energy storage
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In order to support a buildout of renewable energy, which tends to over-generate electricity at certain times of day and under-generate at others, the grid is going to need a lot of batteries. While lithium-ion works fine for consumer electronics and even electric vehicles, battery startup EnerVenue says it developed a breakthrough technology to revolutionize stationary energy storage.
The technology itself — nickel-hydrogen batteries — isn’t actually new. In fact, it’s been used for decades in aerospace applications, to power everything from satellites to the International Space Station and the Hubble Telescope. Nickel-hydrogen had been too expensive to scale for terrestrial applications, until Stanford University professor (and now EnerVenue chairman) Yi Cui determined a way to adapt the materials and bring the costs way, way down.
Nickel-hydrogen has a number of key benefits over lithium-ion, according to EnerVenue: it can withstand super-high and super-low temperatures (so no need for air conditioners or thermal management systems); it requires very little to no maintenance; and it has a far longer lifespan.
The technology has caught the eye of two giants in the oil and gas industry, energy infrastructure company Schlumberger and Saudi Aramco’s VC arm, which together with Stanford University have raised $100 million in Series A funding. The investment comes around a year after EnerVenue raised a $12 million seed. The company is planning on using the funds to scale its nickel-hydrogen battery production, including a Gigafactory in the U.S., and has entered a manufacturing and distribution agreement with Schlumberger for international markets.
“I spent almost three and a half years prior to EnerVenue looking for a battery storage technology that I thought could compete with lithium-ion,” CEO Jorg Heinemann told TechCrunch in a recent interview. “I had essentially given up.” Then he met with Cui, who had managed through his research to bring the cost down from around $20,000 per kilowatt hour to $100 per kilowatt hour within line of sight — a jaw-dropping decrease that puts it on-par with existing energy storage technology today.
EnerVenue CEO Jorg Heinemann Image Credits: EnerVenue (opens in a new window)
Think of a nickel-hydrogen battery as a kind of battery-fuel cell hybrid. It charges by building up hydrogen inside a pressure vessel, and when it discharges, that hydrogen gets reabsorbed in water, Heinemann explained. One of the key differences between the batteries in space and the one’s EnerVenue is developing on Earth is the materials. The nickel-hydrogen batteries in orbit use a platinum electrode, which Heinemann said accounts for as much as 70% of the cost of the battery. The legacy technology also uses a ceramic separator, another high cost. EnerVenue’s key innovation is finding new, low-cost and Earth-abundant materials (though the exact materials they aren’t sharing).
Heinemann also hinted that an advanced team within the company is working on a separate technology breakthrough that could bring the cost down even further, to the range of around $30 per kilowatt hour or less.
Those aren’t the only benefits. EnerVenue’s batteries can charge and discharge at different speeds depending on a customer’s needs. It can go from a 10-minute charge or discharge to as slow as a 10-20 hour charge-discharge cycle, though the company is optimizing for a roughly two-hour charge and four- to eight-hour discharge. EnerVenue’s batteries are also designed for 30,000 cycles without experiencing a decline in performance.
“As renewables get cheaper and cheaper, there’s lots of time of the day where you’ve got, say, a one- to four-hour window of close to free power that can be used to charge something, and then it has to be dispatched fast or slow depending on when the grid needs it,” he said. “And our battery does that really well.”
It’s notable that this round was funded by two companies that loom large in the oil and gas industry. “I think nearly 100% of the oil and gas industry is now pivoting to renewables in a huge way,” Heinemann added. “They all see the future as, the energy mix is shifting. We’re going to be 75% renewable by mid-century, most think it’s going to happen quicker, and those are based on studies that the oil and gas industry did. They see that and they know they need a new play.”
Image Credits: EnerVenue
Don’t expect nickel-hydrogen to start appearing in your iPhone anytime soon. The technology is big and heavy — even scaled down as much as possible, a nickel-hydrogen battery is still around the size of a two-liter water flask, so lithium-ion will definitely still play a major role in the future.
Stationary energy storage may have a different future. EnerVenue is currently in “late-stage” discussions on the site and partner for a United States factory to produce up to one gigawatt-hour of batteries annually, with the goal of eventually scaling even beyond that. Heinemann estimates that the tooling cap-ex per megawatt hour should be just 20% that of lithium ion. Under the partnership with Schlumberger, the infrastructure company will also be separately manufacturing batteries and selling them in Europe and the Middle East.
“It’s a technology that works today,” Heinemann said. “We’re not waiting on a technology breakthrough, there’s no science project in our future that we have to go achieve in order to prove out something. We know it works.”
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President Joe Biden’s plan for electric vehicles (EVs) to comprise roughly half of U.S. sales by 2030 is a clear indication that the U.S. is making strides in decarbonizing its transportation systems, which currently account for nearly half of total U.S. emissions.
Though this kind of federal support is critical in accelerating the mass adoption of EVs, we must face the impending need to rehabilitate the ailing U.S. electric infrastructure that millions currently rely on, namely the capabilities of the power grid.
As society converts to an all-electric future and demand rises for EVs, a challenge our modern world will face is how to charge the increasing number of vehicles without overstressing the grid past its capacity. While some predict EVs will overload the power grid, others have found methods that support our energy infrastructure, including solutions such as wireless charging, vehicle-to-grid (V2G) integration or more efficient methods of utilizing renewable energy sources, to name a few.
Amid warranted concerns about the unstable grid, there is an urgent need to find solutions that can reinforce this critical infrastructure to avoid pushing the grid to its limits.
According to the recent IPCC climate change report, extreme heat waves that previously only struck once every 50 years are now expected to happen once per decade or more frequently due to global warming and anthropogenic emissions. While this has already been seen in this past year through record-breaking heat waves and extreme fires in the Pacific Northwest, utilities, operators and industry experts continue to express concern about whether current energy systems will be able to withstand increasing temperatures from climate change.
And it’s not just heat: In February, a cold snap in Texas crippled energy infrastructure and left millions without power. These numbers will only continue to increase as temperatures rise and the grid overworks itself to meet electricity needs.
In addition to fluctuating temperatures impacting the grid, many are also concerned about its ability to support the increasing number of EVs expected to hit the market in the coming years. With reports indicating that transportation electrification will likely require a doubling of U.S. generation capacity by 2050, there is a need for flexible EV charging options that can increase flexibility and load times during peak charging hours. However, as it currently stands, the U.S. power grid is only capable of supporting 24 million EVs until 2028 一 well under the required number of EVs needed to successfully curb road transport emissions.
Despite these challenges, one thing that industry experts have pointed out is that EVs have the potential to play a massive role in managing demand as well as aid in stabilizing the grid when necessary. However, as EVs are more widely adopted across the U.S., utilities need to ask themselves critical questions such as when people will likely charge their vehicles, how many users are charging their vehicles and when, what types of chargers are in use, and what types of vehicles are charging (such as passenger vehicles or medium- to heavy-duty fleets) to determine the additional demand for electricity and how they must upgrade their grids.
With long lead times for grid infrastructure upgrades paired with an increasing number of individuals and companies looking to electrify their vehicles, municipalities across the U.S. are desperately searching for methods to implement the necessary charging infrastructure to stay ahead of the rising EV tide while simultaneously ensuring the grid’s stability. However, a recent analysis by the ICCT estimates that with the current number of U.S. EV chargers at 216,000, the country will need 2.4 million public and workplace chargers by 2030 if it wants to meet its goals.
To address this concerning lack of charging infrastructure, cities have begun to explore charging options outside of the traditional, stationary station to not only speed up the adoption of the necessary charging infrastructure, but to protect the grid as well. One of these options is dynamic charging, otherwise known as wireless or in-motion charging.
On one hand, some argue wireless electric vehicle charging will pose an additional strain on existing grid infrastructure by increasing demand variability due to fragmented charging duration caused by charging lane layouts and traffic. On the other hand, many argue that wireless charging actually decreases the demand on the power grid due to the fact that energy demand is spread over time and space throughout the day, rather than being confined to stationary chargers’ charging period between 2 p.m. and 7 p.m., which enables a reduction in required grid connections and upgrades.
Additionally, wireless charging can be deployed in locations where conductive (plug-in) charging solutions cannot — such as roads, directly under commercial facility loading docks, at exit and entry points to facilities, under taxi queues, at bus stations and terminals, etc., which means that wireless technology can charge EVs at regular intervals throughout the day with “top-up” charging.
This method also enables more efficient utilization of renewable solar energy, produced and utilized predominantly during daylight hours, meaning limited additional energy storage devices are required, unlike conductive EV charging stations, which can typically only be used in the evening and nighttime hours and require energy storage.
These benefits indicate that cities and utilities alike can capitalize on efficient energy utilization strategies such as wireless charging to spread energy demand over time and space — adding additional flexibility and protection to the grid. While this method can and should be applied to passenger EVs, using it to power medium- to heavy-duty fleet vehicles will allow for a much faster transition to electric in these challenging-to-electrify fleet segments.
While passenger EVs pose challenges of their own to the grid, large-scale fleet charging will be a monumental task if utilities don’t get ahead of the transition. Wireless charging offers a cost-effective solution to operators looking to transition to meet carbon reduction goals, with projected numbers of electric commercial and passenger fleets making up 10%-15% of all fleet vehicles by 2030. Let’s take a closer look at an example comparison between plugging in large vehicles versus wireless charging and the impact both have on the grid:
Wireless electric roads accompanied by solar panel fences adjacent to the road may be the ultimate solution for decentralizing power generation and eliminating stress on the grid. According to industry calculations, approximately 0.6 miles of this electric fence solution could provide between 1.3-3.3 MW of power. This combination of solar generation coupled with wireless charging infrastructure embedded into the road can support anywhere between 1,300 to 3,300 buses per day independent of power grid supply (assuming an average speed of 50 mph and accounting for seasonal variations in solar radiation).
Furthermore, because wireless electric roads are a shared platform for all EVs, this same road would also charge trucks, vans and passenger vehicles without placing additional pressures on the grid.
Although wireless charging is still relatively new to the market, the benefits are beginning to become glaringly self-evident. Amid increasing concerns about outdated grid infrastructure in the face of widespread transport electrification efforts, rising temperatures and extreme weather conditions, innovative charging methods can provide an optimal solution.
From distributing EV charging throughout the day to avoid overloads to being able to support the energy capacity needs of both passenger vehicles and large fleets simultaneously, technologies such as wireless charging will become critical resources in adapting to an all-electric decarbonized future.
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The European Commission has announced a partnership with Bill Gates’ sustainable energy funding vehicle with the goal of unlocking new investments for clean tech and sustainable energy projects totaling up to $1 billion (€820 million) over five years (2022-2026).
EU-based projects the partnership will initially focus on four sectors that are being prioritized for their potential to deliver substantial reductions in regional emissions — namely:
The goal is to scale technologies that are currently too expensive to compete with fossil-fuel-based incumbent technologies.
The pair said they will continue to work on setting up the program over the coming months, with an eye on having something further to announce at the COP-26 conference in November.
It’s not the first time the commission and Gates’ Breakthrough Energy organization have worked together on funding sustainable investment. But the scale of this latest partnership dwarfs the €100 million fund the EU established back in 2019 with its venture investment funding arm.
Now the commission has partnered with Breakthrough Energy Catalyst — a financing program within Gates’ organization that aims to accelerate the development and adoption of technologies needed to underpin a low-carbon economy — to mobilize up to 10x more than the earlier fund to build large-scale, commercial demonstration projects for clean technologies.
The overarching goal is of course to lower the costs and accelerate deployment of clean tech in order to deliver significant reductions in CO2 emissions in line with the Paris Agreement.
The bloc is a major emitter of CO2 but has committed to achieving net-zero emissions by 2050, under the European Green Deal.
Gates’ philosophy with his 2015-founded Breakthrough Energy vehicle, meanwhile, is that renewables alone won’t be enough to avert catastrophic climate change — and investments in a range of high risk but potentially high reward technologies is also needed.
But given the lengthy time scales needed for a return on these types of investments, public-private partnerships look like a key piece of the financing puzzle.
Commenting on the partnership announcement in a statement, EU president Ursula von der Leyen, said: “With our European Green Deal, Europe wants to become the first climate-neutral continent by 2050. … Europe has also the great opportunity to become the continent of climate innovation. For this, the European Commission will mobilise massive investments in new and transforming industries over the next decade. This is why I’m glad to join forces with Breakthrough Energy. Our partnership will support EU businesses and innovators to reap the benefits of emission-reducing technologies and create the jobs of tomorrow.”
In another supporting statement, Gates, founder of Breakthrough Energy, added: “Decarbonising the global economy is the greatest opportunity for innovation the world has ever seen. Europe will play a critical role, having demonstrated an early and consistent commitment to climate and longstanding leadership in science, engineering, and technology. Through this partnership, Europe will lay solid ground for a net-zero future in which clean technologies are reliable, available, and affordable for all.”
On the EU side, funding for the partnership is expected to come from the bloc’s flagship R&D fund, Horizon Europe, and also via the low-carbon-focused Innovation Fund within the framework of the InvestEU program.
Breakthrough Energy Catalyst will mobilise equivalent private capital and philanthropic funds to finance selected projects.
The partnership will also be open to national investments by EU Member States through InvestEU or at project level, the commission noted. It added that a call for expressions of interest for potential InvestEU implementing partners is currently open until June 30, 2021.
Renewable energy and clean(er) transport were also key focus areas for the massive €750 billion “Next Generation EU” coronavirus recovery fund put together by the commission last year — which said it would borrow money on the financial markets through the issuance of bonds for post-pandemic recovery — with that money pegged to be channelled through EU programs between 2021 and 2024.
The bloc’s lawmakers have also suggested that digitization and AI technologies — which are other areas it’s pegged for major investment — will play a key supporting role in Europe’s green transition.
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Tesla has installed its 200,000th Powerwall, the company’s home battery storage product, the company said in a tweet on Wednesday. Tesla’s CFO Zachary Kirkhorn told investors during a first-quarter earnings call in April that Tesla is continuing to work through a “multi-quarter backlog on Powerwall,” suggesting that the volume of installations will continue to soar in coming months.
During that earnings call, Tesla CEO Elon Musk said the company will no longer sell its Solar Roof panel product without a Powerwall. He said widespread installation of solar panels plus home battery packs (Tesla built, of course) would turn every home into a distributed power plant.
“…Every solar Powerwall installation that the house or apartment or whatever the case may be, will be its own utility,” he said. “And so even if all the lights go out in the neighborhood, you will still have power. So that gives people energy security. And we can also, in working with the utilities, use the Powerwalls to stabilize the overall grid.”
He noted the unprecedented winter storm in Texas in February, which, combined with record-breaking demand for electricity, left millions without power in freezing temperatures. He suggested that under that scenario, utilities could work with customers who have Powerwalls to release stored electricity back on the grid to meet that demand.
“So if the grid needs more power, we can actually then with the consent, obviously, of the homeowner and the partnership with the utility, we can then actually release power on to the grid to take care of peak power demand,” he said.
Tesla hit the 100,000 milestone for Powerwall installations in April 2020, five years after it debuted the first-generation Powerwall. That means that sales numbers that took the company five years to achieve were doubled in a single year.
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Individual solutions to the collective crisis of climate change abound: backup diesel generators, Tesla powerwalls, “prepper” shelters. However, the infrastructure that our modern civilization relies on is interconnected and interdependent — energy, transportation, food, water and waste systems are all vulnerable in climate-driven emergencies. No one solution alone and in isolation will be the salvation to our energy infrastructure crisis.
No one solution alone and in isolation will be the salvation to our energy infrastructure crisis.
After Hurricane Katrina in 2005, Superstorm Sandy in 2012, the California wildfires last year and the recent deep freeze in Texas, the majority of the American public has not only realized how vulnerable infrastructure is, but also how critical it is to properly regulate it and invest in its resilience.
What is needed now is a mindset shift in how we think about infrastructure. Specifically, how we price risk, how we value maintenance and how we make policy that is aligned with our climate reality. The extreme cold weather in Texas wreaked havoc on electric and gas infrastructure that was not prepared for unusually cold weather events. If we continue to operate without an urgent (bipartisan?) investment in infrastructure, especially as extreme weather becomes the norm, this tragic trend will only continue (with frontline communities bearing a disproportionately high burden).
A month after Texas’ record-breaking storm, attention is rightly focused on helping the millions of residents putting their lives back together. But as we look toward the near-term future and get a better picture of the electric mobility tipping point on the horizon, past-due action to reform our nation’s energy infrastructure and utilities must take precedence.
Seventy-five percent of Texas’ electricity is generated from fossil fuels and uranium, and about 80% of the power outages in Texas were caused by these systems. The state and the U.S. are overly dependent on outdated energy generation, transmission and distribution technologies. As the price of energy storage is expected to drop to $75/kWh by 2030, more emphasis needs to be placed on “demand-side management” and distributed energy resources that support the grid, rather than trying to supplant it. By pooling and aggregating small-scale clean energy generation sources and customer-sited storage, 2021 can be the year that “virtual power plants” realize their full potential.
Policymakers would do well to mandate new incentives and rebates to support new and emerging distributed energy resources installed on the customers’ side of the utility meter, such as California’s Self-Generation Incentive Program.
For the energy transition to succeed, workforce development will need to be a central component. As we shift from coal, oil and gas to clean energy sources, businesses and governments — from the federal to the city level — should invest in retraining workers into well-paying jobs across emerging verticals, like solar, electric vehicles and battery storage. In energy efficiency (the lowest-hanging fruit of the energy transition), cities should seize the opportunity to tie equity-based workforce development programs to real estate energy benchmarking requirements.
These policies will not only boost the efficiency of our energy systems and the viability of our aging building stock, creating a more productive economy, but will also lead to job growth and expertise in a growth industry of the 21st century. According to analysis from Rewiring America, an aggressive national commitment to decarbonization could yield 25 million good-paying jobs over the next 15 years.
Microgrids can connect and disconnect from the grid. By operating on normal “blue-sky” operating days as well as during emergencies, microgrids provide uninterrupted power when the grid goes down — and reduce grid constraints and energy costs when grid-connected. Previously the sole domain of military bases and universities, microgrids are growing 15% annually, reaching an $18 billion market in the U.S. by 2022.
For grid resiliency and reliable power supply, there is no better solution than community-scale microgrids that connect critical infrastructure facilities with nearby residential and commercial loads. Funding feasibility studies and audit-grade designs — so that communities have zero-cost but high-quality pathways to constructable projects, as New York State did with the NY Prize initiative — is a proven way to involve communities in their energy planning and engage the private sector in building low-carbon resilient energy systems.
Unpredictability and complexity are quickening, and technology has its place, but not simply as an individual safeguard or false security blanket. Instead, technology should be used to better calculate risk, increase system resilience, improve infrastructure durability and strengthen the bonds between people in a community both during and in between emergencies.
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Volta Energy Technologies, the energy investment and advisory services firm backed by some of the biggest names in energy and energy storage materials, has closed on nearly $90 million of a targeted $150 million investment fund, according to people familiar with the group’s plans.
The venture investment vehicle complements a $180 million existing commitment from Volta’s four corporate backers — Equinor, Albermarle, Epsilon and Hanon Systems — and comes at a time when interest in energy storage technologies couldn’t be stronger.
As the transition away from internal combustion engines and hydrocarbon fuels begins in earnest, companies are scrambling to drive down costs and improve performance of battery technologies that will be necessary to power millions of electric cars and store massive amounts of renewable energy that still needs to be developed.
“Capital markets have noticed the enormity of the opportunity in transitioning away from carbon,” said Jeff Chamberlain, Volta’s founder and chief executive.
It was born of an idea that began in 2012 when Chamberlain began talking with the head of the Department of Energy under the Obama administration. What began when Chamberlain was at Argonne National Lab leading the development of JCESR, the lead lab in the U.S. government’s battery research consortium, evolved into Volta Energy as Chamberlain pitched a private sector investment partner that could leverage the best research from National Laboratories and the work being done by private industry to find the best technology.
Support for the Volta project remained strong through both public and private institutions, according to Chamberlain. Even under the Trump administration, Volta’s initiative was able to thrive and wrangle some of the biggest names in chemicals, utility, oil and gas and industrial thermal management to invest in a $180 million fund that could be evergreen, Chamberlain said.
According to people with knowledge of the organization’s plans, the new investment fund, which is targeting $150 million but has a hard cap of $225 million, would complement the existing investment vehicle to give the firm more firepower as additional capital floods into the battery industry.
Chamberlain declined to comment specifically on the fund, given restrictions, but did say that his firm had a mandate to invest in technology that is battery and storage related and that “enables the ubiquitous adoption of electric vehicles and the ubiquitous adoption of solar and wind.”
Back during the first cleantech boom the brains behind Volta witnessed a lot of good money getting poured into bad ideas and vaporware that would never amount to commercial success, said Chamberlain. Volta was formed to educate investors on the real opportunities that scientists were tracking in energy storage and back those companies with dollars.
“We knew that investors were throwing money into a dumpster fire. We knew it could have a negative impact on this transition to carbon,” Chamberlain said. “Our whole objective was to help guide individuals deploying massive amounts of their personal wealth and move it from putting money into an ongoing dumpster fire.”
That mission has become even more important as more money floods into the battery market, Chamberlain said.
The SPAC craze set off by Nikola’s public offering in electric vehicles and continuing through QuantumScape’s battery SPAC through a slew of other electric vehicle offerings and into EV charging and battery companies has made the stakes higher for everyone, he said.
Chamberlain thinks of Volta’s mission as finding the best emerging technologies that are coming to market across the battery and power management supply chain and ensuring that as manufacturing capacity comes online, the technology is ready to meet growing demand.
“Investors who do not truly understand the energy storage ecosystem and its underlying technology challenges are at a distinct disadvantage,” said Goldman Sachs veteran and early Volta investor Randy Rochman, in a statement. “It has become abundantly clear to me that nothing happens in the world of energy storage without Volta’s knowledge. I can think of no better team to identify energy storage investment opportunities and avoid pitfalls.”
The new fund from Volta has already backed a number of new energy storage and enabling technologies, including: Natron, which develops high-power, fire-safe Sodium-ion batteries using Prussian blue chemistry for applications that demand a quick discharge of power; Smart Wires, which develops hardware that acts as a router for electricity to travel across underutilized power lines to optimize the integration of renewable power and energy storage on the grid; and Ionic Materials, which makes solid lithium batteries for both transportation and grid applications. Ionic Materials’ platform technology also enables breakthrough advancements in other growing markets, such as 5G mobile, and rechargeable alkaline batteries.
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Swell Energy, an installer and manager of residential renewable energy, energy efficiency and storage technologies, is raising $450 million to finance the construction of four virtual power plants representing a massive amount of energy storage capacity paired with solar power generation.
It’s a sign of the distributed nature of renewable energy development and a transition from large-scale power generation projects feeding into utility grids at their edge to smaller, point solutions distributed at the actual points of consumption.
The project will pair 200 megawatt hours of distributed energy storage with 100 megawatts of solar photovoltaic capacity, the company said.
Los Angeles-based Swell was commissioned by utilities across three states to establish the dispatchable energy storage capacity, which will be made available through the construction and aggregation of approximately 14,000 solar energy generation and storage systems. The goal is to make local grids more efficient.
To finance these projects — and others the company expects to land — Swell has cut a deal with Ares Management Corp. and Aligned Climate Capital to create a virtual power plant financing vehicle with a target of $450 million.
That financing entity will support the development of power projects like the combined solar and battery agreement nationwide.
Over the next 20 years, Swell is targeting the development of over 3,000 gigawatt hours of clean solar energy production, with customers storing 1,000 gigawatt hours for later use, and dispatching 200 gigawatt hours of this stored energy back to the utility grid.
It has the potential to create a more resilient grid less susceptible to the kinds of power outages and rolling blackouts that have plagued states like California.
“Utilities are increasingly looking to distributed energy resources as valuable ‘grid edge’ assets,” said Suleman Khan, CEO of Swell Energy, in a statement. “By networking these individual homes and businesses into virtual power plants, Swell is able to bring down the cost of ownership for its customers and help utilities manage demand across their electric grids,” said Khan. “By receiving GridRevenue from Swell, customers participating in our VPP programs pay less for their solar energy generation and storage systems, while potentially reducing the risk of a local power outage, and keeping their homes and businesses securely powered through any outages.”
Along with the launch of the virtual power plant financing vehicle, Swell is also giving homeowners a way to finance their home energy systems through Swell. They need the buy-in from homeowners to get these power plants off the ground, and for homeowners, there’s a way to get some money back by feeding power into the grid.
It’s a win-win for the company, customers and early investors like Urban.us, which was seed investor in the company.
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Even without a Green New Deal, the sweeping set of climate-related initiatives many Democrats are pushing for, President-elect Joe Biden will have plenty of opportunities to move ahead with much of the ambitious energy transformation plan as part of any infrastructure or stimulus package.
Should Republicans manage to maintain control of the Senate, there are still several opportunities to build climate-friendly policies into the infrastructure and stimulus bills Congress will be pushing through as its first orders of business, according to experts, investors and advisors to the President-elect.
That’s good news for established companies and the wave of startups focused on technologies to reduce greenhouse gas emissions that cause global climate change. And these changes could happen despite intransigence from even moderate Republicans like Mitt Romney on climate issues.
“I think people are saying that conservative principles still account for a majority of public opinion in our country,” Romney said on “Meet the Press” last week. “I don’t think they want to sign up for a Green New Deal. I don’t think they want to sign up for getting rid of coal or oil or gas. I don’t think they’re interested in Medicare for All or higher taxes that would slow down the economy.”
For instance, Shell announced earlier this month in Louisiana that it was closing a factory and laying off roughly 650 workers. The closure is primarily due to declining demand for oil brought about by the COVID-19 pandemic, but both Netherlands-headquartered Shell and its U.K.-based counterpart BP believe fossil fuel consumption may have reached its peak in 2019 and is headed for long-term decline.
U.S. oil and gas giants aren’t immune from the economic impacts of COVID-19 and a global shift away from fossil fuels either. Two of the largest companies, Chevron and ExxonMobil, have seen their share prices decline over the past year as the oil industry reckons with steep reductions in demand and other market pressures.
Meanwhile, some of the nation’s largest utilities are working to phase out fossil fuel-based power generation.
The markets are already supporting the transition to renewable energy, without much government guidance, at least here in the U.S. So against this backdrop, the question isn’t if the government should be supporting the transition to renewable energy, but how quickly stimulus can be mobilized to save American jobs.
“A lot of the really consequential climate-related stuff that’s going to come out in the [near term] … won’t actually be related to renewables,” an advisor to the President-elect said.
So the questions become: What will economic stimulus look like? How will it be distributed? and how will it be financed?
Image Credits: Artem_Egorov/Getty Images
President-elect Biden has already spelled out the first priorities for his incoming administration. While trying to manage the COVID-19 pandemic that has already killed over 238,000 Americans comes first, dealing with the economic fallout caused by the response to the pandemic will quickly follow.
Climate-friendly initiatives will loom large in that effort, analysts and advisors indicate, and could be a boon to new technology companies — as well as longtime players in the fossil fuels business.
“If we are going to be spending that money, there is an enormous opportunity to make sure that these investments are moving us forward and not recreating problems,” said one advisor to the Biden campaign earlier this year.
To understand how the trillions of dollars that are up for grabs will be spent, it’s helpful to think in terms of short-, medium- and long-term goals.
In the short term, the focus will be on “shovel-ready” projects that can be spun up as quickly as possible. These would be initiatives like environmental retrofits and building upgrades; repairing and upgrading water systems and electricity grids; providing more manufacturing incentives for electric vehicles; and potentially boosting money for environmental remediation and reclamation projects.
In all, that spending could total $750 billion by some estimates and would be used to get Americans back to work with a focus on industrial and manufacturing jobs that could have long-term benefits for the national economy — especially if that spending targets the government-designated Opportunity Zones carved out around the country to help low-income rural and urban communities.
If these efforts incorporate Opportunity Zones, there’s a chance to deploy the cash even faster. And if there are ways to preferentially rank infrastructure projects that also include a tech component, then that’s even better for startups who have managed to overcome hurdles associated with technology risk.
“Any time you craft policy, especially federal policy, you have to be so careful that the incentives line up correctly with what you’re trying to achieve,” said a Biden advisor.
Medium- and longer-term goals will likely require more time to plan and develop, because they’re relying on newer technologies in some cases, or they will have to wind their way through the planning process at the local and state levels before they can receive federal funds to begin construction.
Expect another $60 billion to be spent on these projects to finance development, workforce training and reskilling to prepare a labor force for a different kind of labor market.
One of the biggest risks that Biden administration climate policies face is the potential for legal challenges heard before an increasingly sympathetic conservative judiciary appointed under the Trump administration.
These challenges could force the Biden team to emphasize the financial benefits of adopting business-friendly carrots over regulatory sticks.
“Whenever possible you do want to let the markets figure themselves out,” said the advisor to the President-elect. “You always want to default to incentives rather than mandates.”
Coming off of the news this week that Pfizer has received positive results for its vaccine, there are some models from the current administration’s progress on a COVID-19 vaccine that can be instructive.
While Pfizer wasn’t involved in the Operation Warp Speed program created by the Department of Health and Human Services, the company did cut a $2 billion deal with the government that guaranteed a market for its vaccines.
The type of public-private partnerships that Connecticut Senator Chris Murphy mentions could also be employed in the climate space — especially in areas that will be hardest hit by the transition away from coal.
Some of that spending guarantee could come in the form of environmental remediation for orphaned natural gas wells or coal mining operations — especially in regions of the country like the Dakotas, Montana, West Virginia and Wyoming, that would be hardest hit by a transition away from fossil fuels. Some could come from the development of new geothermal engineering projects that require the same kind of skills that engineering firms and oil companies have developed over the past decades.
And, there’s the looming promise of a hydrogen-based economy, which could take advantage of some of the existing oil-and-gas infrastructure and expertise that exists in the country to transition to a cleaner energy future (n.b., that’s not necessarily a clean energy future, but it’s a cleaner one).
Already, nations like Japan are building the groundwork for replacing oil with hydrogen fuels, and these kinds of incentive-based programs and public-private partnerships could be a big boost for startups in a number of industries as well.
Image Credits: Cameron Davidson/Getty Images
Any policies that a Biden administration enacts would have to focus on economic opportunity broadly, and much of the proposed plan from the campaign fulfills that need. One of its key propositions was that it would be “creating good, union, middle-class jobs in communities left behind, righting wrongs in communities that bear the brunt of pollution, and lifting up the best ideas from across our great nation — rural, urban and tribal,” according to the transition website.
An early emphasis on grid and utility infrastructure could create significant opportunities for job creation across America — and be a boost for technology companies.
“Our electric power infrastructure is old, aging and not secure,” said Abe Yokell, co-founder of the energy and climate-focused venture capital firm Congruent Ventures. “From an infrastructure standpoint, transmission distribution really should be upgraded and has been underinvested over the years. And it is in direct alignment with providing renewable energy deployment across the U.S. and the electrification of everything.”
Combining electric infrastructure revitalization with new broadband capabilities and monitoring technologies for power and water would be a massive windfall for companies like Verizon (which owns TechCrunch), and other networking companies. It also provides utilities with a way to adjust their rates (which they appreciate).
Those infrastructure upgrades are also useful in helping utilities find a way to repurpose stranded coal assets that are both costly and — increasingly — useless.
“Coal … it doesn’t make sense to burn coal anymore,” Yokell said. “People are doing it even though it’s out of the money for liability reasons … everyone is looking to retire coal even in the assets.”
If those assets can be decommissioned and repurposed to act as nodes on a distributed energy grid using energy storage to smooth capacity in the same way that those coal plants used to, “it’s a massive win,” according to Yokell. Adoption of energy storage used to be a cost issue, Yokell said. “It’s now a siting issue.”
Repowering old hydroelectric assets with newer, more efficient technologies offer another way to move the needle with shovel-ready projects and is an area where startups could stand to benefit from the push. It’s also a way to bring jobs to rural communities.
The promise of infrastructure spending can be born out across urban and rural areas, but the stimulus benefits don’t end there.
For rural communities there are business opportunities in “climate-smart agriculture, resilience and conservation, including 250,000 jobs plugging abandoned oil and natural gas wells and reclaiming abandoned coal, hardrock and uranium mines,” as the Biden transition team notes. And there’s a huge opportunity for oil industry workers to find jobs in the new and growing tech-enabled geothermal energy industry.
The farm subsidies that have skyrocketed under the Trump administration could continue, just with a more climate-focused bent. Instead of literally giving away the farm to the tune of a projected $46 billion that the Trump administration will hand out to farmers over the course of 2020, payouts could be predicated on “carbon farming.” Wooing the farm vote with the promise of payouts for carbon sequestration could be a way to restart a conversation around a carbon price (a largely failed prospect in government circles). Beyond carbon sequestration, rapid innovations in synthetic biology for biomaterials, coatings and even food could take advantage of the big biofuel fermenters and feedstocks in the Midwest to enable a new biomanufacturing industry.
Furthermore, the expansion of rail lines thanks to the fracking and oil boom means opportunities and the potential to build out other types of manufacturing capacity that can be transported across the U.S.
Volkswagen broke ground Wednesday, November 13, 2019 on an $800 million factory expansion in Tennessee that will be the North American hub of its electric vehicle plans. Image Credits: Volkswagen
The same spending that could juice rural economies can be equally applied in America’s largest cities. Any movement to boost the auto industry through incentives around electric vehicles or federal mandates to upgrade fleets would do wonders for automakers and the original equipment manufacturers that supply them.
Public-private partnerships for urban infrastructure could first receive support from funds devoted to planning and managing upgrades. That could boost the adoption of new tech from startup companies around the country, while creating new jobs for a significant number of workers through implementation.
One large area where urban economic revitalization and climate policies can intersect is in the relatively unsexy area of weatherization, energy efficient appliance installation and building retrofits.
“Local governments across the country are highly interested in the green economy and transitioning to the low-carbon economy,” said Lauren Zullo, the director of environmental impact at the real estate management firm, Jonathan Rose Companies. “Cities are really looking to partner with the private real estate sector because they know we’re going to have to get buildings involved in the green economy. And any work that you do retrofitting local buildings is literally local economy.”
By channeling dollars into green retrofits and the deployment of distributed renewable energy, local economies will get a huge boost — and one that disproportionately will go to helping the communities that have been on the front lines of climate change.
“You saw … a lot of investment made just this way out of the Recovery Act,” Zullo said, referring to the American Recovery and Reinvestment Act of 2009, the stimulus bill passed in the first term of the Obama administration. “A lot of [funds] focused on low-income weatherization that were earmarked for low income and affordable housing. [Those] funds have allowed us to reduce energy consumption anywhere from 30% to 50% … and being able to gain those utility cost savings have been transformational to those communities.”
Why are these programs so important? Zullo explained further, “Low-income folks are disproportionately burdened by utility and energy costs. Any sort of energy-saving opportunities that we can earmark or target in these low-income communities is truly impactful … not just on a carbon footprint, but on the lives and success of these low-income communities.”
For even this more-modest legislation to make it through Congress, a Biden administration will have to answer the questions of who would pay for the stimulus and how it would get distributed.
In a tweet, the political commentator Matthew Yglesias proffered that the country could afford “to throw an ice cream party.” That policy would enable Republicans to keep the tax cuts while allowing the government to continue to spend on stimulus measures.
“[Interest] rates are very low. The country can afford an ice cream option where we spend money on some good things and ‘offset’ with tax cuts,” Yglesias wrote.
To distribute the funds, Congress could set up a body similar to the Reconstruction Finance Corporation (RFC), which was established by Herbert Hoover’s administration back at the start of the Great Depression. It was expanded under Franklin Delano Roosevelt to disburse funds to financial institutions, farms and corporations at risk of collapse.
While the success of the institution itself is somewhat murky, the RFC along with federal deposit insurance and the related Commodity Credit Corporation (which, unlike the RFC, still exists) laid the groundwork for the country to emerge from the Great Depression and gear up manufacturing to engage with a world at war in the 1940s.
The durability of the CCC could provide a model for any infrastructure credit corporation that the government may want to establish.
Some investors support the idea. “It’s more about channeling dollars to state, municipal or private businesses with the ability to underwrite heavily subsidized loans to any entity proposing a modern infrastructure project that could be paid through municipal bonds or tolling,” said one investor in the infrastructure space. “It would offer a credit backstop to anyone who wanted to invest in infrastructure and could have a technological requirement associated with it.”
Several investors suggested that capital from loans paid out through the infrastructure bank could finance the reshoring of industry, with potential tax revenues from the businesses offsetting some of the costs of the loans. Some of these measures could have additional economic benefits if the loans get funneled through local financial institutions as well.
“If you think about a vehicle to deliver these funds, you already have an existing architecture to deliver this … which is the municipal bond market,” said Mark Paris, a managing partner at Urban.us, a venture capital fund focused on urban infrastructure.
There’s no shortage of levers that the Biden administration can pull to reverse the course of the Trump administration’s policies on climate change, but many of these federal policy changes are likely to face challenges in courts.
Vox’s David Roberts has an excellent run down of some of the direct actions that Biden can take along the path toward decarbonization of the U.S. economy. They include restoring the over 125 climate and environmental regulations that the Trump presidency reversed or rolled back; working with the Environmental Protection Agency to develop a new, more sweeping version of the original Obama-era Clean Power Plan; push the Department of Transportation’s development of new fuel economy standards; and supporting California’s own, very aggressive vehicle standards.
Biden can also encourage financial markets to make more of an effort to price climate risk into their financial models for investment, which would further encourage investment in climate-friendly businesses and a divestment from fossil fuels, as Roberts notes.
Some of America’s largest financial services institutions are already doing just that, and oil-and-gas companies are wrestling with the need to transition to renewable or emission-free fuels as their share prices take a pummeling and demand plummets on the back of the COVID-19 pandemic.
As Mother Jones suggested last year, a Biden administration could declare climate change a national security emergency, in the same way that the Trump administration declared immigration to be a national security emergency. That would give Biden extensive powers to reshape the economy and directly influence industrial policy.
Declaring a national climate emergency would give Biden the powers he needs to enact much of the infrastructure initiatives that comprise the President-elect’s energy plan, but not a popular mandate to support it.
Before taking that step, Biden may choose to try and exhaust all legislative options first. In a divided Congress that means focusing on infrastructure, jobs and industry incentives.
“The impacts of climate change don’t pick and choose. That’s because it’s not a partisan phenomenon. It’s science. And our response should be the same. Grounded in science. Acting together. All of us,” Biden said in a September speech.
“These are concrete, actionable policies that create jobs, mitigate climate change and put our nation on the road to net-zero emissions by no later than 2050,” he said. “We can invest in our infrastructure to make it stronger and more resilient, while at the same time tackling the root causes of climate change.”
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As President-elect Joe Biden readies his transition team and sets the agenda for his first 100 days in office, startups can expect to see some movement on long-stalled infrastructure initiatives that could mean big boosts to their business.
Infrastructure is high on the list of priorities of the incoming Biden Administration as the former vice president hopes to make good on his campaign promise to “build back better.”
American infrastructure has been crumbling for decades without significant investment from the federal government, and much of what will be replaced will also be upgraded with new technology, according to people familiar with the Biden plan.
That means tech companies focused on next-generation telecommunications and utility infrastructure, transportation, housing and construction tech around energy efficiency could see new dollars pour in over the next four years.
“Infrastructure and build out of the clean energy economy … doesn’t necessarily mean large wind or large solar projects. It could mean advanced metering … it can be new engine technologies,” said Dan Goldman, a managing partner at Clean Energy Ventures. “We think that that can be a huge opportunity for job creation … not only putting people back to work but putting people back to work in high quality jobs.”
And there’s a willingness to encourage these infrastructure projects in less partisan ways in states like Massachusetts, Virginia and Florida, which are actively building out electric vehicle infrastructure and renewable energy projects, Goldman said.
While the federal government will ultimately be distributing the cash, startups can expect to see the spending actually come from municipalities and state governments, which often have a better understanding of local needs and where the money should go.
The electrification of everything — a component of any zero-carbon movement — requires significant upgrades to existing power infrastructure. That means everything from systems management technologies to distribution facilities to ways to store power that can be moved on to the grid.
“Without that infrastructure investment it gets quite challenging,” said Abe Yokell, a co-founder and managing partner of Congruent Ventures.
He pointed to large-scale energy storage technologies as one solution, but management systems for utilities will be another area of interest.
Those infrastructure initiatives will likely mean good things for battery companies like Form Energy, which signed its first major contract with Great River Energy earlier this year; or Antora and Malta, which store energy as heat; or Quidnet, which has a pumped hydroelectric play for large-scale energy storage by pumping water into the gaps between rocks underground that creates pressure and can force water back up through a generator.
Other large-scale energy storage companies working on developing and installing batteries could benefit as well. That means good things for Tesla, which has a few major battery installs under its belt, and Fluence, which manages and operates big install projects.
Natel Energy, another startup working on energy storage (and generation) using hydropower, could also find its technology in the mix, according to company founder, Gia Schneider.
Schneider sees three potential pitches for her company’s technologies. “Climate change is water change,” she said. “We have a bucket in energy, a bucket of stuff in environmental and a bucket of stuff in working lands.”
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Tesla’s energy storage business picked up steam in the second quarter and even played a minor role in the company’s fourth consecutive quarter of profitability, according to earnings reported Wednesday.
Commercial and residential energy storage sales as well as solar are still mere slices of Tesla’s overall business, which is largely dominated by automotive. However, second-quarter results show some promise for energy storage, particularly Megapack, the utility-scale energy storage product that launched in 2019 and is modeled after the giant battery system it deployed in South Australia.
While Tesla does provide separate deployment stats for solar and energy storage, it combines the two when reporting revenue, making it impossible to fully measure the success of Megapack. However, Tesla made a point in its earnings statement to flag Megapack as a winner in the second quarter and noted that it turned a profit for the first time.
“There’s a lot of demand for the product and we’re growing the production rates as fast as we can,” Drew Baglino, senior vice president of powertrain and energy engineering, said during Wednesday’s earnings call.
For the past four years or so Tesla has been asking investors to view it as an energy company instead of just an automaker. Some analysts think that the real value in Tesla’s business will be when it actually achieves some level of parity between the two sides of the shop — a goal that Musk is also shooting for.
But energy storage and solar has remained in Tesla’s automotive shadow, despite assurances that these business products will eventually be equals. For now, energy storage remains a small, but growing, fraction of Tesla’s revenue.
CEO Elon Musk predicted its energy business would be roughly the same size at its automotive unit over the long term. He did not provide a timeline.
One product that Tesla is hoping will accelerate the growth of its energy storage business is Autobidder, the company’s machine-learning platform for automated energy trading.
Autobidder provides grid stabilization and ensures that things are “super smooth,” Musk said, adding that it is necessary in order to solve the sustainable energy problem
Overall, energy storage deployed was up 61% on a quarterly basis (from 260 megawatt hours to 419 megawatt hours) signs that the business is beginning to recover to levels before the COVID-19 pandemic hit. Energy storage deployments in the second quarter were still only 1% higher than the same period last year, illustrating that Tesla still has a ways to go before it hits numbers reached in the third and fourth quarters of 2019.
Meanwhile, Tesla’s solar deployments shrank.
Tesla installed 27 MW of solar in the second quarter, down 23% from the previous quarter and off 7% from the same period last year. Some of that slippage is likely due to the economic slowdown and shelter in place orders that swept the U.S. in response to COVID-19.
Tesla became the leading solar installer in the United States with its acquisition of SolarCity but its position slipped as Sunrun and Vivint Solar surged in the U.S. market. Now, its looking to regain some of that ground with its Solar Roof, a new shingle-like product that has been development and testing for years. Tesla said Wednesday that installations of the Solar Roof roughly tripled in the second quarter compared to the first quarter. However, the company did not provide specific figures, making it unclear just how many Solar Roof installations it has completed.
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