In a recent episode of the Odd Lots Podcast, hosts Joe Wiesenthal and Tracy Alloway engaged in a deep dive discussion with David Fishman, a senior manager at the Lantau Group, about the rapid expansion of China's nuclear energy capabilities. They contrasted China's successful nuclear strategy with the slower pace of nuclear development in the U.S., exploring topics such as financing, workforce efficiency, regulatory environments, and overall energy market structures.
Key Insights from the Podcast
China's Nuclear Expansion
- Impressive Growth: Over the past decade, China has constructed 37 new nuclear reactors and aims for continued growth.
- Current Capacity: China operates almost 60 nuclear reactors, contributing nearly 60 gigawatts of nuclear power to its energy mix. This is significant on a global scale but still small relative to China's overall energy generation from coal, wind, and solar.
Factors Behind Success
- Historical Context: China's nuclear journey began in the 1980s, initially signing agreements with foreign firms while also developing domestic technology.
- Rapid Economic Growth: The demand for energy due to economic expansion led to a strategic need for alternative sources beyond coal.
Financing Models
- State-Owned Enterprises (SOEs): The construction and operation of nuclear plants in China is largely carried out by state enterprises. These state-owned companies benefit from preferential financing from state banks, resulting in lower interest rates than those available in the U.S.
- Guaranteed Price Structure: Chinese nuclear power plants benefit from guaranteed on-grid rates, providing a stable economic environment essential for investment in large-scale nuclear projects.
Comparisons with the U.S.
- Differences in Construction Speed: Building a nuclear reactor in China can take around 10 to 12 years compared to the much longer timelines seen in the U.S., where new projects often face delays and cost overruns.
- Regulatory Efficiency: The contrast in regulatory environments is stark. In many instances, the extensive permitting processes and public opposition encountered in the U.S. slow development, while China can manage public consultations more swiftly.
Labor and Manufacturing Advantages
- Large Skilled Workforce: China possesses a vast and skilled labor pool, allowing for efficient construction practices that are crucial for meeting tight schedules.
- Industrial Capacity: The local manufacturing industry can produce the necessary heavy components for reactors, which minimizes transportation costs and delays.
Modularized Construction
- Innovative Techniques: China has effectively utilized modular construction techniques, allowing portions of reactors to be pre-fabricated, which can decrease overall construction times. This method, which other countries have tried but struggled with, showcases China's superior execution capabilities.
Future Prospects
- Long-Term Goals: China's nuclear power ambitions include an increase to 300 gigawatts by 2050, significantly outpacing the current U.S. fleet that stands at about 100 gigawatts.
- Market Integration: As China moves towards a more market-driven economy, future reactors may need to adapt to an evolving financial landscape that incorporates competition with renewables like solar and wind.
Conclusion
The conversation highlighted that China's nuclear power expansion is backed by strong state support, favorable financing, and efficient project management. These factors combine to create a nuclear environment characterized by growth and swift development, contrasting with the challenges faced in the U.S. and other Western nations. Understanding these dynamics provides valuable insights for other countries looking to invest in nuclear energy as a critical component of their energy strategy.
Key Takeaway: China's success in building nuclear power plants serves as a crucial lesson on the importance of streamlined processes, state support, and innovative construction techniques in achieving energy goals.
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Hello, and welcome to another episode of the Odd Lots Podcast. I'm Joe Wiesenthal. And I'm Tracy Alaway. Tracy, you know, we've been talking a lot about the U.S. energy system for obvious reasons. At least when it comes to electricity, I don't know about you. I kind of feel like the more we talk about it, the less I understand it.
Yes, yes, absolutely. I think there are a couple problems here. So even beyond the actual different technologies for generating power, there's the patchwork of how different grids work in different states. There's the different regulations, the different interoperability and all of that. And then even if we look like beyond the US, it gets even more different.
Yes. Well, I sort of wonder, maybe we can learn something about the US by a little comparing contrast, right? So if we look at the US and we still don't totally get how it works, maybe, I don't know, just a thought, maybe we'll learn something about the US by looking at some different system. And then we have something to compare it to. It might be a way in by looking at the outside world.
I'm a big fan of doing this, by the way, just to identify different choke points in a particular domestic process. If you think that the US can't do something for whatever unidentifiable reason or, I don't know, cultural, like hold back, but if you look at a different country and they're doing it at scale very, very quickly, then I think you can learn a lot about yourself.
Well, that's exactly right. And so one of the things, again, that comes up from time to time here in our conversations is nuclear. And this is just one example of a source of power that may or may not be important in our future. But according to, and I'm looking at a story from the economist, over the past decade, China has added 37 nuclear reactors according to the International Atomic Energy Agency.
I don't know, maybe we've added like two, I forgot how many there are at that Georgia plant, a couple more maybe restarted, but you know, we talked all the time about nuclear and how hard it is and how hard the financing is and the labor force and the learning laws and all we forgot to, you know, we forgot how to build them for various reasons.
But that's not, and it's so expensive. There's all these costs overruns every time. But apparently that is not the case everywhere in that there are other parts of the world, particularly China, where they just keep building its scale. And maybe we could learn a little bit of how they do that and how they finance it and how they avoid forgetting how to build them.
I think this is so interesting, this particular approach, the compare and contrast. And it is absolutely true. I think the US has the most nuclear reactors out there, like almost 100 or something like that, but it took us decades and decades to build them. And as you rightly point out, we haven't built many new ones that recently, meanwhile, China is adding more and more and they make it look easy. I mean, I guess they are just like giant things to boil water, but you know, China really makes it look easy. So what can we learn from China?
We really do have the perfect guests. By the way, we've had this guest on in the past. We talked to him about something completely different.
Yes. This was during the depths of the COVID crisis. And we were talking to this person. He was based out in Shanghai and we were talking basically about how they were getting food into apartment buildings and staying alive during that time. Yeah. So that was a interesting sort of logistical story in its own right. If you're under complete lockdown in a Shanghai apartment building, how do you actually get food? And anyway, I'm thrilled because now we're recording this December 17th, 2024. We are talking to him in complete
Completely different times. He's been freed from lockdown. He is now here in studio with us. So we are going to be speaking with David Fishman, senior manager at the Lantau Group. He's based in China, typically where he mostly focuses on the Chinese energy system. So literally the perfect guest and a repeat guest. So David, thank you for coming on Odd Lodge. Welcome to New York City. Welcome back.
Thank you for having me. What do you do? The only other time we talk to you, the only thing we knew about you is that you were figuring out how to get food into your apartment. What do you do now when that's no longer the pressing issue?
Yeah, sure. So I work at a company called the Lanto Group. We are an economic consultancy. We're doing power and gas consulting across APAC. And so I'm focused on China. I'm in the China office. We're doing the business of electricity. So for me, that means either somebody who wants to build an electricity generation asset, wants to sell one, wants to sell a portfolio of assets, wants to invest in one, maybe through a fund or as some other type of investment product.
And then on the, what we'd call our downstream, who uses the electricity, right? Your major multinationals, your factories, anybody who uses electricity as an input to produce things. So we're working in the business of electricity, trying to make buying and selling electricity more economic for everybody involved.
Well, I'm just going to dive into the nuclear aspect of this then. You know, Joe gave us some contours around how much China is currently building. When did China decide that it was interested in nuclear? And what was the sort of like thought process, the strategy about how nuclear would fit into everything else, including the coal power that China is famous for using?
Yeah, I mean, the history of the Chinese civil nuclear power industry goes back to, stems back to the 80s. So looking at, you know, the mid to late 80s is when China was signing agreements to bring in its first nuclear reactor technology at the time. It was, there are two different paths they were pursuing. They signed an agreement with Framitome, a French company, to bring over one reactor, and they developed a domestic reactor with at the time of the Soviet Union.
to have a domestic technology tree as well. In the 80s, China was actually experiencing some pretty rapid economic growth, especially in the late 80s, and looking to expand its power supply rapidly. At the time, it was quite tight, and so nuclear was seen as a potential way to expand the power supply and get into power generation for what was at the time something very new for China.
What did you, so I mentioned literally from just reading the first paragraph of a pay walled economist story that number about 37 new. I saw that one too. I just like, I just Google how many new reactors are big built in China, scroll down until I find something in the Google search. This is how the research is done, folks. But what are you, in your words,
Give us a sense of the size and scale of Chinese civil nuclear generation and where it's going and then sort of like the role it generally plays in the overall portfolio there. Yeah, sure.
Nuclear in China has the interesting status of being both relatively large and still somehow small. Large in the sense that it's one of the largest operating fleets in the world. You've got 50, almost 60 reactors operating. We're talking about nearly 60 gigawatts of generation capacity. But then in the context of China's entire generation fleet, they've got
well over a thousand gigawatts of coal, and then many more thousands of gigawatts of wind and solar. So it's both large in the context of the world, but also small. And that's the case for a lot of things in China, the thing that can be large in China can also be small. And what's the ambition for looking out in a five-year plan? I don't know whether they do that for energy, too. Where is nuclear potentially? How much could nuclear be a thing? What's the size and scale of the ambition?
Yeah, sure. So long term, I mean, it depends on how your energy planners and your economic planners envision the long term makeup of the grid. What type of power are we using in 2050? Is it going to be a little bit or a medium amount or a lot of nuclear? So it's scenarios, right? And China has scenarios too for a high end, a low end. So the recent scenarios that I've seen originally, it was saying no less than
300 gigawatts, 250, 300 gigawatts. So 250 or 300 reactors, right? 250 units. So United States has just about 100 right now. So if they got to that scenario, it would be about two and a half times what the US has right now. So what's the process by which a new nuclear reactor gets built in China and how much does it differ from what goes on in the US?
Sure. Well, the steps of the process are actually very similar. These are international best practices for how you build these types of infrastructure. So you have to choose a site. You're going through a siting process, an environmental impact report. Maybe you got to make sure the local sea life is not going to be affected by warm water being discharged. There's no endangered species nearby, all those different aspects.
So you choose your site that takes a few years. You have a consultation period. There's a period for the public to maybe express their dissatisfaction. This happens in China too. And when the site is finally selected, then you start pre-construction. You can level the site. You can connect communications, utilities. You can do all your pre-ground work. And then we're waiting for a really key milestone called FCD. That's first concrete need.
And that's when the first barrel of safety related concrete is poured at the site. And so that would be the beginning of your construction of your containment building. And so from FCD to your full construction period, you do civil construction, you do installation, you have commissioning,
Maybe you encounter some issues during commissioning, you're troubleshooting, right? And eventually you fully connect, you connect it, you load your fuel, you have your first criticality, the first time that fission starts in the reactor, then you connect it to the grid and then you get up to 100% power and you got a nuclear power plant. If you do it quick, you're looking at 10 to 12 years. If you do it not so quick, you're looking a lot more than that.
So it takes a long time in China too. So, you know, we look at US construction builders like, oh, can we, it's a, it's a long process anywhere you look. I want to ask about the financing. So if there's a new, who's paying for this and also how are they selling this energy? Because one thing I get the impression of is that setting aside
the cost of building a new nuclear reactor, which is an expensive time-consuming process. The electricity market structure also seems to matter a lot, because you need a certain amount of guaranteed off-take, you need a certain amount of price stability, if the price drops to zero for a long time, because it's very sunny and windy in that area, and suddenly that's screwing with the economics of it. And so market structure and financing are both important.
Talk to us about how that works in China versus here.
Right. Sure. So the builders, right? The companies that are constructing and eventually owning the assets are all state-owned enterprises. Okay. So you've got these great big SOEs. Their job is to own and operate nuclear power plants. And so when they go out to secure financing, of course, they're securing financing from state-owned banks as well. They're going to be getting very preferential loan treatment, right? Very low percentage rates, maybe 2% 1.5% things like that for huge infrastructure like that. We're talking billions of dollars. That's the actual rate, not the spread.
Okay, keep going. So very, very low rates, because again, they have a mandate to build. This is state banks, state infrastructure and state builders. They need to build these things. And then when they're going out to sell power, right now they're given a guaranteed on grid rate. So
The grid company and the power regulators say, when you complete your plant and you start selling power, we will make sure you receive this much for every kilowatt hour of power that you send into the grid. Long-term, they want to marketize it. They want to have that exposed to the vagaries of the markets the same way that you would see maybe in the United States or Western Europe. And that will be an adjustment for China's nuclear industry. Historically, they have only operated on this kind of fixed feed-in rate.
That's a pretty big comparative advantage if you're getting subsidized financing from a state-owned enterprise or something like that. Plus, at the moment, you have that guaranteed off-take, even though they might want to move to a market-based system before. It also strikes me that there are a few other potential comparative advantages like lots of ready labor, lots of manufacturing capacity, presumably, that's able to make the stuff you need for these things. Walk us through
all the different advantages that China has in this process. Yeah, sure. So if you maybe you've seen before or not, if you look at one of those stacked bar charts and it compares all the cost components of building one of these things in China versus Europe versus the United States, it's not like you'd point to any single component of the stacked bar and say, ah, that's it. That's the key. That's why they're so cheap.
Every single component is cheaper, right? You've got your cost of capital is lower. You've got your construction timeline is so tightly managed, right? So you're saving on interest costs. Exactly. And the sooner you can connect to the grid and start selling power, that's when you start making your money back, right? So every day that you go over your construction schedule, as we say in the US about a million dollars of missed power sales, and then also about a million dollars of interest payments.
So you've got this $2 million spread every day over your construction schedule that was originally planned. That's just mind boggling. Then we look at the production capacity, right? China's incredible industrial production capacity. We're talking about these heavy forged components that maybe only a couple of companies in the whole world can make. Things like the reactor pressure vessel, the steam generators, the pressure risers, the primary piping, the reactor coolant pump, all these things. And there's like three companies in the world that can make these.
And now at this point, several of them are in China. And when they need to prototype, when they need to iterate, when they need to troubleshoot something, it's all in one industrial cluster. It's all a company and it's subsidiaries or it's sister partner companies, right? And so they can quickly trouble through things really quickly. So that's going to be your industrial production component very strong.
You've got, you know, people work longer hours. They'll work through weekends, they'll work through holidays. China's really, really competent at building very large construction, very large infrastructure, right? It could be a dam or a bridge or a highway or a high speed railway or a nuclear reactor when it comes to the construction know-how of being able to do it on time and like an oiled machine.
They're winning there too. And then we talk about the actual way they're building the nuclear power plants. There's something really interesting here. This was actually pioneered by Westinghouse out of the United States, something called modularized construction, where on site or off site, you're prefabricating.
large portions of the reactor, portions of the containment building, and so you can work on individual components at the same time, bring it to site, and then you get the largest crane in the world that lifts this massive, massive, pre-assembled component into place. When you're able to work like that, you can cut down the construction schedule even more. Interestingly, Westinghouse pioneered that, but they haven't been really successful in implementing it in their recent builds.
China, on the other hand, learned from Westinghouse and has been very successful with this modularized construction approach. Can you talk more about that because it's very intuitive, right? The idea that the more you could build at the factory and the less you have to build on site makes it easy. And a lot of the so far, it seems like mostly hype about small modular reactors in the US is sort of on this idea. Like, why don't start every project from scratch?
Why is it apparently hard, even though in theory, that seems very obvious? Because I don't know if there actually are any modular reactors in the US, despite the sort of intuitive appeal.
So I think I gotta clarify here, there's modularized construction and there's small modular reactors. Oh, okay. So SMRs or small modular reactors, they refer to a situation where the entire reactor is encased in a single unit. Oh, okay, got it. Yeah. But it's still this idea that the lot of the fabrication process happens not at the site itself. Again, something that feels highly intuitive and apparently easier said than done.
Well, so my understanding from the Westinghouse design approach when they used this for the first time in designing the AP1000 technology that we built here in Volkl in the United States is one of the major barriers. Well, there's several. There's always going to be regulatory barriers, right? It's a new way of doing things.
Anytime it's a new way of doing things, the regulator is going to want you to jump through a million hoops to try to clarify and justify that what you're doing is defensible and safe. So you've got that one, of course. But then the actual logistics of lifting these massive, massive, we're talking thousands of tons of prefabed components. They actually had to design and then specially contract the world's largest heavy lift crane. The Westinghouse did just to be able to lift the first one.
They worked with an American company to custom design this giant fixed base ring crane that requires other cranes to build it. Then you have this giant, giant crane that's in place and it swings around. It usually works for two different units to build two reactors at the same site.
Interestingly, they weren't able to use this giant, giant crane in China because of a design miscommunication. The first AP-1000s that Westinghouse tried to build in China, they didn't leave space on the site to put the giant crane. So in the end, they had to use a very, very large roller crane instead, which just about did the job, but it forced them to change the way they built it.
China has learned from that, though. So the newest, you know, all-on-one reactors that China builds, they use a giant ring crane. I believe they use a zoom lion. It's a Chinese brand has designed one of these built one of these massive ultra heavy lift cranes as well. And so now that's, you know, they're reaping those benefits.
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Not everybody likes talking about money. Some people find it awkward. Sometimes they even find it a little embarrassing. I do not. I like talking about money. Whether it's the boardroom, the newsroom, the trading floor. I've spent the last 30 years talking about money, writing about money, and talking about it and writing about it a little bit more. Admarions sums up that work. And every week senior aboard a John Steppock and I answer your questions about personal finance and we discuss the best strategies for making the most of your money.
Listen up for the kind of insights and explanations everyone can use to help them make better saving and investment choices for themselves and their families. My question is whether you think maxing out my comfy pension match is enough for when it comes to saving for my pension. Should I attempt to pay my Charles University fees and living costs?
My partner and I have excess savings, so should we overpay on our mortgage, or should we put the money into stocks? From Bloomberg Podcasts, Junint and Merrin talks money, full of Merrin talks money on Apple Podcasts, Spotify, or wherever you listen. I have a slightly random question, which is building nuclear reactors. How customized do the components that go into these actually have to be? How much does the design actually vary site to site?
Well, if they are the same series of reactors, right, you could say the AP-1000, right? That's a base unit. Now, the ones that are built in Vogel and the ones that were being built at summer in South Carolina before that was canceled, those were probably a little bit different, right? But, you know, largely part of the same series, the ones that were built in China were built on that same platform, but they would have been modified a little bit for the Chinese context. They called them Chinese AP-1000, CAP.
1000s, but you could say they're substantially the same reactor with small modifications. When we start talking about different series, though, if we say like the French design versus the US design versus what's being sold now in Korea or something like that, you'll see more similarities to their predecessors that they came up through different generations of technology.
So like Korea, you'd see similarities to the old GE Hitachi reactors, because that's where they got their technology originally. Then you'd see to say a modern AP-1000. These are different tech trees from different competitors.
So if I'm a guy on Twitter listening to this, and I am a guy on Twitter, except I'm talking in this, but I'm just a guy on Twitter, and I'm hearing you talk about, okay, they get preferential lending from the state-owned bank. The company is state-owned. Probably the crane company is state-owned. There's probably a few other state-owned businesses.
And I think, yeah, okay, you know, they're really good at building reactors fast, but there must be some sort of accumulated debts and inefficiencies that come with all of these, all of these entities that have something other than a profit motive and, you know, probably
I don't know. My intuition or my response to you or my dunk on you is that there's going to be all these accumulated losses that ripple through the systems on account of the fact that it's SOE, working with SOE after SOE. Do we have any sense?
of how economic these projects actually are. Because if these were private companies, you say, oh, they're either making money. Or if these were sort of strictly for profit listed companies, you say, well, they're making money. They're not making money, whatever. How do we think about the actual economics of whether this is good investment? Because it's cool. Yeah, China's building dozens of reactors. How do we know these are good economic investments?
Well, unless I can crack open China National Nuclear Corporation's books, I can't tell you for sure if these are good investments. But when they build them at that pace, you look at it from the outside and you say, all the conditions are in place. To have surely built this according to the budget you set for yourself. You declared that you would build it with a certain budget and a certain time frame. You talk about the budget.
Right? So you're looking at your construction period of five years, your pre-construction, and your commissioning, you add another five years or so. But then once they build it, they're saying, we can build a single gigawatt unit reactor for $5 billion, $4.5 billion, $5 billion. You look at numbers out of the US, and they're saying, we're going to build, what, Vogold cost was two units for $28 billion or something like that. You do a little bit of napkin math, and you say, that reactor can't possibly make back.
how much money it costs to build in its operating lifetime, or maybe it will just about get there after 40 years. And that's assuming that this plant operates in the spot markets really, really well and sells power so efficiently and never gets curtailed and never has issues like that. Meanwhile, your napkin math in China is saying, well, they're going to sell power at this rate for the next 40, maybe 60 years. Maybe they'll do double life extension, maybe 80 years. And, you know, so many kilowatt hours of power times so much per kilowatt hour.
Yeah, it looks like these things should be reasonably profitable. And keep in mind the profit motive of Chinese SOEs is different, right? They're expected to try to be profitable, so they have cash flow to do things and be, you know, be functional. But if they have to take a hit, sometimes they will.
They can be the lubricant in the system that causes the inefficiencies to be okay because you've got, you know, a major SOE that was okay losing half a billion dollars last year. They'll make it back later. It's okay, the system didn't fall apart. They were the lubricant.
So one way we could potentially judge the success of Chinese nuclear reactors is you could look at whether or not they are significantly changing the energy mix. And there was a story out this week saying that China's domestic coal production had reached an all-time high and granted that's production, that's not necessarily coal use. But I don't know, it doesn't seem like there's been a big impact just yet. Why is that?
And yeah, and that's right. I saw that yesterday too. I'm bummed about that because I'm on record saying back in December 2023 that I thought 2024 would be the peak year. And I thought structurally we were in place to be able to peak coal consumption in 2024. And I think we're going to end up up
1, 1.5% year on year, something like that, which for China is a huge amount of coal because they consume so much coal. But it's really close, which of course means if we're up year on year and last year was the highest year ever, then this year is the highest, best year ever. And so what are we looking at though? We're looking at a power sector that is still growing consumption every year by 7% year on year, 6% or 7% year on year.
compared to the US where a good year is maybe like 1%, or half a percent year on year, and you talk about data center demand growth is going to maybe rise that and everybody's freaking out. How are we going to meet this new consumption need? China's been growing like that 7%, 8% in the past, it was even higher for decades now.
So, to be able to peak coal consumption, we have to get to a single year where all of the incremental consumption growth is met by incremental generation from clean assets, right? From wind and water and solar and nuclear. If we can't manage to do that in one year where all the incremental growth is covered by new incremental clean generation, thermal generation has to go up. And so that's still where we are. We're real close. If it only grew by 1.5% this year, that means that
That 7% of China's entire consumption mix was almost totally covered by growth year on year of wind and water and solar and nuclear, but it wasn't quite there. And so that's where we stand at 2024. I'm going to be made a liar of that statement I made at the end of last year where I thought coal consumption would peak this year.
Since you mentioned it, data centers is obviously a huge part of the story of the return of low growth in the US. I mean, there's obviously just the general modernization in a country getting wealthier, but tell us about the data center story in China as you see it and its impact on the grid.
Yeah, it's of course going to be another growth driver. The major difference here is that when China says, oh, we've got data centers coming in, so instead of 6.5% growth, it's going to be 7.5% growth, right? It's just what's a percentage point among friends, right? Whereas in the United States, going from half a percentage point to 1.5% or 2% is very different from how we've had to grow in the past. So China's, I think, approaching this with much more sanguinity maybe, they're just saying,
Yeah, it's going to be a driver of growth. Let's put them in some of our parts of the country that have low load and great renewable resources. We're going to put them in Inner Mongolia is what we're going to put them. We're going to put growth demand centers in Inner Mongolia. They don't need to be close. That's the Chinese Virginia is Inner Mongolia.
Yeah, it's sparsely populated. It's got a lot of great energy resources. The wind blows and the sun shines all day long, and there's no load out there. So it wouldn't have made so much sense, maybe, to cite your heavy energy-intensive industrial manufacturing so far from the demand center, so far from the coasts, where you could get it to logistics, though they put some stuff out there. But it wasn't so intuitive.
to put energy-intensive industry out there. But data center's all, that's great, right? They don't need to be close to markets per se. You just need to be them close to the affordable energy. So it's looking like Inner Mongolia, places like that will be a great match for China's data center growth.
So one of the things that's been happening in the US speaking of data centers is a lot of the big tech companies have been signing off take agreements with energy producers and they've been pushing them towards more renewable energy. So they say, we want clean energy to power these things and you make it for us and we'll take it. Do you see a similar dynamic taking place in China or do people not care as much about the ultimate cleanliness of their energy for data centers?
Yeah, that's a major driver of how the power sector offers power, right? Your customers demand a certain type of power. You should be able to meet their needs. Right now in China, you'd split or anywhere anywhere in the world, not just in China, you'd split green power consumption on the end user end into voluntary and mandatory.
So mandatory says the government says you have to consume a certain amount of electricity that is green. We call it a renewable portfolio standard or an RPS. There's RPS in US states, not all of them, but some of them. And there's RPS in China. So from that perspective, you could say the government mandates that you consume a certain amount of renewable energy to meet the quota. Now, right now, that applies to utilities in China, but it doesn't yet apply to end users. Your aluminum smelter doesn't have that many.
yet. But that's the next stage of RPS that's being added right now. Data centers, I think, need to be, it's quite high. I think it's 80% renewable to build a new data center in China. You're going to need to have aluminum and steel and all these heavy energy intensive industries need to consume renewables. That's your mandatory consumption. That's RPS driven. And then you've got your voluntary consumption. So voluntary consumption, corporate social responsibility initiatives, ESG, right? Companies say, we want to go green. We want to put it in our CSR report.
that we consumed x amount of renewables last year we did this on a voluntary basis we joined re one hundred we joined the science based targets initiative and we want to claim that we agreed yet that's your consumer tech brands at your luxury fashion.
And increasing a lot of European brands are very aggressive on their renewable energy consumption, including in China. So if you're producing in China and selling to the world, you want to be able to say our production in China was also green. So that's voluntary consumption of green power, but you demand your power retailer to provide you with green electricity. And look, they'll give you a quote for green electricity.
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There are two kinds of people in the world, people who think about climate change and people who are doing something about it. On the Zero Podcast, we talk to both kinds of people, people you've heard of like Bill Gates. I'm looking at what the world has to do to get to zero, not using climate as a moral crusade. And Justin Trudeau.
There are still people who are hell-bent on reversing our approach on fighting climate change. And the creative minds you haven't heard of yet really don't need to have a tomato in December. It's gonna taste like nothing anyway. Just don't do it.
What we've made here is inspired by Shockskin. It is much more simplified than actual Shockskin. Drilling industry has come up with some of the most creative job titles. Yeah. Tell me more. You can imagine. Tool pusher. No. Driller. Motorman. Mudlogger. It is serious stuff, but never doom and gloom. I am Akshad Ratty. Listen to Zero Every Thursday from Bloomberg Podcasts on Apple, Spotify, or anywhere else you get your podcast.
We started on the nuclear side, we talked coal, but then we're all, you know, there's all these charts that are, you know, great about all this solar being installed is the economics of that roughly the same in the sense that it's probably an SOE getting money from an SOE bank and talk to us about who's funding that and where does it make sense? Like why in some places is solar going to be solar wind part of the answer versus say nuclear?
When it comes to wind and solar, these are being built differently from nuclear. They're not nearly as capital-intensive. Also, they can be smaller, they can be more distributed. When you look at Chinese wind and solar, of course, you still see SOEs playing a big role, but there are as well IPPs, independent power producers, or just non-SOEs, as well as foreign players. You as a foreign investor who
BlackRock can come into China and build a power plant if they want to, a wind or a solar farm, no problem. And so anyone can participate in that space if they do their financial analysis and they see the way to attractive project economics. So for Chinese builders that borrow from Chinese banks, as will Chinese independent borrowers, then international players, they might borrow from international banks. They might try to borrow from Chinese banks. They can do that as well. They will get market competitive rates. This is a different kind of building
compared to nuclear, where it's instead of it's like a national strategic priority to build a rooftop solar facility. Now, that's much more of a commercial market operation. However, there are some projects in China that are national strategic priority. We talk about those huge desert bases, you know, hundreds of megawatts, gigawatts, hundreds of gigawatts in the middle of the Gobi desert, coal plants plus a wind farm plus a solar farm plus a huge battery array, all financed by a giant Chinese built by a Chinese SOE.
That's the kind of stuff that that kind of looks more like a nuclear power plant in the way that they finance and process that. But you know, rooftop solar facility in eastern China. Now, that's very much just a commercial play. If it makes money, if it makes sense, they'll build it.
So when we talk about China's energy landscape or its energy mix, I mean, a lot of what we're talking about, we're pulling in numbers from the Chinese government, like domestic production numbers, domestic usage numbers. And whenever you do that, there's always a certain element of uncertainty or a question mark over them. And there are some people who
Even if you were to say that China's coal production was finally falling, which it isn't, as you know, people wouldn't necessarily believe it. They'd be like, oh, well, China wants you to think that. So I guess my question is like, how much should we believe some of these stats?
Yeah, and this is going to be always very subjective about how much you want to believe or how much you think is worthwhile believing. My take that I usually go to is look at the top levels. You've got your national bureau of statistics. You've got these national level entities whose their job mandate is to report statistics as faithfully and as honestly as they can.
All right, fine. You know what? That's their job mandate. I have no latitude to say I think they're doing their job dishonestly or something like that. But I do believe there are many kind of perverse incentives throughout the structure of the reporting economy in China that would create opportunity for misreporting information.
when you tie the county governor's promotion or lack thereof to his ability to grow GDP in that province or in that county, you're creating the incentive for him to cook the data. When you're creating economic recovery and you announce to, and this happened, this is a real story, when you announce to a certain city in 2022 that you're going to be evaluating how quickly they've recovered from COVID conditions by seeing how quickly their factories get back up to regular production.
And you know that they're measuring that by seeing how much electricity they consume? Well, everyone starts plugging stuff in. Right. So if you can say that people are trying to do their jobs, honestly, and then you also have people that have been given perverse incentives to to miss report their day. I think that's where a lot of the uncertainty comes.
I mean, this is the core problem of central plant. I mean, this is it in a nutshell. And obviously, the most egregious examples of this were, you know, during the Great Leap Forward and all of the ways that either they, you know,
the steel production that was melting down literally anything with steel and destroying the economy. In 2024, what are some of the techniques used to avoid egregious juking of the stats so that someone's promotion who is tied to electricity consumption can't be sort of egregiously abused like that?
Yeah, well, I mean, famously, or perhaps infamously, so I think it ended up, it came out of like a WikiLeaks something that the former Premier Li Keqiang said he didn't look at GDP data from certain prices. And now that's on the terminal. Yeah, the Li Keqiang index. Yeah, the Li Keqiang index. And he said, I prefer to look at, I think it was a rail cargo and electricity consumption and there was a third item too, right?
He said that these items, the people in charge of reporting them, my assumption is that his logic was there's less incentives to misreport these, so that these are the ones I want to look at. And you can maybe come up with your own version of the modern day Li Keqiang index. I think electricity consumption is still fine. But maybe there's some other numbers that you say, look, this is all very centralized reporting. The reason I like electricity, because it's all state grid.
Those numbers almost all come from state grid, and state grid is just a single unified entity. You're not gathering data points from many different companies. Maybe other stuff like we talk about cargo, China Railways. You have one centralized company that would be able to report that information. So if you want to fashion your modern Li Keqiang index, maybe try those types of indices.
So one other element, obviously, of the Chinese energy demand. We've talked a lot about the grid, obviously, in the power of the grid. Then there's the whole world of automobiles, which up until very recently was this totally separate part of the energy system. But now it's around the world, but in particular China, and we talk about Chinese EVs all the time being plugged into the grid. How much do we see the electrification of the Chinese automobile fleet?
Like A, how electrified is it right now? And B, is it moving the dial on oil consumption? Because this is a pretty big question in the West, right? Like at some point will EVs become big enough where it meaningfully starts to reduce our oil demand? And even in countries like Norway, I think, like it's still barely moving the dial despite massive electrification. What do we sing in China right now on that front?
Yeah, I mean, in the major cities, you say Shenzhen, Shanghai Beijing places like this, the EV penetration rate is noticeably high. And you'll see that they're easily identifiable. They have green license plates instead of the regular blue license plate. So you can just kind of look at them on the street. It's very expensive to get a license plate in Shanghai. Just the license plate itself is expensive, but EVs for a long time were free. Like the license plate was free.
So that was a great perk for them to pursue those. And yeah, I think it was new vehicle sales in Shanghai, for example, is 50% electric vehicles in the last reporting session. And it's really noticeable when you stand on a street corner in Shanghai. And I guess it's noticeable by the lack of the noise. I heard that everyone goes to Shanghai and says it's really quiet.
Look, I'm back in New York right now for the first time in a year, and I stand in a street corner. It's so loud. I hadn't really noted the lack of the noise, because I'm just used to it nowadays. I hear the roar of petroleum-based engines all around me. Evie's in the large city's penetration rates noticeably high, in the smaller cities still fairly high.
When you go out to the more rural areas, it's going to drop off. Of course, there's more skepticism about the completeness of the charging network, just maybe some more uncertainty about the technology itself. You'll hear people in the countryside saying, oh, batteries are dangerous. I saw a video once of an EV on fire, things like that, similar comments in the United States too. But the long term, the EV penetration rate will only continue to rise.
But is it moving to dial on national oil consumption? I believe so. I think I'm not an oil specialist, but I think I've seen and I've read recently that Chinese oil imports should have peaked, that they should have be ready to draw down. If I'm lying here, may God smite me down. But I think that that was the case and that we see a structural decline in petroleum because of the adoption of EVs.
So speaking of EVs, there is a lot of Chinese made clean tech that is here in the US, including solar panels as well. And this has been one of the frictions of the past few years, which is the US says it wants cleaner energy. And Chinese solar panels and EVs are probably the cheapest forms of that technology around.
And yet there's a lot of, I guess, reluctance to import tons of those into the US. And certainly with Trump coming in, it seems like tariffs are on their way. How do you see all of that shaking out into the new year?
Yeah, look, in the United States, you're going to decarbonize or you're going to buy a green tech at exactly the rate that is economic. Yeah, and so if you have access to a very affordable green tech, you'll do it at a faster rate. If you have access to more expensive green tech, you'll do it more slowly.
And so I have to assume that if those tariffs go in place, unless alternative producers are able to offer similar quality goods at similar prices, then you're going to slow down your green transition. That's maybe a simple but obvious kind of answer there. On the Chinese side, of course, there will be some pain for exporters, anyone exposed to the United States market, some solar panels, maybe some EVs, some batteries, I think are pretty significant.
If those are targeted, yeah, you'd expect to see some pain on the Chinese side. It's already an extremely, extremely competitive environment in China. Most of these producers in very thin profit margins hanging on by a threat. It's good for consumers. It's not good for if you're holding those stocks. So this would only just be another bit of pain for them, denial of a potential revenue channel.
Since you mentioned EV charging stations, we have this sort of weird patchwork here and there's a lot of, I'm a little ambiguity about the US government under Biden has earmarked a lot of money to build EV charging stations. It's a little unclear how much actually got built publicly. There seems to be a view that it hasn't been particularly successful on the public side. What is the structure of the build out for charging stations in China? Is it publicly owned? Is it what's the deal?
It's all of the above, I guess. So you've got China State Grid or China Southern Grid, but grid companies, they build charging infrastructure. Some of the EV makers themselves build their own charging infrastructure, maybe like a Tesla supercharger, right? Some of them also build their own battery swap stations. I think Neo is quite famous for having battery swap stations. You can go pretty much any highway rest stop in China and you can find a Neo battery swap station. So then there's no time, you just swap it in and out.
Yeah, I'm there's a line to wait for the battery swap station if another neo pulls ahead of you. But besides that, I mean, I think the major thrust, at least the ones that I've seen recently in the southern grid region have been by the grid company itself, right? So China's southern grid. I remember reading last year, they said, you know, we're planning to build a hundred thousand chargers this year. We're, you know, three months in, we're 17,000 chargers in so far. We're on track to finish our
goal by the end of the year, and you do see it when you go to regions that have been targeted for those buildouts, right? You can go to fairly rural areas in, say, Guangdong Province down in the south, and you'll find EV chargers installed there by China Southern Grid in a village where I don't think there are necessarily any EVs, but hey, they got the infrastructure there because they said we're going to build 100K, and so they built 100K.
David Fisherman, so great to chat with you again, especially in person. And I'm so glad you have other things to worry about besides figuring out how to get food in your apartment. Really appreciate you coming back on Oddlot. Thanks a lot for having me, guys.
That was really helpful, Tracy. I learned all the things more or less that I wanted to know about how they're building so much nuclear. Yeah.
What's that react? Well, it leaves me wondering how like replicable it is in other countries, right? Because obviously in places like the US, we don't really have subsidized finance on the scale that China does. We don't have a lot of cheap and skilled labor at the same time. And we don't have some of the, let's put it this way, like regulatory
hastyness maybe in approving these sites and these things. I don't know, like how replicable do you think it is? No, this is the exact question because, you know, there's some subsidy, the loan program's office exists, but we don't have the same gigantic state-owned banks. Yeah. And then even if you solve the financing problem,
And even if you solve the market offtake problem, which is going to be very different, right? Because we have market grids in a lot of parts of the country. And so it's hard to sort of make that 40-year commitment that you will get this price. Then there's all the logistics, like, oh, you needed this gigantic crane that's the biggest crane in the history of playing it. No, you need a big crane to make the big crane. You need to make. So this gets to, I mean, this is a point that Jiggersha makes all the time.
But this idea that we're never going to really do this economically, and David just mentioned the sort of daunting economics of Vogel, we're never going to do this economically unless we do it over and over and over and over again. And it feels like the components of what it would actually take to do it over and over and over again is this massive centralized commitment to doing lots of different parts.
And you know, it sounds like the regulatory side or the permitting thing. That seems about the same and the fact that the public can complain about endangered fish and all that. That's sort of similar. So people complain about annoying local nimbies. That doesn't really sound that much different. It sounds like everything else that's different.
I suspect the nimbeism is slightly different too, but point taken. And I do wonder, like, how do you even go about beginning to redevelop that nuclear muscle memory in the States? It seems really, really hard. Like, okay, we can reactivate some nuclear reactors like we're planning to, but starting like new ones from scratch, it just seems like they're such a limited pool of people who are capable of doing that.
and then putting in place, as you rightly pointed out, all the off-take agreements and the network and everything needed to kind of make those things financially viable.
It seems hard. By the way, I'm glad you asked that question about coal consumption, because that was really helpful, because it's one thing to say, well, another record year for coal consumption. But I guess the way I think about it, at least in the short term, we don't know when the— It's not coal consumption, it's production. It's production. Okay, coal production. Yeah. But it's really going to be about, like, if coal is, in fact, as a part of the, you know, if it's only growing 1%,
But electricity demand is growing 6% to 7%. That is a good sign, right? Even if it's not bending the curve down yet. Anyway, lots there. It's funny. I will always associate Beijing with lots and lots of burning coal in the winter.
By the way, I had heard that about how apparently the big cities now are really quiet, which is pretty cool. And once self-driving cars are everywhere, there will be no honking either. And so we can look forward to a future, maybe one day, where we just have very peaceful, peaceful, quiet big cities. All right. Something to hope for. Shall we leave it there? Let's leave it there. This has been another episode of the Odd Lots podcast. I'm Tracey Alloway. You can follow me at Tracey Alloway.
And I'm Joe Wiesenthal. You can follow me at the stalwart. Follow our guest, David Fishman. He's at Pretentious What? Follow our producers. Kerman Rodriguez at Kerman Armin Dashal Bennett at Dashbot and Kilbrooks at Kilbrooks. Thank you to our producer, Moses Andam. For more Oddlots content, go to Bloomberg.com slash Oddlots, where we have transcripts, a blog and a daily newsletter. And you can chat about all of these topics, including energy in China, where we have two separate rooms in our discord, discord.gg slash Oddlots.
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