climate change

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Following the IPCC’s report, we need more technology to respond to more disasters

This week, the Intergovernmental Panel on Climate Change released its major sixth assessment report on the physical science of climate change. The details are grim, if getting more precise, as better and more comprehensive data becomes available. As my colleague Mike Butcher summarized yesterday, it’s “stern and blunt in its conclusions.”

While many of the themes of the report will be familiar to any person not living under (an ever increasingly hot) rock, one part jumped out at me as I was perusing the documents. The working group assessed that regardless of mitigation and adaptation strategies, many of the negative changes happening to Earth will continue unabated in all future scenarios. From the summary report:

Many changes due to past and future greenhouse gas emissions are irreversible for centuries to millennia, especially changes in the ocean, ice sheets and global sea level. […] Mountain and polar glaciers are committed to continue melting for decades or centuries (very high confidence). Loss of permafrost carbon following permafrost thaw is irreversible at centennial timescales (high confidence) …

In short, there is already momentum toward a warmer and more chaotic world, and we have limited tools to stop many of these trends.

There has been a rush of initiatives, investments and startups bubbling around the theme of climate tech, with projects focused on everything from improving the yields and decreasing the emissions of agriculture and food production, to improving the power grid, and to reducing the emissions from air conditioning in buildings. Those initiatives are fine and important, but they don’t get at one of the toughest challenges facing us this century: that disasters are here, they are coming and they are going to continue to get more intense as the century rolls on.

Just this past week, we have seen the second-largest fire in California’s state history with the Dixie Fire, currently blazing across hundreds of thousands of acres in the northern reaches of the state. Meanwhile in Greece, hundreds of wildfires are causing an unprecedented crisis in that country. Droughts, floods, hurricanes, typhoons and more are intensifying and ravaging ever more billions of people across every continent.

One response to solving this problem is improving resilience — building up cities and structures as well as food and water systems that are fortified against these natural calamities. Many of those projects though are costly and also time-consuming, measured over the course of decades rather than months.

Instead, we need a more immediate push to develop better disaster response technology today. I’ve covered a wide segment of these companies over the past few months. There’s RapidSOS, which is adding more data into emergency calls to make responses faster and more efficient. There’s Qwake, which raised $5.5 million to build hardware and cloud services to allow firefighters to visualize their environments in smoky conditions. Meanwhile, YC-backed Gridware has also raised more than $5 million to create sensors to identify failures in the power grid faster.

In short, there are a growing crop of disaster tech startups — but more are going to be needed to fight the panoply of disasters that will strike in the years ahead.

There’s so much to do: better mental health resources for victims and first responders, easier access to recovery funds to heal lives, higher-quality sensors and data analyses to identify disasters earlier, faster logistics to evacuate people out of harm’s way. In fact, there are quite literally dozens of fields that need more investment and founder attention.

It’s not an easy market, as I pointed out in an analysis of sales cycles. Budgets are tight, disasters are random, and technology is often an afterthought. In some ways though, that friction is a font of creativity — how to build these next-generation of services and how to sell them is the risk that leads to the potential high return.

As the IPCC’s report made clear this week, the chaotic weather and intense disasters we’ve seen the past few decades aren’t going to abate any time soon. But with ingenuity, we can respond better to the disasters that are already on their way, and save lives and treasure in the process.

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Holy Grail raises $2.7M seed fund to create modular carbon capture devices

The founders of Holy Grail, a two-year-old startup based in Mountain View, California, are taking a micro approach to solving the outsized problem of capturing carbon.

The startup is prototyping a direct air carbon capture device that is modular and small — a departure from the dozens of projects in the U.S. and abroad that aim to capture CO2 from large, centralized emitters, like power plants or industrial facilities. Holy Grail co-founder Nuno Pereira told TechCrunch that this approach will reduce costs and eliminate the need for permits or project financing.

While Holy Grail has a long development and testing phase ahead, the idea has captured the attention and capital from well-known investors and Silicon Valley founders. Holy Grail recently raised $2.7 million in seed funding from LowerCarbon Capital, Goat Capital, Stripe founder Patrick Collison, Charlie Songhurst, Cruise co-founder Kyle Vogt, Songkick co-founder Ian Hogarth, Starlight Ventures and 35 Ventures. Existing investors Deep Science Ventures, Y Combinator and Oliver Cameron, who co-founded Voyage, the autonomous vehicle acquired by Cruise, also participated.

The carbon capture device is still in the prototype stage, Pereira said, with many specifics — such as the anticipated size of the end product and how long it will likely function — still to be worked out. Cost-effectively separating CO2 from the air is an extremely difficult problem to solve. The company is in the process of filing patents for the technology, so he declined to be too specific about many characteristics of the device, including what it will be made out of. But he did stress that the company is taking a fundamentally different technical approach to carbon capture.

“The current technologies, they are very complex. They are basically either [using] temperature or pressure [to capture carbon],” he said. “There is a lot of things that go into it, compressors, calciners and all these things,” referring to additional parts like mechanical pumps, cryogenic air separators and large quantities of water and energy. Pereira said the company will instead use electricity to control a chemical reaction that binds to the CO2. He added that Holy Grail’s devices are not dependent on scale to achieve cost reductions, either. And they will be modular, so they can be stacked or configured depending on a customer’s requirements.

The scrubbers, as Pereira calls them, will focus on raw capture of CO2 rather than conversion (converting the CO2 into fuels, for example). Pereira instead explained — with a heavy caveat that much about the end product still needs to be figured out — that once a Holy Grail unit is full, it could be collected by the company, though where the carbon will end up is still an open question.

The company will start by selling carbon credits, using its devices as the carbon reducing project. The end goal is selling the scrubbers to commercial customers and eventually even individual consumers. That’s right: Holy Grail wants you to have your own carbon capture device, possibly even right in your backyard. But the company still likely has a long road ahead of it.

“We’re essentially shifting the scaling factor from building a very large mega-ton plant and having the project management and all that stuff to building scrubbers in an assembly line, like a consumer product to be manufactured.”

Pereira said many approaches will be needed to tackle the mammoth problem of reducing the amount of CO2 in the atmosphere. “The problem is just too big,” he said.

The story has been updated to reflect that Holy Grail is based in Mountain View, not Cupertino.

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Terraformation gets $30M to fight climate change with rapid reforesting

Every startup is trying to fix something, but Terraformation is tackling the only problem that must matter to all of us: climate change.

This is why it’s in such a big huge hurry. Its mission — as a “forest tech” startup — is to accelerate tree planting by applying a startup-y operational philosophy of scalability to the pressing task of rapidly, sustainably reforesting denuded landscapes — bringing back native trees species to revive former wastelands and shrinking our carbon emissions in the process.

Forests are natural carbon sinks. The problem is we just don’t have enough trees with roots in the ground to offset our emissions. So that at least means the mission is simple: Plant more trees, and plant more trees fast.

Terraformation’s goal is to restore three billion acres of global native forest ecosystems by scaling tree replanting projects in parallel, scaling the use of existing techniques and working with all the partners it can. (For a little context, the U.S. contains some 2.27 billion acres of total land area, per Wikipedia).

So far it says it’s planted “thousands” of trees — with live projects in North America, South America, Africa and Europe, which it hopes will yield up to 20,000 replanted acres. It’s also in talks with partners about more projects that could clad hundreds of thousands of acres with carbon-consuming (and biodiversity-prompting) trees, if they come to full fruition.

That’s still a long way off the 3 billion-acre-wooded moonshot, of course. But Terraformation claims it’s been able to achieve a forestry restoration work-rate that’s 5x the average already. And that’s definitely the kind of “gas stepping” that climate change needs.

Its elevator pitch is also punchy: “Our mission is explicitly to solve climate change through mass reforestation,” says founder Yishan Wong — whose name may be familiar as the ex-Reddit CEO (and also a former early-stage engineer at PayPal/Facebook). So it’s getting trees in the ground and getting faster at getting trees in the ground.”

It’s not going it alone, either. It’s just announced a first closing of a $30 million Series A funding round, led by Sam & Max Altman at Apollo Projects, the brothers’ “moonshot” fund; plus several high-profile institutional investors (whose names aren’t being disclosed); along with nearly 100 angel investors, including Sundeep Ahuja, Lachy Groom, Sahil Lavingia, Joe Lonsdale, Susan Wu and OVN Cap.

“The [Series A] was a bit larger than we anticipated and the idea is to get us to the next stage of planting orders of magnitude more trees every year,” says Wong. “So it’ll be used both for supporting forestry projects directly, as well as for the development and deployment of forestry acceleration products and technology.”

“The very, very nice thing about mass reforestation or mass restoration as a solution to climate change is that it’s extremely parallelizable,” he adds. “You can plant any tree at the same time as you’re planting some other tree. This is the primary reason why this solution can potentially be implemented within the timetable that we have left. But in order to do so we have to start and drive an enormous, decentralized reforestation campaign across multiple continents and countries.”

The funding follows a $5 million seed last year, as the young startup worked to hone its approach.

Terraformation is targeting the main barriers to successful reforesting: Through early research and pilots it says it’s identified three key bottlenecks to large-scale forest restoration — namely, land availability, freshwater and seed. It then seeks to address each of these pinch-points to viable reforesting — identifying and fashioning modular, sharable solutions (tools, techniques, training etc.) that can help shave off friction and build leafy, branching success.

These products include a seed bank unit it’s devised, housed in a standard shipping container and kitted out with all the equipment (plus solar off-grip capability, if required) to take care of on-site storage for the thousands of native seeds each projects needs to replant a whole forest.

It also offers a nursery kit which also ships in a shipping container — a flat-packed greenhouse that it says a couple of people can put together, and where thousands of seedlings can then be tended and irrigated in pots until they’re ready to plant out.

A third support it offers to the replanting projects it wants to work with is expertise in building solar-powered desalination rigs so young trees can be supplied with adequate water to survive in locations where poor land management may have made conditions for growth difficult and harsh.

It goes without saying that planted trees which fail because of poor processes won’t help cut carbon emissions. Badly managed replanting is at best wasteful — and may be closer to cynical greenwashing in some cases. (Poor quality projects can be a known problem where claims of corporate carbon offsetting are being made, for example.)

Terraformation is thus zeroing in on repeatable ways to scale and accelerate the successful planting and nurturing of trees, from seed to sapling and beyond, to accelerate sustainable reforesting.

Ultimately, it’s the only kind of tree planting that will really count in the fight against climate change.

Its first pilot restoration projects began in Hawai’i in 2019 — where it’s been able to plant thousands of trees at a site called Pacific Flight, reviving a native tropical sandalwood forest that had been logged unsustainably. To enable the young trees to grow in land which had also become arid as a result of cattle grazing, the team built the world’s largest fully off-grid, solar-powered desalination system to supply sustainable freshwater to the baby forest.

“The arid environment, high winds, and degraded soils meant that if a team could restore a forest there, they could do it anywhere,” is the pitch on its website.

The Series A will go toward spinning up lots more such native species forest restoration projects — working via partnerships, with organizations such as Environmental Defenders in Uganda, and other groups in Ecuador, Haiti and Tanzania — as well as on more R&D (additional products are in the pipeline, we’re told); and on expanding headcount so its team has the legs to run faster.

Interestingly, for a startup with a Silicon Valley engineering pedigree at its core, the team’s approach is intentionally light on technology — leaning only on vital tech (like solar and desalination), rather than experimental bells and whistles (drones, robotics etc.) to ensure the processes it’s packaging up for massive replanting parallelism remain as simple, accessible and reliable as possible. So they are able to scale all over the globe.

It’s clear that sci-fi robotic gadgetry isn’t the answer here. It’s sweating toil plus tried and tested horticulture processes, done systematically and repeatedly, in mass parallelism all over the world that’s required, argues Wong, whose years in tech have given him a healthy skepticism on the issue of over-engineering. (“The biggest lesson I learned was, you want to solve a big problem? You want to use as little technology as possible… Technology’s always breaking, it’s always got flaws. The biggest problem with technology is technology.”)

“I would say that the key contribution that ‘tech’ — if you think of a monolith or a culture or whatever — will make to climate change, is not in fact some new invention or some gadget or some sort of special magical technology… I think it really is the practice of scalability,” he goes on. “Which is an organizational end. A management way of thinking. Because that is actually something that has been carefully and painfully developed… over the past 20 years in Silicon Valley. How to take small working solutions, how to solve very big problems, how to scale them. And it isn’t a very glamorous thing — which is why I think it’s one of the more pure disciplines.

“It just has been less corrupt… Scalability is just people thinking hard and grinding it out to address really hard big problems. And I think that practice and all the little tips and rules that we have to doing that is the real contribution that tech is going to make — with one of those principles being use as little tech as you can.”

Terraformation is building software tools too — such as a mobile app to help with cataloguing and monitoring seeds. But the really critical technologies involved, solar and desalination, are very much at the “tried and tested” end of the tech scale (“very, very reliable and refined”.).

Wong points out that a key development for solar and desalination is related to the unit economics — with falling costs allowing for scalability and thus speed.

Asked whether Terraformation is a business in the typical startup sense, Wong says it’s been set up in a familiar way — as a Delaware C Corp — but purely because he says that’s just the quickest way to be able to operate. Doing stuff as a nonprofit would be way too slow, he says, describing it thusly as a “non nonprofit” (rather than a business with a for-profit mission).

Aka: “It’s a corporate with investors but primarily the aim is to solve climate change.”

Startup investors are of course often betting their money on the chance of a quick and meaty return. But not here, confirms Wong. “When we raised funding all of our investors invested primarily because they wanted to see climate change solved,” he tells TechCrunch. “To many of them this was the first time that a plausible, full-scale solution to solving climate change had been presented.

“It’s still very, very hard. It’s very, very large. It’s really daunting. But it’s the first time someone has mapped out a path that could actually get us there. And so all of our investors invested because they want to see that happen.”

So how will a “non nonprofit” startup (even with $30 million just banked) get its hands on enough land to plant enough trees? A variety of ways, per Wong. (Perhaps even, in some instances, landowners could end up paying it to turn their dirt into beautiful woodland.)

“The short answer is anywhere we can!” he adds. “The solution is structured to give us maximum flexibility, given that we can use a large variety of land. We don’t want to count on any particular land owning entity — and I use that very broad term to mean like people, communities, governments, municipalities — we don’t want to rely on any one particular land-owning entity wanting to work with us or allowing us to reforest the land, because you can’t guarantee that.”

He also notes that Terraformation’s plan to fix climate change is based on “worse-case scenarios” — where “no one who owns any land that gets enough natural rainfall for forest restoration will allow it to reforest it”. “We use the least valuable land — basically desertified, degraded land,” he adds. “Is there enough of that? And it turns out there is.”

Even though personal financial upside clearly isn’t front of mind for Terraformation’s investors, Wong still believes there’s plenty of “value” to be unlocked as a byproduct of spreading leafy-green goodness all over the planet versus funding more extractive exploitation.

“It turns out that solving climate change is actually a huge value-creating act,” he argues. “My experience in Silicon Valley is if you have people who believe in you and believe in the thing that you’re creating is ultimately value-creating then it’s actually also wealth creating. If you do something that is fundamentally very, very valuable and you’re right next to it, you will be able to monetize it in some way. You will capture some of that value for your shareholders. So it’s a bet that if you really can solve climate change, that’s super valuable, both for the world and to the entity that’s [investing].”

Of course climate change is more than just a problem; it’s an existential threat to all life on Earth — one which affects humans and every other living creature and thing on the planet.

Given such terminal stakes, reversing climate change should be the highest global priority. Instead, humans have procrastinated — putting dealing with rises in atmospheric CO2 on the back-burner and worse (cutting down existing forests like the Amazon Rainforest, for one).

Set against that backdrop, Terraformation’s answer to humanity’s greatest crisis looks compellingly simple. Its bet is that climate change can be fixed by scaling the most proven technology possible (trees) to capture carbon emissions. Who can argue with that? 

But it does also seem clear that reforesting will need to go hand in hand with a mainstreaming of conservation, as a prevailing societal attitude, if the mission is to be pulled off — otherwise all these beautiful baby trees could just meet the same sad fate as all the Earth’s already lost forests.

Nonetheless, conservation is something Wong’s team is deliberately not focusing on.

Not because they don’t care. Rather their hope is that by building the baby forests, the protective partners will come — to watch over and get value from the trees as they grow. 

“I don’t want to make it seem like we don’t care about [forestry conservation] but one of the things that I try to do is figure out where people are already doing work and things are already moving in the right direction — and then go work on the thing that other people are not working on,” he says when we ask about this. “When I talk to people in the forestry world many, many people are working on avoiding deforestation, helping solve the broader socioeconomic issues that result in deforestation. And so I feel like there is momentum moving in that direction — so we have to work on this other issue that other people aren’t working on.”

Wong also argues that forests are naturally more valuable than the denuded waste/scrub ground they’re replanting — implying that pure economic interest should help these baby forests survive and thrive far into the future.

However the history of humanity shows that unequal wealth distribution can wreak all sorts of havoc on a resource-rich natural environment. And people who live in poverty may well be disproportionately more likely to like in a rural location, on or near land that Terraformation hopes to target for replanting. So if these forests can’t provide — in crude terms — ‘value’ for their local communities the risk is the same cycle of short-term economic harm will rip all this hard work (and hope) out of the ground once again.

Wealth inequality lies at the core of much of humanity’s counterproductive destruction of the environment. So, seen from that angle, reforesting the planet may require just as much effort toward tackling — root and branch — the wider socioeconomic fault-lines of our world, as it will washing, sorting and storing seed, watering seedlings and nurturing and planting saplings.

And that further dials up an already massive climate challenge. But, again, Wong is quietly hopeful.

“People aren’t cutting down trees because they’re evil, they’re cutting down trees because they need to make a living. So we have to provide them with ways to make a living that is more valuable than cutting down the trees. I think that recognition is moving in the correct direction — so I’m hopeful there,” he says.

Asked what keeps him up at night, he also has a straightforward answer to hand — one we’ve heard many times already from a new generation of climate campaigners, like Greta Thunberg, whose futures will be irrevocably stamped by the effects of climate change: Humanity simply isn’t moving fast enough.

“In order to do this we have to make order of magnitude improvements in both speed and scale — which is technically a thing that we know how to do but is among the most daunting things that you ever try to undertake. So… are we moving fast enough? Are we doing enough? Because time is running out,” warns Wong.

“The time frame that we have left is very small when compared to the planetary scale of the problem. And so I think the only way that we’re going to get there is with proven solutions, moving, growing at exponential speed.”

“I am [hopeful],” he adds. “I’m a big fan of humans working together. People can really do it. I’m very I guess what you’d call pro-human. We have a lot of flaws, we fight amongst ourselves a lot, but I really think that when people work together they can really do amazing, amazing things… Trees gave us life and so now it’s our time to repay that debt.”

 

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Regenerative agriculture is the next great ally in fight against climate change

It seems that every week a new agribusiness, consumer packaged goods company, bank, technology corporation, celebrity or Facebook friend announces support for regenerative agriculture.

For those of us who have been working on climate and/or agriculture solutions for the last couple of decades, this is both exciting and worrisome.

With the rush to be a part of something so important, the details and hard work, the incremental advancements and wins, as well as the big, hairy problems that remain can be overlooked or forgotten. When so many are swinging for the fences, it’s easy to forget that singles and doubles usually win the game.

As a managing partner and founder of DBL Partners, I have specifically sought out companies to invest in that not only have winning business models but also solve the planet’s biggest problems. I believe that agriculture can be a leading climate solution while feeding a growing population.

At the same time, I want to temper the hype, refocus the conversation and use the example of agriculture to forge a productive template for all business sectors with carbon habits to fight climate change.

First, let’s define regenerative agriculture: It encompasses practices such as cover cropping and conservation tillage that, among other things, build soil health, enhance water retention, and sequester and abate carbon.

The broad excitement around regenerative agriculture is tied to its potential to mitigate climate impact at scale. The National Academies of Sciences, Engineering, and Medicine estimates that soil sequestration has the potential to eliminate over 250 million metric tons of CO2 per year, equivalent to 5% of U.S. emissions.

It is important to remember that regenerative practices are not new. Conservationists have advocated for cover cropping and reduced tillage for decades, and farmers have led the charge.

The reason these practices are newly revered today is that, when executed at scale, with the heft of new technology and innovation, they have demonstrated agriculture’s potential to lead the fight against climate change.

So how do we empower farmers in this carbon fight?

Today, offset markets get the majority of the attention. Multiple private, voluntary markets for soil carbon have appeared in the last couple of years, mostly supported by corporations driven by carbon neutrality commitments to offset their carbon emissions with credit purchases.

Offset markets are a key step toward making agriculture a catalyst for a large-scale climate solution; organizations that support private carbon markets build capacity and the economic incentive to reduce emissions.

“Farming carbon” will drive demand for regenerative finance mechanisms, data analytics tools and new technology like nitrogen-fixing biologicals — all imperatives to maximize the adoption and impact of regenerative practices and spur innovation and entrepreneurship.

It’s these advancements, and not the carbon credit offsets themselves, that will permanently reduce agriculture emissions.

Offsets are a start, but they are only part of the solution. Whether generated by forestry, renewable energy, transportation or agriculture, offsets must be purchased by organizations year after year, and do not necessarily reduce a buyer’s footprint.

Inevitably, each business sector needs to decarbonize its footprint directly or create “insets” by lowering the emissions within its supply chain. The challenge is, this is not yet economically viable or logistically feasible for every organization.

For organizations that purchase and process agricultural products — from food companies to renewable fuel producers — soil carbon offsets can indirectly reduce emissions immediately while also funding strategies that directly reduce emissions permanently, starting at the farm.

DBL invests in ag companies that work on both sides of this coin: facilitating soil carbon offset generation and establishing a credit market while also building fundamentally more efficient and less carbon-intensive agribusiness supply chains.

This approach is a smart investment for agriculture players looking to reduce their climate impact. The business model also creates demand for environmental services from farmers with real staying power.

Way back in 2006, when DBL first invested in Tesla, we had no idea we would be helping to create a worldwide movement to unhinge transportation from fossil fuels.

Now, it’s agriculture’s turn. Backed by innovations in science, big data, financing and farmer networking, investing in regenerative agriculture promises to slash farming’s carbon footprint while rewarding farmers for their stewardship.

Future generations will reap the benefits of this transition, all the while asking, “What took so long?”

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Gridware is building early-detection sensors for power grid failures and wildfires

Like corporate financial accounting, the power grid never draws headlines when things are going well. No journalist writes “The power remains on,” or discusses the extensive work it takes to maintain the grid. Instead, it takes a record-breaking ice wave to knock out power to one of the largest states in America for it to start garnering front-page coverage, or perhaps massive wildfires in America’s most populous state like the Camp Fire in California in 2018.

Power grids are going to be in the news more and more in the coming years as global climate change intensifies storm activity and grids come under increasingly harsh strain. As my colleague Jon Shieber wrote yesterday, “Whether it’s heavily regulated markets like California or a free market like Texas, current policy can’t stop the weather from wreaking havoc and putting people’s lives at risk.” The grid is at the center of one of the toughest challenges facing us this century.

What’s needed are better sensors and tech for identifying the source of outages — and also preventing them in the first place. With millions of power poles and hundreds of thousands of miles of transmission wires scattered across the United States, how can utilities reliably verify the quality of their systems? How can they do that in an efficient way to avoid rate increases on users?

Gridware, which is in the current batch of Y Combinator, is one company taking a shot at this critical need. Its approach is to use a small, sensor-laden box that can be installed to a power pole with just four screws. Gridware’s package contains microphones and other sensors to sense the ambient environment around a power pole, and it uses on-board AI/ML processing to listen for anomalies and report them to the relevant managers as appropriate.

It’s like “a guard standing next to the pole, listening to it, watching over it,” Tim Barat, CEO and co-founder, said, likening the box to a Fitbit for a power pole. When a tree branch breaks and cuts through a line, there’s “no way to detect them unless you are right next to the fault.” With Gridware, it’s “not the right place at the right time but the right place all the time,” he said.

What makes the founding team compelling here is the backgrounds of some of the company’s founders. Barat worked as a power pole worker himself in the field, evaluating equipment and searching for problems. “Every time we go up a pole, we hit it with a hammer, which tells us whether there is termite damage, etc. [ … and] that is still how inspectors investigate a pole,” he noted.

Barat eventually migrated to University of California, Berkeley, where he was mentored by Prabal Dutta, an electrical engineering professor who also joined the company early on as a co-founder. Dutta’s worked has focused on “industrial cyber-physical systems,” and he continues to research industrial control systems through digital interfaces via the iCyPhy center.

Gridware’s team clockwise from top left: Tim Barat, Abdulrahman Bin Omar, Dr. Prabal Dutta, Addison Chan, Riley Lyman, and Hall Chen. Image Credits: Gridware

Barat also met Abdulrahman Bin Omar, who had worked for a number of years in the energy sector, in a class that eventually had a one-week hiatus due to California wildfires. The two began working together in 2019, joining Berkeley’s startup incubator Citrus Foundry in 2020. The trio eventually linked up with co-founders Hall Chen and Riley Lyman as well, and snagged a $150,000 state grant from the California Energy Commission via the CalSEED program.

Today, the startup has seven employees, and it’s currently in talks with utility grids of all sizes about deploying its product. Grids can be very slow to adopt new technology with very long testing and sales cycles, but there might just be an opportunity for the company to accelerate those normal timelines given the extensive and visible power outages we have witnessed the past few years. We need to “transition our grid to face the challenges of the new century,” Barat said.

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With another $2.5 million in funding, Julia Collins’ Planet FWD launches climate-friendly snack brand

Planet FWD, the climate-friendly food startup founded by Zume co-founder Julia Collins, is today launching its first product, Moonshot Snacks. The climate-friendly snack is carbon neutral, organic, kosher, plant-based, non-GMO and has no sugar added.

The crackers come in three flavors: sourdough sea salt, rosemary garlic and tomato basil. A box of crackers costs $5.99.

Planet FWD is also announcing an additional $2.5 million in funding led by Emerson Collective, Concrete Rose, MCJ Collective and Arlan Hamilton, as well as existing investors, including BBG Ventures, January Ventures and Kapor Capital, among others. This is on top of the $2.7 million the startup announced earlier this year.

What’s unique about Planet FWD’s Moonshot Snacks is that it uses ingredients from farmers that use regenerative agriculture practices. Regenerative agriculture is a farming technique that aims to reverse the effects of climate change by capturing carbon in soil and aboveground biomass, which ultimately increases biodiversity, enriches soils and improves watersheds.

“We want to engage customers and show them they have the power to address climate change just with the way they eat,” Collins told TechCrunch. “We can use our food choices as a way to promote better farm management practices and company practices that can help decarbonize the environment.”

Ideally, Planet FWD will be able to show there’s consumer demand for climate-friendly products, Collins said. From there, she hopes that would encourage more farmers to implement these regenerative agriculture practices.

Unlike organic foods, where those specific farms are relatively well-known and identified, that can’t be said for regenerative agriculture. This is where the software element of Planet FWD comes in.

Additionally, Planet FWD is alpha testing a carbon impact assessment. So, if a brand wanted to determine what its current greenhouse gas impact is for its products, the tool could break down where it comes from — whether that’s the packaging, the ingredients, the distribution, etc. From there, the tool would recommend how to reduce the product’s greenhouse gas impact.

“Frankly, I think it’s a privilege to be alive and aware during this time where this is this window of opportunity to address climate change,” Collins said. “We can’t stop it. We can’t reverse it. But we can address it so it’s still possible for people to live on this planet. But the window is closing.”

Moonshot Snacks begins shipping today via its website. On December 16, it will be available via plastic-free grocery store Zero and will have a more traditional retail launch next year.

Planet FWD will create other products down the line, like cookies and chips. But first and foremost, the company’s road map is driven by the supply chain and understanding where there are opportunities to convert farms to regenerative practices.

“Through its sustainable and climate-friendly ingredient platform, Planet FWD is building a movement of more climate-conscious farmers and producers who can lead us toward a better, more sustainable future,” Fern Mandelbaum, managing director at Emerson Collective, said in a statement. “Through Julia’s inclusive leadership and passion, Planet FWD is helping create a new standard for the food industry and its role in being part of climate solutions.”

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Stripe Climate is a new tool to let Stripe customers make carbon removal purchases

Last year, payments giant Stripe announced that it would donate $1 million of its own funds annually into companies that are building technology to remove carbon from our environment, with the recipients of that investment announced in May of this year. Now, it’s expanding that commitment with a new product aimed at getting its customers to invest, too.

Today, the company is launching Stripe Climate, a new tool that companies using Stripe can integrate to set up automatic contributions that are made as a percentage of each transaction — the company can set the percentage itself — with the proceeds feeding into an add-on pot on top of Stripe’s own investments in carbon reduction companies.

Currently there are four companies on that investment list: CarbonCure (which collects carbon dioxide and recycles it for other purposes, among other things); Climeworks, which is building carbon removal plants; Project Vesta, which has worked on projects like “green sand” to remove carbon on beaches; and Charm Industrial (converting waste biomass to bio-oil). These are “earthshots,” as it were — not completely proven tech that might be too costly to run if it does work — but as with moonshots, there will be a lot of capital needed even to see how and if they can get off the ground.

It’s also likely there will be more efforts added to the list — and maybe some subtracted — over time.

For now, companies using Stripe Climate don’t get a chance to choose how their contributions get invested: they basically mirror and follow the path of those being made by Stripe itself.

Stripe Climate is free to use, and Stripe said that the 25 companies testing the service in a closed beta — the list includes Flexport, Substack, Flipcause and OpenSnow — have already contributed hundreds of thousands of dollars to the effort.

“We built Substack because, while it’s easy to be depressed about the current state of the media business, we think there’s tremendous opportunity for those daring enough to be optimistic. We feel the same way about climate change,” said Chris Best, co-founder and CEO of Substack, in a statement. “We’re done with defaulting to depression. We want to help show the way to a better future—and better yet, we want to give all Substack writers the opportunity to join us. Stripe’s climate initiative is a gift because it removes all barriers to positive action. This program makes it easy, and valuable, to do the right thing. We’re proud to be part of it.”

Stripe Climate is playing on some important themes at the company.

Stripe — now valued at $36 billion — has made a name for itself primarily through a simple payments service that site and app developers can integrate by way of APIs, using a few lines of code. That has helped the company grow fast and pick up a huge number of users, from sole-trader outfits to much bigger businesses.

The company is using the same low-friction principle here with Stripe Climate: the idea is that while companies and individuals might in theory be committed to making investments in environmental causes, many don’t know where to begin, or how to do it in an efficient way. This gives them that way, having it integrated as part of its existing payments flow.

“A lot of the social issues right now are collective action problems,” said Nan Ransohoff, Stripe’s head of climate, in an interview. “Climate change is a collective action problem. Coordinating can be complicated and expensive. So can we make it easy to bring Stripe businesses together to make the whole bigger than the sum of its parts? If we can do it even a little bit we as a planet we will be in a better place.”

The second theme of this is how it fits into what Stripe is building on a more strategic level. Basic payments may be the company’s bread and butter, but on top of that it’s been adding a host of other services for businesses, from tools to help them incorporate their operations in the U.S., through to fraud prevention and analytics, and money advances and credit based on their existing activity on the platform. And the other week it also made its largest ever acquisition, buying a startup called Paystack in Nigeria, to enter more comprehensively into new geographies like Africa.

The idea is not just to make more money from their customers through value-added services, but to increase stickiness with customers, who might be less reluctant to switch out a simple API if that data is also integrated into a number of other parts of their business and how they operate.

Stripe Climate isn’t going to make Stripe or its customers any money — in fact, it’s a way for its customers to give money away — but it’s a very strong goodwill gesture that could go some way to building more loyalty and regard with its customers.

Ransohoff said that the plan will also be to expand Stripe Climate into a tool that these companies can also in turn offer to their own customers at checkout — not unlike the many offers you might already see these days to contribute money toward good causes when you are hitting “buy now” on any number of sites.

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Amazon really just renamed a Seattle stadium ‘Climate Pledge Arena’

As perennial front-runner for the title of probably-the-most-evil tech company, Amazon has a long way to go to rehabilitate its image as a take-no-prisoners, industry-consolidating wealth machine.

In a bold effort to do so, the company announced today that it would buy the rights to Seattle’s KeyArena, an aging stadium currently under redevelopment in the city. Amazon founder and CEO Jeff Bezos boasts that the stadium will “be the first net zero carbon certified arena in the world.”

“Instead of calling it Amazon Arena, we’re naming it Climate Pledge Arena as a regular reminder of the urgent need for climate action,” Jeff Bezos wrote on Instagram.

Other regular reminders for urgent climate action include the company’s own employees walking out to protest its lack of accountability on climate issues, its ongoing courtship with oil and gas companies and the sheer amount of times in a single day we see Amazon delivery vans dropping packages off on the same block.

Addressing its record of climate indifference, Amazon announced a $2 billion investment in sustainable efforts to reduce the company’s massive carbon footprint earlier this week as part of the same climate-friendly PR blitz.

Bezos himself announced in February that he would invest $10 billion of his personal wealth in a fund to address climate change, which is probably the least you can do when you’ve amassed an amount of wealth that’s incomprehensible to any normal person at the expense of workers, the environment and whatever else got in the way.

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Zume co-founder goes from pizza to climate-friendly food with $2.7 million in funding

Before leaving SoftBank-backed Zume Pizza in November 2018, co-founder Julia Collins knew what her next move would be: climate-friendly food. Today, Collins is announcing Planet FWD’s $2.7 million seed round led by BBG Ventures with participation from Cleo Capital, Cowboy Ventures, Precursor Ventures, Kapor Capital and others.

What’s unique about this round, Collins told TechCrunch, is that 99.5% of the funds came from people of color and/or women. That was deliberate, she said. What’s also deliberate is the startup’s mission to combat climate change by building a climate-friendly food platform and snack brand.

“For me, the question has always been, how can we reform our food systems so that they work better for people and work better for the planet?” Collins said. “That’s been the thread that has connected all of my work in food. It’s always been how can we change the existing infrastructure and the ways of doing business so that we create better outcomes.”

In 2017, Collins learned she was about to become a parent — something she hadn’t expected. That’s what led to, what she describes as, a sudden shift in consciousness where she realized she would soon become responsible for another human being.

“When I learned I was going to be a parent, I decided I was going to become a climatarian,” Collins said. “So that meant not just being a vegetarian or living a plant-based lifestyle, but wanting to live a planet-based lifestyle. So I went from being a plant-based eater to a climatarian. So I started thinking about how I could make food choices that would have better outcomes for the climate.”

This is where the focus on regenerative agriculture comes in. Regenerative agriculture is a farming technique that aims to reverse the effects of climate change by capturing carbon in soil and aboveground biomass, which ultimately increases biodiversity, enriches soils and improves watersheds. But unlike organic foods, where those specific farms are relatively well-known and identified, that can’t be said for regenerative agriculture. This is where the food platform comes in.

“When it came to the regenerative food landscape, nothing had been codified or mapped yet,” Collins said. “And so, as I started to pull together the ingredients for my climate-friendly snacks, I amassed this really exhaustive library of all this information about these farms. And I thought that was really interesting because anybody who wants to create a climate-friendly food product needs a universal set of information that just wasn’t available. And here I was building it in a little spreadsheet. And so I looked up and I realized this is actually software that I’m building.”

It’s this software that is powering Planet FWD’s food production. The startup’s first product is a cracker, which launches later this year. The next product will likely be chips, Collins said.

“A lot of what we’re doing with this snack product is engaging consumers and trying out this climate-friendly positioning to see whether or not it actually resonates with people,” she said.

Ideally, Planet FWD will be able to show there’s consumer demand for climate-friendly products, Collins said. From there, she hopes that would encourage more farmers to implement these regenerative agriculture practices. At this point, it’s unclear how many farms are focused on regenerative agriculture, but Collins has so far identified hundreds of them.

Since leaving Zume, the robotic pizza company has struggled. Earlier this year, the company was forced to lay off 360 employees and shut down its pizza-making and delivery business. Now, the company is focused solely on food packaging.

“It was very, very hard for me to decide to step away,” Collins said about leaving Zume. “It was one of the hardest things I’ve had to do. Maybe the hardest thing I’ve ever had to do professionally. I’ve had a year-and-a-half to make my peace and find distance from it, but it’s been difficult and painful to see. At some point, you have to look back and it’s hard to look back and know that I don’t have any control or influence around anything that’s happening now — either the way that it’s being messaged or the actual function of the company. I’m still an owner in the company, and I still have hope they’re going to get to a really good outcome. But I am powerless.”

Now and in the foreseeable future, Collins will be focused on climate-friendly foods and food production.

“All of us have to eat every day, but what if as a result of our eating, we were able to actually draw down carbon and reverse climate change. Much of what we talk about in terms of solutions are consume less and produce less but when it comes to food we all need to eat. What if, as a result of the way you ate, you could actually contribute to the solution.”

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Sustainable microgrids are the future of clean energy

Alex Behrens
Contributor

Alex is a research analyst and blogger focused on future technologies in transportation, energy, automation, and decentralization. He has experience in data and operations at Fortune 500 companies and tech startups and has been a regular contributor at Seeking Alpha, Spend Matters, Metal Miner, and other publications.

Across the U.S., sustainable microgrids are emerging as a vital tool in the fight against climate change and increasingly common natural disasters. In the wake of hurricanes, earthquakes and wildfires, the traditional energy grid in many parts of the country is struggling to keep the power flowing, causing outages that slow local economies and ultimately put lives at risk.

Microgrids — power installations that are designed to run independently from the wider electricity grid in emergency situations — have been around for decades, but until the turn of the century, relied almost exclusively on fossil fuels to generate power. While it’s taken another 20 years for solar panels and battery storage costs to fall far enough to make truly sustainable microgrids an economic reality, a recent surge in interest and installations have shown that they’ve reached an inflection point and could very well be the future of clean energy.

Take Santa Barbara, where the Unified School District voted unanimously in November to allocate over $500,000 to study and design microgrid installations for schools around the county. A preliminary assessment by the Clean Coalition identified more than 15 megawatts of solar generation potential across 18 school sites.

These solar-plus-battery-storage microgrids would greatly enhance the ability of chosen schools to serve communities during natural disasters or power outages, like the ones induced by California’s PG&E electric utility that affected hundreds of thousands of residents last October. The sites will provide a place to coordinate essential emergency services, store perishable food and provide residents with light, power and connectivity in times of distress.

A completed feasibility study for the microgrid installations is expected in June, and while initial estimates put the final cost around $40 million, long-term power purchase agreements (PPAs) will allow the school district to have the sites set up for free and paid for over time via its normal electric bill — at a cost no greater than grid power. Agreements like these have only become economically viable in the last few years as renewable energy generation costs have continued to fall, and are a major driver of the microgrid boom.

At the end of January, Scale Microgrid Solutions received a commitment for $300 million in funding from investment firm Warburg Pincus. Microgrids today are typically designed and installed to the unique specifications of individual customers. Scale Microgrid Solutions instead provides modular microgrid infrastructure built using shipping containers that combine solar and battery storage with control equipment and backup gas generation.

These modules enable faster deployment and provide a viable option for customers or institutions seeking microgrid capabilities in the $15 million price range. The first modular microgrids were launched in May 2019 with financing provided by Generate Capital, a financing firm focused on advanced, clean-energy technology investments.

Meanwhile, on the opposite side of the country, successive disasters are already proving the value of solar-plus-storage microgrids in Puerto Rico. In 2017, Hurricane Maria catastrophically damaged the centralized electricity grid in the U.S. territory and left many without power for more than a year.

A project funded by the Rocky Mountain Institute, Save the Children and Kinesis Foundation installed solar-plus-battery-storage microgrids at 10 schools in the mountainous central regions of the island, designed to provide energy for on-site libraries, kitchens and water pumps indefinitely during power outages. The installations were completed in December 2019, just weeks before a series of earthquakes that began in January endangered the island’s already sluggish economic recovery. The RMI Island Energy Program told Microgrid Knowledge that while grid power around several of the sites had gone down, the microgrids had continued to operate successfully and provide critical services.

Microgrids go beyond schools though. Several communities are also linking solar-and-storage systems mounted on their homes, employing inverters and controllers that have only become efficient and affordable in the last few years to create “community microgrids” that share power among the participants to supplement or replace grid energy.

In January, Australian startup Relectrify closed $4.5 million in Series A funding to continue refining their inverter and battery-management technology that increases battery lifespan by as much as 30% while reducing operational costs. Relectrify tech also allows large batteries from electric cars — including Tesla’s wildly popular offerings — to be repurposed after they are no longer reliable enough for use in EVs, opening up an enormous pool of second-hand batteries to be repurposed for growing microgrid storage demand.

Programs like these are attractive not just because they offer resilience and independence from grid power often produced with fossil fuels, but because they are increasingly the cheaper option for energy consumers. Residential retail energy prices in Puerto Rico were as high as 27 cents per kilowatt hour (kWh) in 2019, while the calculated cost from home solar-plus-battery-storage systems fell as low as 24 cents in good conditions.

The cost of solar installations has plummeted 90% in the past decade according to the research firm Wood Mackenzie. At the same time, the early effects of a warming climate and associated natural disasters have started to take a toll on American energy infrastructure already struggling to keep pace with regular maintenance and demand growth. Impacted communities have already seen the value of microgrids and are racing to adopt them, even as many larger utility providers look to natural gas or other partial solutions that rely on the aging centralized power grid.

The greatest impact of these early sustainable microgrids may reach beyond the emergency power they provide to nearby residents. They offer a glimpse of a radically different way for communities and energy consumers to think about how power is produced and used. In community microgrid systems, residents have a concrete, practical connection to their source of energy and are asked to work together with their friends and neighbors to control their energy demand so there is enough to go around.

Such a system stands in stark contrast to the power grid of today, where peak demand facilities are routinely called upon to burn some of the most environmentally harmful fuels to accommodate demand with few if any social or technological limitations. Sustainable microgrids are finally becoming truly affordable, and in the process are beginning to change the way we think about energy consumption and resilience.

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