Marc Andreessen, Cofounder and General Partner of Andreessen Horowitz, a phenomenally-successful $35 billion venture capital firm dubbed "a16z," has shared a litany of views of where humanity is and where it should be vis-à-vis technology in a post entitled "The Techno-Optimist Manifesto." Writing in Nietzsche-like style, Andreessen covers topics such as lies, truth, technology, markets, intelligence, energy, abundance and much more with bold pronouncements regarding our future. This manifesto is a wake-up call to us all to not presume our future's doom and allow pessimism to handcuff action. In fact, Marc posits that we have all the tools we need to create a better future, if we are optimistic and brave enough to use them.
There is much to appreciate about someone of Andreessen's stature putting his views out there in unapologetic style. We take the liberty of sharing an extract from Marc's manifesto on the topic of "Energy," which we agree with entirely and which informed our reasons for founding Nucleation Capital, but we urge everyone to take a moment to read the entire manifesto to refresh your brain and recharge your perspective.
Energy
Energy is life. We take it for granted, but without it, we have darkness, starvation, and pain. With it, we have light, safety, and warmth.
We believe energy should be in an upward spiral. Energy is the foundational engine of our civilization. The more energy we have, the more people we can have, and the better everyone’s lives can be. We should raise everyone to the energy consumption level we have, then increase our energy 1,000x, then raise everyone else’s energy 1,000x as well.
The current gap in per-capita energy use between the smaller developed world and larger developing world is enormous. That gap will close – either by massively expanding energy production, making everyone better off, or by massively reducing energy production, making everyone worse off.
We believe energy need not expand to the detriment of the natural environment. We have the silver bullet for virtually unlimited zero-emissions energy today – nuclear fission. In 1973, President Richard Nixon called for Project Independence, the construction of 1,000 nuclear power plants by the year 2000, to achieve complete US energy independence. Nixon was right; we didn’t build the plants then, but we can now, anytime we decide we want to.
Atomic Energy Commissioner Thomas Murray said in 1953: “For years the splitting atom, packaged in weapons, has been our main shield against the barbarians. Now, in addition, it is a God-given instrument to do the constructive work of mankind.” Murray was right too.
We believe a second energy silver bullet is coming – nuclear fusion. We should build that as well. The same bad ideas that effectively outlawed fission are going to try to outlaw fusion. We should not let them.
We believe there is no inherent conflict between the techno-capital machine and the natural environment. Per-capita US carbon emissions are lower now than they were 100 years ago, even without nuclear power.
We believe technology is the solution to environmental degradation and crisis. A technologically advanced society improves the natural environment, a technologically stagnant society ruins it. If you want to see environmental devastation, visit a former Communist country. The socialist USSR was far worse for the natural environment than the capitalist US. Google the Aral Sea.
We believe a technologically stagnant society has limited energy at the cost of environmental ruin; a technologically advanced society has unlimited clean energy for everyone. [Emphasis added.]
As investors in next-generation nuclear, we were thrilled to see Marc Andreessen rail in support of nuclear. Yet, a mere two days after the release of Andreessen's almost poetic Techno-Optimist Manifesto, Ryan McEntush from the a16z team published an even more significant piece, a profoundly well researched and comprehensive analysis called "How to Scale Nuclear." This article received almost none of the social media attention but is definitely well worth reading. To us, this article is evidence that Andreessen Horowitz is actively investing human capital into understanding and building expertise in nuclear fission and, if they aren't already, may soon become a fission investor.
"Rather quietly, a new age of atomic energy may be approaching. Splitting atoms may not be as exciting as fusing them, or as modish as wind and solar projects. Yet old-fashioned fission is poised to make a comeback thanks to innovative new reactor designs. The world will be better for this revolution — if policymakers allow it."
So begins an online article in the Washington Post with the unflinching title "Net Zero Isn't Possible Without Nuclear." This piece is described as "Analysis by The Editors | Bloomberg."
[Aside: This is an amazing piece of writing—which we entirely agree with and truly admire—but it is all highly unusual. Newspapers typically do not publish "analysis." Also, newspapers typically will not publish opinion pieces from "The Editors" of other organizations. Yet, here it is, Bloomberg Editors (might that include Michael Bloomberg?) have effectively placed an OpEd in the WaPo on the last business day of the year that is, we suspect, going to serve as the exclamation mark for the year. End aside.]
This piece packs a punch. It's not too long. It's not too technical. It just makes the case that we need tons more nuclear energy if we hope to reduce emissions and yet our progress in that direction is blocked by a Nuclear Regulatory Commission that is effectively disfunctional and unable to understand relative risks.
Sadly, we agree. The NRC as it is now, is not well-suited for supporting the success of an innovative nuclear tech sector. Today's NRC could remain the regulator for the traditional industry, which is used to slow and plodding and isn't building all that much. But what the Advanced Nuclear sector needs is a new, more innovative regulatory body which operates at the pace of technology and which can be empowered to use different methods and objectives to provide suitable guidelines and support for innovators but which doesn't stop them from innovating and commercializing good designs, simply because those designs haven't been tested for decades. This group should be empowered to use probabilistic risk assessments, advanced technologies, modeling and even AI to help launch the advanced nuclear sector and ensure that we get the commercial reactor designs we need to prevent climate change from destroying humanity.
The NRC, as it exists now, does not recognize that climate change is barreling down on the world with an absolute certainty, if we don't eliminate emissions. For the sake of zeroing out risks so miniscule that they don't pose a realistic threat, the NRC is standing in the way of important, planet-saving climate solutions.
Those who receive Dr. James Hansen's occasional newsletter from his Climate Science, Awareness and Solutions team, will have seen some dire reports before. Still, nothing we have seen is quite as unimaginable or alarming as learning that global warming is happening at the equivalent of 750,000 exploding Hiroshima atomic bombs in our atmosphere per day, every day. From burning fossil fuels. That's a lot of warming . . . !
No one likes to think about nuclear bombs. Their very bad reputation already negatively impacts how people think about nuclear energy (even though bombs are designed to explode and nuclear energy is designed so it can't explode). But in this case, Hansen's comparison really helps. Not just as to the scale of the warming problem but as to level of threat.
Fig. 1: 12-month running-mean of Earth’s energy imbalance, based on CERES satellite data for EEI change normalized to 0.71 W/m2 mean for July 2005 – June 2015 based on in situ data.
In today's newsletter, Earth's Energy Imbalance and Climate Response Time, Hansen and team review findings recently detailed in a newly issued report called Global Warming in the Pipeline. From this report we learn that there is a lot more solar energy being absorbed by our planet than is being lost through heat radiation out into space. As they explain, the heat budget of our planet is badly out of wack. There is far more energy coming into our atmosphere than going out. As though we have put an "extra blanket" on the planet, our emissions trap heat and are causing excess warming. Dr. Hansen frames this massive experiment as “human-made geoengineering of Earth’s climate.” He writes:
Earth's Energy Imbalance (EEI) varies from year-to-year (Fig. 1), largely because global cloud amount varies with weather and ocean dynamics, but averaged over several years, EEI tells us what is needed to stabilize climate.[4] When [Dr. Hansen] gave a TED talk 10 years ago, EEI was about 0.6 W/m2, averaged over six years (that may not sound like much, but it equals the energy in 400,000 Hiroshima atomic bombs per day, every day). Now, it appears, EEI has approximately doubled, to more than 1 W/m2. [Emphasis added.] The reasons, discussed in our paper, mainly being increased growth rate of greenhouse gases (GHGs) and a reduction of human-made aerosols (fine particles in the air that reflect sunlight and cool the planet).
It appears that Dr. Hansen's 2012 TEDTalk, Why I must speak out about climate change, explained all these phenomena to us a full decade ago. So, in fact, his recent report is just providing us with an update on how little we have done to address the problem and thus how much worse things are. It is clear, we have not listened to him.
Dr. James Hansen's 2012 TEDTalk
https://www.youtube.com/watch?v=fWInyaMWBY8
In ten years, the amount of forced warming of our planet has nearly doubled and this is not a good thing.
So why has humanity failed to take the requisite actions to stabilize the climate? In characteristic understatement, we’re told it’s because of the climate’s delayed response. In other words, heat applied to oceans and ice sheets will still take a while to fully warm or melt them. Not only do the world’s oceans contain 270 times as much mass as the atmosphere, but water also needs 4 times as much energy as air to raise each unit of mass a degree in temperature. This provides a lag that allows global air temperatures to seem more normal than they really are. Without that lag, we’d likely have acted more aggressively to limit the heating. We’re just not fully experiencing how bad it really is. The good news: the climate’s delayed response gives us a little more time to take meaningful action, before we have so much disruption from our overheated world, that societies break down.
Dan Miller, a co-founder of the venture capital firm, Roda Group and a leading proponent of climate action, took time to review the entire 48 page Global Warming in the Pipeline paper submitted by Hansen and 14 co-authors. He summarized its findings as follows:
1. The Earth Climate Sensitivity (ECS) — the Earth’s short-term response to a CO2 doubling — is higher than previously assumed. Most scientists said it was ~3ºC, but Hansen et al now say it is 4ºC or more based on paleoclimate data. This means there is more warming “in the pipeline” than previously assumed. 2. While humans have increased atmospheric CO2 by 50% since the industrial revolution, the actual climate forcing from all the added greenhouse gases is now ~4W/m^2, which is equivalent to a doubling of CO2 (i.e., CO2e (including all greenhouse gases, not just CO2) is about 560 ppm). 3. Part of the current warming has been hidden by human-made particulate air pollution (aerosols), mainly sulfur. When North America and Europe started to reduce emissions after the introduction of clean air acts in the 1970's, regional and global warming became more pronounced. In the past decades China and global shipping slashed sulfur emissions through cleaner fuels and sulfur filter systems ('scrubbers'). There are clear signals from ground, ocean and satellite based observations that the rate of global warming has recently doubled, which needs to be taken into account in risk assessments. 4. Assuming today’s forcing (4 W/m^2) stabilizes and human-made aerosols are eliminated, when all feedbacks — including “long-term” feedbacks — play out, we are on track for about 10ºC warming and 6~7ºC if aerosols stay at today’s levels. This is a “scenario” and we still control our future, though we are on track to increase climate forcing from today’s 4 W/m^2. 5. If greenhouse gas forcings keeps growing at the current rate, it could match the levelPETM mass extinction within a century. We are increasing climate forcing 20X faster than in the PETM so “long-term” feedbacks won’t take as long as in the paleo record (though some feedbacks will still be much longer than a human lifetime). 6. The paper concludes that we must: (a) implement a carbon fee and border duty (Fee and Dividend); (b) "human-made geoengineering of Earth’s climate must be rapidly phased out,” i.e., we must stop emitting greenhouse gases, remove CO2 from the atmosphere, and research and implement safe solar radiation management to counter the massive geoengineering experiment we are currently running; and (c) we must improve international cooperation to allow the developing world to grow using clean energy. 7. A companion paper will be coming out that addresses the near-term shutdown of the AMOC and associated “multi-meter” sea level rise on a century timescale.
Dan Miller runs a Clubhouse group called Climate Chat. Following the release of Hansen's report, he interviewed Leon Simons, a co-author of the paper, about their findings and the implications. It was a 2.5 hour conversation. It's not a happy topic but Dan, at least, is willing to confront the hard truths, in this case, that we must act immediately to address the climate crisis.
Part of the hard truth that is increasingly unavoidable, has to do with solutions. Once again, Dr. Hansen recognized the dilemma we have with respect to our options for solutions quite a long time ago: namely that we cannot realistically let go of fossil fuels without finding good alternatives, and the “best candidate is nuclear energy." Here he is discussing this in a 2013 interview:
Even though nuclear energy could dramatically help us alleviate emissions from fossil fuels, many people, including many smart investors, find the idea of proactively supporting nuclear power uncomfortable. They fear and loathe nuclear bombs—rightfully so—and can't emotionally separate those feelings enough to accept that there are compelling benefits from energy achieved by a related technology. Some just love "renewables," which generate energy from free wind and free sun. The costs of installing these have come way down and they are extremely popular, so what's not to like?
Nuclear, in contrast, is very hard to like. It's so complicated and hard for people to understand, plus it's fraught with scary meltdown scenarios, exclusion zones and radioactive waste. Beside, we know that it's expensive and takes a long time to build, so with solid reasons like that to reject it, why risk putting one's own environmental credibility and "green" loyalty in question by supporting it, since it's already too unpopular to succeed, right?
This type of thinking has made nuclear power, quite likely the best solution we have for eliminating dependence on fossil fuels, easy to either ignore or outright reject. And this might have been the end of the story except for the inconvenient fact that wind and solar are not doing the job of reducing emissions.
It turns out that people not onlywantbut societies need and demand reliable energy. Even with cheap renewables, fossil fuel usage continues to expand. Because renewables are weather-dependent and the weather doesn't always cooperate. Which is, in turn, why more people are again revisiting the possibility of using nuclear power, because the alternative is natural gas. This spurred Dan Miller to invite Carl Page, founder of the Anthropocene Institute, into the Climate Chat Clubhouse to explore these issues and discuss why public support for nuclear power has dramatically increased.
It seems Russia's attack of Ukraine followed by energy scarcity elevated global appreciation of several critical facets of energy systems beyond mere price. People woke up to the fact that energy supply security, grid reliability, energy price stability, climate resilience and limiting carbon are all important. Europe's dependence on Russian natural gas and now a war-induced energy crisis has re-focused the world's spotlight on nuclear energy—the only energy solution that addresses all of these critical energy needs. Germany, a nation deeply committed to nuclear phase-out, chose to delay the closures of its last nuclear power plants, rather than risk worsening their energy crisis. California choose to extend the life of Diablo Canyon for similar reasons.
Well maybe not shutting down existing plants makes sense, you might be thinking. But isn't it true that building new nuclear is too expensive and takes too long? The answer is not necessarily. Although Gen III nuclear power plant construction experiences have been mixed, with many in that class greatly delayed and vastly over-budget, a few of these Gen III plants have been built on time and in budget and nearly all are finally being completed. These are newer, safer light water designs and the learning process on those new designs has begun. Which means that costs of new builds can come down, if they get proper support. The question now for the industry and the world, is whether we are going to build on that construction knowledge to improve on past performance or abandon it.
Additionally, there's been movement in a whole new direction for nuclear technology: that of innovation. Gen IV nuclear, or what many call advanced nuclear and next-generation nuclear, are innovative new designs on the cusp of commercialization. A new crop of developers are working to reimagine nuclear without water cooling. These designs largely rely on physics for cooling, rather than muscular engineering. This reduces the need for back-up safety systems and redefines how small and how quickly nuclear can be built.
Next-gen is now widely expected to be smaller, modular, manufactured and constructed in a period of months and will be well-suited for use by corporate and industrial sites, college campuses, data centers, district heating systems and remote villages around the world. These advanced fission designs are engineering evolutions of previously demonstrated technologies such as molten salt, high-temperature gas and liquid metal-cooled reactors that do not require scientific discovery or breakthroughs. Fusion, which is developing the potential of magnetic confinement, inertial confinement and even metallic lattice confinement (formerly called "cold fusion") to generate massive amounts of carbon-free energy, still requires significant scientific breakthroughs but they also seeing progress and are widely expected to be ready to serve energy needs by mid-century.
[Click image to learn more about why Dr. Hansen and other scientists are suing the EPA.]
The question now is, will this growing global support for nuclear energy and the efforts of innovators to redesign nuclear for the 21st century enable us to meet our urgent climate goals? Can we build nuclear faster while steadily reducing costs? Or will lingering antinuclear prejudice induce an investor delayed response that prevents construction of new Gen III designs and commercialization of a range of Gen IV designs?
The answer to that question will determine whether or not humanity meets or misses our very limited window to eliminate fossil fuels emissions by 2050. This is why we applaud the growing investor enthusiasm for building existing commercially-viable Gen III nuclear plants, as well as investing in the further development of innovative Gen IV designs, including fusion. We need them all if we are to have any hope of supplanting the 100 million barrels of oil burned every day and the 80% of electricity powered by coal and gas before it is too late.
According to Dr. Hansen, it is already very late and our climate situation is frighteningly dire. People need to act with urgency and purpose on climate: we can no longer afford delay. What we decide to do to move off the wrong path that we have been on up until now will set our course, perhaps permanently. We need good alternatives to fossil fuels. Nuclear power may not be environmentalists' or investors' first choice but it has decades of proven efficacy and safety. Best of all, current innovations hold the promise of being able to scale rapidly to serve the world's urgent energy needs.
Those who invest wisely into this risky "contrarian" area may ultimately reap the reward of seeing their investments succeed. If they do, it means they will have helped displace fossil fuel as the energy of choice and provided a compelling clean energy alternative. And for that, there could well be extraordinary returns. There are plenty of risks for sure but, as it looks now, the risks of not investing in the solutions that can reduce emissions could well be far worse.
Hansen and team have recently detailed new warnings and updated data in a newly issued report called Global Warming in the Pipeline, which has been submitted to Oxford Open Climate Change for publication. Read more of the history of Dr. James Hansen's research into the heating effect of CO2 in the atmosphere. In August 1981, the New York Times published Study finds warming trend that could raise Sea Level, a report by Walter Sullivan about the study Dr. Hansen and six colleagues wrote which revealed the risk of sea level rise from global warming.
Billionaires are rallying around nuclear, according to a recent report from Pitchbook on venture investments in 2021. Notably, some of these billionaires, Elon Musk and Marc Andreessen, have spoken out about the need to both preserve existing nuclear and to "build 1,000 new state-of-the-art nuclear power plants in the U.S. and Europe right now."
This isn't exactly new, since billionaires like Bill Gates, Jeff Bezos and Peter Thiel have been both investing and advocating for nuclear for years but, nevertheless, 2021 was a banner year for nuclear venture fundraising. Not just are billionaires excited about the prospects for nuclear energy to solve climate, a lot of non-billionaire investors are as well.
According to Pitchbooks, which tries to track all venture investment deals, a record $3.4 billion was plowed by investors into nuclear ventures, which was more than the amount invested in the prior decade combined. Fusion ventures were a major beneficiary of this growing investor interest, despite yet having progressed past the "science project stage" with Commonwealth Fusion raking in $1.8 billion by itself and Helion Energy raising $500 million, but the majority of the 28 deals that were closed were likely in fission.
There is clearly a trend around an increased level of investor interest in next generation nuclear and a willingness by investors to jump in to the sector. Nucleation Capital was also launched and made its first investments in 2021—which were reported to and presumably included in the analysis by Pitchbook. Our ability to do so a function of the same factors that have stimulated the rise in venture activity, which include:
1. Widespread recognition that nuclear energy deserves inclusion in green taxonomies and is a critical rare source of firm, clean power that competes against fossil fuels, not renewables.
2. 60+ years of commercial operating experience provide ample evidence that the risks of a nuclear accident are grossly overplayed by the press and nuclear's opponents.
3. Overly hyped radiation fears have been muted by a broader understanding of the beneficial effects of background levels of radiation that occur naturally in our environment.
4. Mastery of next-gen nuclear technology is vital to both national and international security so that Russian and Chinese providers do not succeed in supplying the world's future energy needs and thus being in a position to apply geopolitical pressures on developing nations.
5. Grassroots climate and clean energy advocacy has made its mark on the world stage at COP 26 and demanded not just to protect existing nuclear power plants but also to deploy next-generation designs.
6. Fast-growing wind and solar development have not proven an ability to deliver the level of decarbonization needed to meet climate goals, due to their intermittency and dependence on natural gas.
7. Longer term decarbonization goals will require energy abundance that is not feasible with current dilute sources of energy but require nuclear's ability to repower coal plants with clean energy.
With the Russian invasion of Ukraine, the geo-political issues have risen to the top and have increased interest among many countries in eliminating dependence on natural gas even faster than previously planned. If there is a silver lining to the war being fought in Ukraine, it may be the added impetus that it has given to the global urgency to reduce gas dependence and build (or restart) nuclear energy. This reverses the prior trend, where gas (with externalized emissions) replaced nuclear energy, since the only fuel that really competes with nuclear is natural gas (so long as emissions can be externalized).
Peter Diamandis, Chairman and Co-Founder of Singularity University, founder and executive chairman of the XPRIZE Foundation, writes a tech blog. We were sent a copy of the email that he sent out to subscribers on the future of nuclear, which begins as follows:
Yes, I want nuclear energy *in my back yard*!
Extraordinary new innovations are giving us failsafe nuclear fission and the potential to achieve our age-old dream of fusion.
This year, Bill Gates commented: “Nuclear is ideal for dealing with climate change, because it is the only carbon-free, scalable energy source that’s available 24 hours a day. The problems with today’s reactors, such as the risk of accidents, can be solved through innovation.”
This blog is about convincing you to re-consider nuclear as a viable and critical idea. The upside of success is extraordinary, which is why, for the first time, we’re beginning to see venture capital make massive investments in the field.
The Winter edition of Issues in Science and Technology has published a selection of very thoughtful essays from some of our smartest and most successful investors and academics.
In a piece called "What's the big idea?," venerated Venrock VC, Ray Rothrock, discusses his experience and, indeed, success as a venture capitalist and his honed understandings of how to sniff out the best teams and the brightest visions, remaining "ruthlessly focused on finding ideas that we think can be brought to market with reasonable investments and in reasonable periods of time." He then goes on to explain why he was motivated and even compelled to make an investment in Tri-Alpha Energy, a fusion venture, which he calls "the riskiest and most significant venture project of my career . . . an energy development company that, if it succeeds, would change the world in profound ways."
In "A Roadmap for US Nuclear Energy Innovation," Dr. Richard Lester, professor and associate provost at the Massachusetts Institute of Technology, reviews a variety of forces that are inspiring a renewed push for nuclear energy. He cites several recent climate policy assessments that have concluded that meeting the world’s growing appetite for energy while achieving deep reductions in global greenhouse gas emissions will be impossible without rapid nuclear energy growth, along with massive increases in the deployment of solar, wind, and other low-carbon energy technologies. He goes on to propose a roadmap for innovation that enables the U.S. to lead, rather than follow, Russia and China in advancing nuclear technology.
