for the city’s slow progress there, claiming that changes in the interconnection process have made it essentially cost prohibitive for battery storage developers to move forward on new projects.
Some of these fights have landed in front of New York’s Public Service Commission. In a filing, the city cited data from Con Edison showing that “the interconnection costs for some projects … have increased by thousands of percent,” citing one project whose interconnection costs jumped from $640,000 to over $35 million due to changes in how Con Edison attributed grid costs from new projects.
"Battery storage is essential to New York's clean energy future, and Con Edison strongly supports the development of energy storage when projects are deployed at the right locations, at the appropriate scale, and with operating parameters that provide the greatest benefit to customers and the electric grid,” a Con Edison spokesperson told me. “Because grid constraints vary across our system — from neighborhood‑level distribution lines to major transmission corridors — the location of a battery ultimately determines how much benefit it can deliver to the grid and to customers.”
There were 115 megawatts of battery storage operational in New York City at the end of last year, according to Con Edison, and 865 megawatts of projects with interconnection agreements. Peak load in the region is about 10,000 megawatts, meaning that these new projects would meaningfully alter the way the utility serves its customers.
Con Edison has claimed in a regulatory filing that the concentration of projects could lead to “significant impacts from BESS charging on infrastructure upstream of primary feeders,” necessitating the changes to its interconnection process. The city claimed in its filing that the added cost has “understandably chilled ongoing development activity at a time when New York City needs more supply resources capable of serving peak demand.”
When I reached out to the Mayor’s Office of Climate & Environmental Justice about the dispute, I received a statement in return from New York City Chief Climate Officer Louise Yeung: “Expanding battery storage capacity will be critical to New York City’s clean energy future, as extreme climate events continue to strain our grid system,” she said. “The City is working across agencies and communities to ensure battery energy storage projects are deployed safely and can provide reliable power when New Yorkers need it most.”
As for residential solar and storage, it will likely take years for those distributed resources to become a regular part of New York City’s energy landscape. There’s only one fully permitted and approved residential storage system allowed in New York City, which was installed earlier this year by Brooklyn Solar Works. Negotiating approvals with city agencies including the Department of Buildings and the New York City Fire Department took around six years, the company’s vice president of sales, Steve Nelson, told me.
“It’s New York City. We’re expecting there to be some level of bureaucracy and some lift to get that stuff approved,” Nelson said. “But what we also lack is a ready, readily accessible residential battery that meets the criteria that these departments have set.”
All that adds up to both a practical and a political gap for decarbonization, Zarelli told me.
“Batteries are a great way to connect the climate agenda and the affordability agenda, and it’s in the mayor’s control — it’s the regulatory apparatus at FDNY,” he said. “That’s a big near-term play that I think would make a big difference.”
Earlier this year, New York City Councilmember James Gennaro introduced a bill to amend the fire code to relax some battery storage permitting and safety requirements. But that still leaves the city’s decarbonization advocates with many big fish to fry.
“It’s a challenging future that’s still out in front of us, and how to navigate that is really difficult. But it’d be good if we were actually aligned on what our goals were as a society,” Zarelli said.
Rates were up 17% year over year in June, according to the latest Electricity Price Hub update, with another increase on the way.
With higher temperatures come higher electricity bills. Whether through higher seasonal charges or greater usage, Americans across the country were paying more for electricity in June.
In Virginia, the epicenter of the data center boom, the typical household electricity bill was $192 in June, up from $172 in June of last year, according to the latest data from the Heatmap and MIT’s Electricity Price Hub. Rates, meanwhile, were about 18 cents per kilowatt-hour, compared to just over 15 cents in June of last year, a 12% hike. Rates were also up from the end of last year, when they were about 15.5 cents.
The rate increase is largely due to prices set by Virginia’s largest utility, Dominion. Its rates are up 8% so far this year, according to MIT researchers, and 17% over the past 12 months, the result of a base rate increase that took effect at the beginning of the year. The average base rate alone is up 7.5% year over year for the average Dominion customer.
But that’s not all: The fuel portion of the bill is rising $8 a month for the typical customer, Dominion said according to local media reports, as a result of rising costs. The fuel charge went into effect at the beginning of July. Already, Dominion customers are paying about $78 per month for the generation portion of their electricity bill, according to Heatmap-MIT data.
The price hike will likely increase pressure on Dominion as it seeks to sell itself to Florida utility and energy developer NextEra in a $67 billion deal announced in May.
Earlier this week, Virginia's lieutenant governor Ghazala Hashmi sent a detailed letter to the State Corporation Commission, Virginia’s utility regulator, with 64 questions about the proposed merger. She said the deal “carries unprecedented implications for Virginia’s consumers and regulatory landscape.”
Hashmi asked regulators to extend their review of the deal beyond the six-month period mandated by its utility regulations, writing that “forcing this process into the six-month timeline will render an already inadequate period completely unworkable.”
In May, when the deal was announced, NextEra said it would provide over $2 billion of bill credits over two years to Dominion customers in Virginia, North Carolina, and South Carolina, which Dominion executives estimated would add up to $10 per month over the two years.