Podcasts about clean power

What happens when the future of energy meets the reality of climate targets? In this episode of The Sustainable Edge, host Joachim Nahem sits down with Tomas Qvickström, Vice President of Corporate Sustainability at Fortum, to explore how major energy players are balancing security, scale, and sustainability in the race to decarbonize.   In this episode Tomas Qvickström explains how Fortum is contributing to the clean energy transition in the Nordics and Poland through a balanced energy mix, development of renewables and a comprehensive approach to sustainability that goes beyond emissions. From the drivers of electrification, to helping customers decarbonize through data and guarantees of origin, this episode goes inside the energy systems shaping our climate future. Learn about: Balancing the grid: Why the Nordic "energy plate" model combines flexible, firm, and renewable sources like hydro, nuclear, and wind to power a stable transition. A credible decarbonization path: How Fortum is integrating science-based climate targets and biodiversity goals directly into business strategy and finance. From grid to socket: Why clean energy production doesn't guarantee clean consumption, and how Fortum helps customers track and reduce Scope 2 emissions. Bottlenecks to scale: What's really slowing down renewable investments and how long-term offtake agreements, smart cases for implementation, and policy support can unlock progress.     About Tomas Qvickström Tomas Qvickström is Vice President of Corporate Sustainability at Fortum, a €16 billion Nordic energy company. He leads Fortum's work on climate, biodiversity, and sustainable finance, helping integrate ESG targets across operational planning and decision-making. Tomas brings a fact-based, systems-level view to one of the world's most complex sustainability challenges: powering the clean transition at scale.  

Running a power market isn't just about generating electricity—it's about making sure every kilowatt is accounted for. Someone has to calculate who owes what, make sure the rules are fair, and keep the system balanced in real time. Think of it as being an accountant, a banker, and a referee—all rolled into one. In the UK, that vital but largely invisible role is handled by Elexon.Elexon is the Balancing and Settlement Code Company (BSCCo) for Great Britain. They are the neutral heartbeat of the electricity market, making sure the lights stay on and energy imbalances are accurately billed. They provide the transparency, fairness, and precision that keeps the whole system running—and prevent anyone from gaming the market. Formerly part of National Grid, Elexon has always been independent and is owned by the 13 largest market participants.In this episode, Laurent and Gerard sit down with Peter Stanley, CEO of Elexon, to dive deep into the nuts and bolts of the balancing market. They break down why system costs have quintupled in recent years, hitting £8 billion a year, how settlement processes are being modernized, and the surprising ways AI is starting to shape the market.Elexon isn't just about numbers—it's the backbone of the UK's Clean Power by 2030 plan (CP30). By keeping the system balanced and efficient, Elexon is helping drive the near-total elimination of fossil fuels from the power grid, making a cleaner, greener future possible.Get ready for a technical—but fascinating—ride behind the scenes of the UK electricity market.

In this episode of Lead-Lag Live, I sit down with Steven Rossi, Founder and CEO of Worksport, to break down the company's clean-energy transformation — including the long-awaited launch of the COR portable power system and the SOLIS solar tonneau cover.Steven explains how COR's modular batteries, onboard inverter system, and solar integration are designed to create a new category in portable power — one that serves contractors, overlanders, EV owners, and emergency-preparedness users with a scalable nano-grid you can take anywhere. He also shares Worksport's roadmap for growth, manufacturing strategy, and how SOLIS + COR work together as a complete energy ecosystem.In this episode:– How the COR power system works — and why it's built to scale– Why modular batteries and a centralized hub change the game for portability– How SOLIS integrates with COR to create a mobile solar nano-grid– Why Worksport is betting on clean, portable energy as its core business– The growth roadmap ahead as the company pushes into 2025 and beyondLead-Lag Live brings you inside conversations with the financial thinkers who shape markets. Subscribe for interviews that go deeper than the noise.#Worksport #COR #SOLIS #CleanEnergy #PortablePower #EVTrucks #RenewableEnergyStart your adventure with TableTalk Friday: A D&D Podcast at the link below or wherever you get your podcasts!Youtube: https://youtube.com/playlist?list=PLgB6B-mAeWlPM9KzGJ2O4cU0-m5lO0lkr&si=W_-jLsiREjyAIgEsSpotify: https://open.spotify.com/show/75YJ921WGQqUtwxRT71UQB?si=4R6kaAYOTtO2V Support the show

The United Kingdom has set an ambitious target to achieve a decarbonised power system by 2030 as part of its broader Net Zero commitment. Delivering on this goal is central to strengthening energy security, enhancing resilience, and ensuring affordable, clean power for households and industry. In his address to the IIEA, Chris Stark, Head of the UK Government's Mission for Clean Power, outlines the UK's pathway to Net Zero and discuss the role of interconnectors, infrastructure, and investment in delivering a secure and sustainable energy system. Drawing on his leadership of the UK government's “Mission Control” for clean power, Mr Stark also reflects on the challenges and opportunities of transforming the UK's energy landscape amid an increasingly complex global environment. This event is part of the IIEA's REthink Energy series, organised in partnership with ESB. Speaker bio: Chris Stark was appointed head of the UK's Mission for Clean Power in the UK's Department for Energy Security and Net Zero in July 2024. Previous to this, he was Chief Executive of the Climate Change Committee from April 2018 for six years. Under his leadership, the committee recommended a UK net zero target for greenhouse gas emissions by 2050 – a target that is now in law. He was Director of Energy and Climate Change in the Scottish Government from May 2016 to April 2018. He has also served as Chief Executive of the Carbon Trust and is currently Honorary Professor at the University of Glasgow's Centre for Public Policy, a Fellow of the Royal Society of Edinburgh, and is on the board of climate charity Murmer.

Shawn Tierney meets up with Ivan Spronk of Siemens to learn about the SINAMICS G220 Clean Power Drive in this episode of The Automation Podcast. For any links related to this episode, check out the “Show Notes” located below the video. Watch The Automation Podcast from The Automation Blog: Listen to The Automation Podcast from The Automation Blog: The Automation Podcast, Episode 251 Show Notes: Special thanks to Ivan Spronk of Siemens for coming on the show, and to Siemens for sponsoring this episode so we could release it “ad free!” To learn about the topics discussed in this episode, checkout the below links: White Paper – Drives Harmonics – Siemens US SINAMICS G220 Website SINAMICS G220 Catalog Siemens Product Configurator (SPC) for quick part number selection and access to data sheets and CAD files Siemens energy savings calculator, SinaSave  Read the transcript on The Automation Blog: (automatically generated) Shawn Tierney (Host): Thank you for tuning back into the automation podcast. My name is Shawn Tierney from Insights and Automation. And this week, I meet up with Iren Sprock from Siemens to learn all about their g two twenty clean power drive. I also wanna thank Siemens for sponsoring this episode so I can bring it to you completely ad free. So with that said, I wanna welcome back to the show Ivan from Siemens to talk about VFDs. And, this is something we’ve been wanting to talk about for a while. But before you jump into your presentation, Ivan, could you introduce yourself to our audience for those who maybe didn’t catch your last appearance? Ivan Spronk (Siemens): Thanks a lot for just having me, back to the show here. I got a slide up here that introduces myself. I’m the product manager for the Synamix variable frequency drives for Siemens here in The US. So, yeah, happy to be back on your show. And what I would, like to talk to you about and discuss with you is our latest variable frequency drive. It’s the g two twenty and specifically the clean power drive. This is a best in class solution for a grid friendly power quality when using variable frequency drives. So Shawn, you audience may be wondering why we should discuss power grids and variable frequency drives, but I’ll just say if you’ve been around variable frequency drives or VFDs as I’ll refer to them, you’ve likely had conversations or heard something about VFDs creating or generating harmonics on the power grid. Shawn Tierney (Host): Oh, yeah. Yeah. Ivan Spronk (Siemens): Yeah. Or maybe you’ve, you know, someone in the audience has been involved in a situation where harmonic current and associated voltage distortion on your plants electrical grid were causing overheating on transformers and cabling or potentially causing circuit breakers to trip their fuses to open. Or maybe you’re just an engineer looking to select and specify a variable frequency drive and you may need to answer some questions about harmonics that typical VFDs generate. You can relate to any of those or if you’re just interested to know more about this topic, we’ll invite you to stay tuned here for the next thirty five to forty minutes for discussion on power quality and VFDs. So, Shawn, I’d like to just ask you, have you heard anything about the power grid lately? Shawn Tierney (Host): Well, yes. I’ve heard lots about the power grid. I know that this is more and more becoming a big issue because when you have a lot of VFDs producing all kinds of harmonics, that can cause lots of problems like the ones you just mentioned. But, also, the utilities are starting to to see this and saying, why are we putting up with this? So aside from the power grid needing to be hardened against all kinds of things, everything from EMTs to, you know, just, you know, Yahoo’s shooting transformers in the middle of nowhere. This has been a, I think, a big and growing issue. That’s why I’m glad that you’re on the talk about this because in the preshow, we just really I really got a sense of how important this was, you know, in 2025 and going into 2026. Ivan Spronk (Siemens): Lots of conversations about the grid and really how the grid electrical grid is being stretched. And with all of the, you know, data centers being built, you know, lots of conversations about how power is gonna be supplied with those. In other words, I think for maybe the first time in twenty five to thirty years, they’re anticipating our usage and power requirements going up. So that’s why I think all these utilities and plant operators are interested in the grid. So some reasons to discuss then the power grid and variable frequency drives is variable frequency drives very useful for motor control, but left unchecked, they can introduce several power quality issues. Harmonics, as you can see on the screen here, typical VFDs use rectifiers that generate nonlinear currents that also distort the voltage waveform and these harmonics can propagate through the electrical grid. And, you know, with that voltage waveform potentially affecting other equipment or you know at worst case other utility customers. These voltage fluctuations can lead to flicker in lighting and perhaps even take other sensitive devices offline. Typical VFDs some of them can negatively impact power factor. Again, something that’s of interest to utilities and plant operators. And just you know there could be some resonant frequencies set up that may interfere with other things. So those are all things that yeah, harmonics, and you know, the voltage fluctuation, things that are unfavorable I’ll say. And what I’d like to do here Shawn is just gonna introduce, you know, what I want to tell you is we have a very unique product here in the SINAMICS g two twenty clean power drive. Three advantages of this product we’ll wanna talk about here through through the course of this podcast. One is the clean power technology. So you can see total harmonic current distortion is well under the strictest harmonic standards there at less than 2%. It delivers near unity power factor under almost any load conditions. And I’ll just say, you know, there has been technologies out there that have been able to produce, you know, those two attributes of of, you know, low current harmonic distortion and near unity power factor. But what’s most unique about, this product we’re that we’re launching here is the compact space saving design, and it is the smallest low harmonics drive in the market. And also available, it’s all self contained, so there’s nothing extra to install. It’s all in one footprint. And I’ll give you an example here. This product is released up to a through 150 horsepower now. By the end of the year we’ll have it released up through 200 horsepower. So this is a relatively new product on the market. But that 200 horsepower drive imagine this Shawn less than three feet tall, less than 12 inches wide, and about 14 inches deep. That’s a 200 horsepower drive, that will guarantee these, things I’ve got got here with low distortion and near unity power factor. Shawn Tierney (Host): You know, that’s not something I would have thought of is that these clean drives are more clean power drives are typically larger than their standard cousins. And so the fact that you’ve been able to get these smaller and closer to the sizes of the standard drive is pretty impressive. Ivan Spronk (Siemens): You’re quite we we’d like to think so. Let’s dig into, you know, first of all, if, you know, I I said variable frequency drives or typical very free frequency drives can generate harmonics. So why why would people wanna use VFDs? Turns out variable frequency drives are really good at two things. One, saving energy, and two, improving processes. So just, you know, kind of as a reminder, why do people wanna use variable frequency drives? Just a reminder. Yeah. Half the world’s electricity is used by motors operating pumps and fans and compressors. And just as a reminder, Shawn, if you’ve got a 20 horsepower motor operating and I just use twelve hours a day, two sixty five days a year, I used average commercial power rate of 12¢ a kilowatt hour, that electric motor is gonna cost you running across the line around $5,500. If I operate that motor with a VFD and I’ve got opportunity to adjust the speed, you know, based on demand, electricity cost is half of it. So $2,500 And that even gets more grows your savings grow if I consider a 100 horsepower motor operating twelve hours a day, two fifty days a year, again, with that same kilowatt hour. You know, that running that electric motor across the line is gonna cost you, you know, I’ve got on the screen here $28,000. I’ve got the opportunity to adjust speed and control speed as I do with the VFD, and the application can, of course, doesn’t have to be run at full speed. You know, just typical savings again is gonna it’s gonna cost you less than half to run that electric motor. So I like to put those numbers in front of people, Shawn, because I think people lose sight of how much it costs to run an electric motor. So any thoughts on that? Shawn Tierney (Host): Yeah. You know, when I first got in this industry back in ’90, this was big. This was talked about all the time. They were like, if you get a fan or pump and you don’t have a VFD on it, you’re just wasting money. And and and to some extent too soft status. But the point being that, you know, if the way you drove your car was you just put the pedal to the metal everywhere you went, you could just realize that’s not gonna be very efficient, you know, fuel wise. And so, you know, putting aside the process thing, because many processes, you can’t just do a cross line starter. Right? It would be great for the process, but, typically, fans and and pumps, I mean, the the amount of savings is tremendous. And I know for a very long time, this was, you know, it was up there with, lighting, up upgrading your lighting in your plant. You’re just installing VFDs or upgrading VFDs from very old VFDs. A lot of times, the cost savings and the rebates would make the the project pay for itself within a year or two, if not sooner. So it’s, for anybody listening, I know all the old timers out there are like, yeah, know all about this, but maybe he’s listening and you haven’t taken a look at that, definitely call your, local representative and ask him about energy savings with VFDs because it’s huge. I mean, it’s just massive. As you show in this slide, you know, but it’s it’s it’s just it’s it’s super. Now at your second point, processes, yeah, some processes I mean, they wouldn’t be possible if all you had was across the line. You know, we we think about, you know, needing a very precise control, very precise movement, maybe not servo control, but in some cases, you know, just, you know, starting the VFD across the line would, you know, would break things. Right? You need to coast up and coast down, and, you know, be able to vary the speed based on the but what part of the what product you’re making sometimes. But let me turn it back to you. Ivan Spronk (Siemens): Sure. So one of the links that I’ve got in my resources is a a a link to it’s called CNA Save. It’s just our Siemens name for our, energy savings calculator. So somebody, you know, with that link, somebody could go in there and very quickly, you know, put in their own horsepower and speed profiles and energy costs and see for themselves, you know, more dialed in. So yeah. And I liked your your conversation about the process. I mean, so I think what I’m trying to establish on this slide really is VFDs are very useful and very effective at helping manage costs and improve process. So, you know, VFDs are not going away. So now let’s then dive into figuring out, okay, how do we handle harmonics that typical drives generate. So first, Shawn, let’s start with a conversation about what are line harmonics, and I’ve just got a few slides here to talk about that. But we’ll relate it to, you know, what we call linear loads, which is like an induction motor or resistors or incandescent lamps. They draw sinusoidal or linear current proportional to voltage. So in other words, for the audience on the looking at this slide here you can see very nice looking sine waves. Yeah. In this country of course that’s coming from our power plants at 60 Hertz. Looks very nice, right? Well, when you put a nonlinear load on your electrical distribution center system, yeah, and nonlinear loads are any power electronic device that’s converting AC power to DC power. So that’s what we’re doing in a VFD, we’re converting AC power to DC power. But also computers, you know, that’s obviously not the same talking in the same magnitude of power, but this is what computers are doing. Same thing with LED lamps now, Discharge lighting. And very interestingly enough, this is also what’s going on in EV charging stations. You know, you’re converting AC power to DC power, so that’s considered a nonlinear load. And what happens there in a nonlinear load is it doesn’t draw, it just draws power in pulses when the capacitors need to charge. So think about these capacitors charging more at the top of the waveform, And that’s then what causes these variations in both voltage and current, from the fundamental sine wave. And you know, in very simple terms, that’s what these harmonics are. Yeah. They’re non sinusoidal, they’re nonlinear, and even since it’s changing with the applied voltage. So there’s some things that they, you know, negative impacts we’ll say. And again, for the audience that’s looking at the slide there, you can kind of see some of these nonlinear currents stacked up there. Point is it creates a much more complex waveform, and there’s current flowing at those multiple frequencies. So Shawn, I’ve got for for people that are maybe having a hard time visualing this up, I’ve got a little example. So can you think, Shawn, of a musical group that sings in parts? Shawn Tierney (Host): Mhmm. Ivan Spronk (Siemens): Even if we can’t mention them on the air, you can we can all think of, you know, a group that’s in Yep. Yep. Yeah. Exactly. So here we go. We’ve got a musical group singing in different parts, and these different musical parts are sung at different pitches or frequencies. And that all blends together to make a richer sound. Right? Well, we can think of that fuller sound that’s flowing at those frequencies. That’s kinda like more current flowing in there. So, you know, to back to our harmonics example. So, yeah, there’s world flowing at these other frequencies other than 60 Hertz, and that kind of fundamentally becomes a problem we need to deal with. And then in that in that group, Shawn, can you think of someone what does it sound like when they sing off key? Shawn Tierney (Host): Absolutely. Who doesn’t sound good. Ivan Spronk (Siemens): Does it so maybe we’ll think of that as voltage distortion. So we gotta gotta do something about that too. So Shawn Tierney (Host): Yeah. I’d like to you know what? For me, you know, to and I think the charts for those listening, I think the charts really spell it out. They’re color coded, and they show the different harmonics. And for me, I think charting it is kinda one of the ways to understand it visually because if you think about let’s say you have a large rock, a medium rock, and a small rock, and you throw all three at the same time into a pond. You can visually see the big ripple, the medium ripple, and the small ripple, but it’s really hard for you to understand as they’re spreading out what the effect would be on, you know, any any, you know, maybe toy boats that your kids have in the water or grandkids have in the water. Right? And so it it’s it’s a very tough for for human beings to try to keep in their head more than three things happening at a time. Right? And so and so I I love seeing the chart here, and it shows the relationship to when the capacity of charging and how that affects the primary and the sympathetic and the different waveforms. And I just know that these are, you know, inducing currents, And each one of these are inducing currents, but it’s like that throwing multiple rocks into into a body of water. I just can’t I, you know, I need to see it. I need to draw it out. I just can’t, you know, understand. Hey. Well, that me means this little boat’s gonna go to the Northwest because, you know, you know, and this is where I think it’s it’s easy to overlook the effects that these harmonics have because it is it does get kinda complicated to visualize. Ivan Spronk (Siemens): Yeah. No. I I like that analogy of, the rocks and the water too. You can see those wave forms and yeah. It becomes, you know, more current flow that has to be dealt with. And and the voltage notching is something again, talking about typical VFDs. I’ve got a little picture here of yeah, showing in the center of the screen there. Just main section of a typical VFD with the rectifier front end that’s a six pulse, standard six pulse rectifier in there that’s what you know is very very common. You can see the DC link capacitors in the middle there, and of course the inverter section on the output which is recreating that sine wave. But let’s turn our attention to you know the input waveform that we’re showing. You can see you know drawing power creating those that notched waveform. And really what I want to point out on this slide is okay that’s kind of at the top of the slide I’ve got a picture of OneDrive doing that that you know on any given distribution system there’s a variety of loads right? Each with its own signature that interacts with each other, So you end up in trying to show down in this down in the orange section here of this drawing. Okay all of these different loads combined with their own signature to create kind of a system signature if you will. And then what happens is, okay, you’ve got standards that we’ll talk about here a little bit, but standards and specifications, you know, you’ll see if you’re an engineer dealing with harmonics, you know, they often refer to this point of common coupling. So that’s kind of what I’m trying to come across on this slide here as well is when you have a system, you know, it’s very useful to identify this point of common coupling where you’re gonna measure, these harmonics. So you’ll see that in a lot of specifications. Not sure if you ever seen that, Shawn. Shawn Tierney (Host): No. And and and just the point of common coupling, when you’re saying that you’re referring to go ahead. Give me that again. What what does that actually mean? Ivan Spronk (Siemens): If you notice over on the right side here, we’ve got a different loads. I’m showing I’m showing a couple of different drives. I’m showing few motors operating across the line, each with their own signature, but that ends up creating, you know, on the distribution system, you know, a system signature. So we need some place, you know, to decide, you know, if you’re trying to meet a spec, well, tell me then where I have to measure it. So that becomes that’s what this point of common coupling is. And I just wanted to get that term out there because people have often heard of this. Sometimes it’s right at the we’ll say the you know connection to the Utility Transformer. If you’re a plant operator maybe you’ve got a handful of buildings over here and you want to define a point of common coupling between some of these other buildings. Mhmm. But it’s just a, yeah, place to define for a measurement. Shawn Tierney (Host): So in this case they have let’s say they have a transformer here. This transformer feeds two, let’s say, VFDs and then two motor starters. So they’re exactly at that point, you know, on the outfeed of the transformer, which we know we have four loads on, to be that point of common coupling. Because what’s gonna happen is we have all these different loads, so we have all these different waveforms. We have the different harmonics from the VFDs. So that’s gonna average together to give us a a waveform that’s the combination of those four devices, And that’s point of common coupling. Alright, I’m with you. Thank you. Ivan Spronk (Siemens): Exactly. Again, just one other factor, just to talk about a factor that impacts the magnitude of harmonics, is something else you’ll see in a lot of specifications is what’s called the relative short circuit ratio. And really this is just a metric that’s used when evaluating the grid’s ability to support variable frequency drives and and really any other nonlinear load, which, you know, we mentioned LED lighting and there’s other nonlinear loads out there too. But what it does is compares the strength of the grid or distribution system maybe that you have in your plant to the size of the connected load. And of course, this ratio and therefore the magnitude of the harmonics is impacted by transformer size, by what you all got connected if I’ve got other reactors, how much cable I’ve got connected. And then probably most importantly by load size and type. In other words, by load size I mean, okay is this 50 horsepower or 200 horsepower? And by type meaning, is this 300 horsepower running across the line or is it on a with a VFD? I like to give an example there, Shawn. Water treatment facilities often you hear a lot about harmonics in those facilities because often there’s such big motor loads being controlled by VFDs and that is by far the largest represents the largest percentage of load on that transformer. Right? So I’ve got to imagine kind of this remote water treatment facility, you know, what’s out there? Probably four to five to six depending on how big it is, you know, huge motors running pumps, right? And not much else. So there’s an example of people that would be you know very concerned about how much you know what percentage of nonlinear load do I have on my transformer? So that’s kind of all relates back to this short circuit ratio. Again, something you see in a lot of specs. So just trying to give some definition around what that is. Sure if you got anything, any questions or anything you wanted to add or? Shawn Tierney (Host): No. I I appreciate that. Appreciate you going over. Ivan Spronk (Siemens): No. Kind of a point I’m trying to make is, you know, there’s multiple factors that impact the magnitude and lots of things to think about and figure out. It’s like, wow. If you’re a plant engineer with responsibilities for a power grid, wouldn’t it be great not to have to think about this? And I guess ask you to remember, you know, why I showed you at the beginning of this is, well, our our product, you know, take that whatever’s I drive is giving you no distortion at the terminals, no, you know, near unity power factor. So it becomes something that can really simplify. Yeah. Make make make a life of a plant engineer much simpler by specifying products that are you know low harmonic content. So let’s talk just okay so we kind of defined variable frequency drives. We we like them. They do a lot of good things. But okay there’s some things going on with harmonics. Okay so what’s what’s necessarily bad about these harmonics? So I’ve got a couple slides here showing that’ll walk us through the effects of, you know, kind of the pain points of harmonics. So, you know, with regards to transformers, generally, remember we talked about there’s there’s more current flowing at these other frequencies. So that’s gonna induce some additional heating and additional losses, likely to see some insulation stress, possibly even some resonant frequencies that are gonna set up core vibrations. So those are some of the, you know, undesirable things with generators. You know, there’s most good sized facilities have a standby generator. Right? Well, now if I’m operating a lot of nonlinear loads, I’d really start to need need to start to pay attention to, okay, is my generator gonna work to power these nonlinear loads? So something to consider there. And what what ends up happening is you people may have to oversize that generator Shawn Tierney (Host): Mhmm. Ivan Spronk (Siemens): To be able to run these nonlinear loads. And dropping down to cables and conductors again, if I’ve got more current flowing through them, that’s gonna increase your cable losses due to increased cable resistance caused by the skin effect, which is something that in tendency of alternating currents to flow primarily along the surface of the conductor. Yeah. Increasing or decreasing its ability to, you know, do its job and really deteriorating the the insulation, due to excessive heating. So those are all, you know, negative things that happen when you have a lot of harmonics. Right? Alright. Looking at one more slide of just some, you know, negative impact on circuit breakers or that may trip prematurely or fuses that may open prematurely. Again, thermomagnetic circuit breakers have these bimetallic strips that may be impacted by those additional currents flowing. Electronic type circuit breakers use current sensors which need to account for, you know, these harmonic currents. Yeah. Most circuit breakers are designed to trip at a zero crossover point. So with these distorted currents, you know, there may be some spurious zero crossovers. And then kind of some similar problems with fuses again due to heating effect. This RMS current and non uniform current distribution through the fuse element. You know, what tends to happen is people may have to oversize fuses. But of course, I’m also, you know, to match that actual RMS curve that’s flowing with these harmonics. But okay, that’s not necessarily unless somebody’s out there measuring it, they don’t know what that is. Right, Shawn? And I’ve got codes to meet. I can’t just put a way bigger fuse in. So, you know, it kind of becomes this balancing act. Right? Yep. So Yeah. So those are all things, you know, that happen when you have a lot of harmonics. Again, I can kind of summarize them on one slide here. Line, you know, line harmonics produced by these nonlinear loads cause overheating, inefficient operation, you know, and more losses, perhaps some premature line tripping, perhaps some system oscillations and instability, perhaps noise, and and yeah. And reduced power factor. So none of those are good. Right? In general, reduced efficiency, increased power loss and energy costs, and of course then higher carbon emissions as well. And yet to kind of summarize this all up, current distortion is is bad, infects your all your systems. You gotta account for it. Voltage distortion is often the one that will get people that it’s much worse because that goes all other systems as well if if left unchecked. So that’s my kind of my summary slide there of effects of harmonics and why we wanna do things to control them. So any any thoughts or questions there, Shawn? Shawn Tierney (Host): No. I think I think the slide does a good job of showing that, you know, this isn’t not just for your VFD, VSD. It’s the other things on the line too that you’re affecting. Right? So so now I’m sure some of the, some of those, listening or watching have have stories of where, you know, one drive, two drive wasn’t a problem, four, five, six drives, and they started seeing these issues because it was cumulative. Right? You know, the more drives you have. So, I’d love to hear any stories you guys that are listening and watching have about this and what you did to resolve it. But, this is this is I mean, in some cases, you may just need to get a VFD, like this clean power drive that eliminates this problem versus, you know, other ways of dealing with it. Ivan Spronk (Siemens): Sure. Oh, so, yeah, that that leads well into my next kind of couple of slides here. I mean, harmonics are not new. Line harmonics voltage distortion isn’t something that’s new. I mean, this this has been around for as long as VFBs has been around. So people have come up with, you know, ways to mitigate this. And I’ve got, you know, five of those methods listed on the screen. And we’re just gonna kinda very quickly step through these. But the last one there is really we’re gonna get to okay. What is in the g two twenty that makes it unique, and why do I wanna talk about it? So again, what and we’ll come back to this summary slide at the end here, but just okay. Like I said, people have come up with a handful of different ways to try and mitigate harmonics. First one is just, you know, a simple line reactor. And what you also see is some manufacturers, and Siemens has done this too, to some of our lines. We have DC chokes in the, you know, in that DC link section. You know, it’s an inductor and really all that’s doing is imposing, you know, opposing rather the rate of change of current flowing through it. So it kinda takes the top off of those notches if you you will. Yeah. It’s simple, probably economical. It’s usually applied to each VFD. If you know something about what impedance you need, there’s there’s a selection you know available in these AC line reactors. You can select the impedance you want. But some of the negative things is they take up more panel space. They gotta wire it. And in reality, it only offers kind of a small improvement. So people invented other things. So the next thing I got here is people came up with, they call them massive harmonic filters. They’re also called line harmonic filters, you know, LHF, you see that or harmonic trap filters. And what these do is they eliminate or control kind of those dominant lower order harmonics. I didn’t talk about this much, but these harmonic currents that are flowing they’re they’re much more dominant kind of at the lower end of the frequency range so they these harmonic trap filters work on, you know, those low order harmonics. And they they can be effective for, you know, putting in front of a drive. Kind of what they consist of is a LC circuit there, maybe with a damping resistor, and they get tuned to these specific frequencies. So but again, it’s a device that takes up panel space. I have to install that separate from the drive, so I gotta wire it. And then they don’t do a very good job because they still have, you know, voltage notching and instability on gen generator operation is a a is a known problem with these things. And okay you’re introducing more losses to the system. So that’s passive harmonic filters. The next thing I’ve got here is, you may have this has been pretty common in the industry. It’s called the 18 pulse front end. And really what this does is uses takes your incoming three phase power and really converts it to nine phases with a, you know, special transformer, that creates a phase shift between these different, now nine phases, so I can now I gotta have this 18 pulse, diode bridge and you can kinda see that on the on the slide here too. So I need, you know, this involves a lot of equipment. I need this auto transformer, I need a different rectifier bridge, you know, a much bigger one really, but it does do a really good job of yeah. So I’m not drawing current in big chunks anymore, I’m drawing current more often. Right? Because I’ve got this, you know, 18 pulse rectifier. So it really does a good job of meeting, you know, there’s a standard out there called IEEE five nineteen that’s referenced, that we’ll talk about just a little bit more here in a bit. And these also, work relatively well with the standby generator. Some of the negative things is, okay, you know, soon as I introduce that transformer and more switching, that reduces my system efficiency. And really the big one is this takes a ton of space to not only mount that transformer, but that, 18 pulse rectifier. I got a wire between all of that. So it ends up being a pretty substantial product cost in terms of component cost and and floor space cost. So, but you know has been widely used in the industry but a lot of metal, you know copper and iron, being used in that solution. Next IBT bridge and a DC bus much like the front end, front two parts of that AC drive that I showed you. So we’ve got kind of a the front end and a DC bus set in there. And what this really does is monitors the current and then really generates compensation current in opposite phase to offset harmonics. So this can be, you know, effective. The waveform looks pretty good. It’s unaffected by impedance changes because it’s managing the switches. But yeah, it tends to be you know more complex, it’s more expensive than passive filters, and again it becomes another device to install. Permissioning can be a bit of a challenge because you gotta get this tuned to obtain optimal performance. Although there are some self tuning ones out there that, you know, help take that burden away. But, yeah, you gotta install another piece of equipment that takes up think of it as, you know, two thirds of another VFD setting out there. Right? Shawn Tierney (Host): I would think it is also less energy efficient too because so we all know we have noise canceling headphones. They take power to generate a cancel waveform. Right? So we were already losing power because of harmonics, and now we’re generating another waveform to cancel out the harmonics. So it just seems like we’re losing more energy to produce this canceling wave. So it I mean, I could if this is the option that works, then you have the space granted, but it seems like it’s less energy efficient than maybe a passive filter. Right? But I don’t know. What do you I mean, two thirds more of the panel space as a as just the VFD alone. That sounds like a lot of equipment. Ivan Spronk (Siemens): Give you a a fucking waveform. So I think that’s why people like it. But, yeah, it is definitely something that’s more complex. And and again, I think also there’s that commissioning aspect. And another thing is okay. So you get it set up on a given distribution system and it’s doing great. Okay what happens when I add a couple of more drives on this distribution system? It’s gonna change the dynamics and may need to do some recommissioning. So again it’s something that a plant operator would would need to you know pay attention to. So all those methods and and what I’m gonna get to next is something that’s actually in the G220. So all these previous method methods you know kind of works to a degree and each kind of has its maybe strong points and and not so strong points. But what I want to talk about now is something that’s called active front end. And this is you know, the g two twenty clean power drive is a version of this active front end. So active front ends. So what do we mean by that? Basically, it’s, you know, a sinusoidal input rectifier. And we are controlling the commutation or when we’re conducting energy. So with that we can get, you know, if done right we can have a high dynamic response. So we can respond to, changes for instance, you know, voltage dips in the distribution center excuse me, distribution system. And and because of that, then we we can also kinda get because we’re controlling when we’re conducting current, you know, it’s it’s near you unity power factor. So, yeah. These active front ends have been versions of these drives out there as well. What’s unique about the g two twenty is that it’s a two quadrant active front end. So power is flowing only in one direction. So in other words from the supplier line source, you know, through the drive to the motor. These are called clean power. So you hear the name clean power infeed that’s because okay the, you know, the infeed or line supply is is clean. This is known as something, out in the industry. They’re called Vienna bridge rectifiers. Vienna bridge rectifiers, something that was invented in the mid nineties. And basically, I I just put up a, you know, bigger diagram of kinda what’s going on here. There you can kinda see, okay, it is only two quadrant, but there’s this three level switching process that really reduces all these lower ordered harmonics. So this provides them a stable controllable. The advantage is five voltage DC output, so there’s no voltage reduction going on. Makes it ideal for high power applications like VFDs. And again, remember I mentioned earlier in the conversation here, electric vehicle chargers. So this is a technology that’s been popularized by some of the people. Yeah. Making electric vehicle chargers as well. So and really, yeah. What we’re doing here is using on smaller sizes MOSFETs or on larger sizes, you know, IGBTs here in the power section. Mhmm. And then using a very, you know, part of the sauce here is the control or of the pulse width modulation to manage power inflow is is really, as short a sentence as I can come up to describe what’s going on here. With this, because we’re only controlling power in one direction, there’s some ability, you know, we we don’t have as many switching losses. Again, because we’re only dealing with two quadrants, it’s a compact size, but it is non regenerative. And I I just what I’ll do here is I’ll put up, you know, a four quadrant comparison. So there are active front ends out there that are four quadrant, which has more of a full IGBT, you know, front end to it. The advantage of that is you do get power flow. It is regenerative. You do get power flow in both directions. But of course now I have higher losses because I’m switching in both directions and and you know, just a little bit less efficient. So really kind of coming back to what’s in the the g two twenty clean power drive is this two quadrant Vienna Bridge rectifier. Again because we’re only controlling power in one direction there’s some space savings that that come from that. So yeah and I’ll just add a two quadrant so that’s why this is targeted at you know, non regenerative load applications like pumps and fans. Right? And compressors. Those are not regen load applications. If you need something, you know, four quadrant that would be, you know, like think of a hoisting application or something like that. Maybe large centrifuges or something like that that has a lot of mass that’s been accelerated up and yet can capture some region on the D cell. But that’s kind of, what’s in the g two twenty clean power drive. So, Shawn, I’ll just kinda stop there and the and by the way, the waveform is fantastic. Just dialed that in there. So any thoughts or questions or what’s on your what’s on your mind there? Shawn Tierney (Host): Yeah. No. That’s important to know. So, you know, you got the two quadrant version in the Clean Power g two twenty. And the important thing here is you’re gonna get beautiful. You’re gonna get beautiful elimination of harmonics. You’re gonna have a beautiful waveform. But when you make this choice, you’re also opting out of, regen, like you said, like a hoist or a large inertia load. There’ll be no regenning, which in some cases, you’d be choosing a different VFD. That’s just a different application. Right? Ivan Spronk (Siemens): Exactly. Shawn Tierney (Host): But I think most VFD applications, at least the ones I’ve seen over the years, do not have any regen. Right? They’re your standard purpose, even your high performance VFDs are not doing regen or anything any any type of regeneration capabilities. So I think for most applications, that’s not gonna be an issue, but it’s important to point out. Ivan Spronk (Siemens): What do you think? In the you know, some people we’ve asked questions about, why didn’t you just make it four quadrant? Well, let me ask you, Shawn. What do you think’s less expensive to make? A a two quadrant or four quadrant version? Shawn Tierney (Host): I got a feeling the four quadrant may be twice as much. Yeah. Well, at least that part of it. Right? The front end. Ivan Spronk (Siemens): And when do you think would, you know, take up more handle space Shawn Tierney (Host): at two quadrant or four quadrant? Yeah. Exactly. Exactly. Yeah. Ivan Spronk (Siemens): So, I mean, it’s it’s a very targeted, again, targeted at those, applications that are non region load applications, which Yeah. I’ll I’ll submit that’s at least 80% of them, you know, what’s out there. So if so, again, this really just to emphasize, it’s it’s a Vienna bridge rectifier. So, you know, some uniqueness there. But then really, also the software side of it, you know, building the, algorithm to manage that power flow and assure efficient operation is what’s been done in the g two twenty drive. And yeah. With regards to nice looking waveforms, it’s a lights out, you know, the best looking waveform out there. And matter of fact, I’ve got one more slide here that shows just, you know, development team took one of our g two twenty products, you know. So this is what’s shown over on the left side here is just your standard our, you know, waveform. You can see kind of the double humped waveform there. If you put a passive harmonic filter in front of the g two twenty, you know, waveform starts to look pretty good. But now if you just use a clean power drive, you get a very nice looking waveform. All that worrying about what the effect of harmonics how they’re generated you don’t have to think about that anymore because right at the input terminals of the drive you know, we’re giving you very very low turn harmonic distortion. So and and also that near unity power factor. So that’s really the advantages of the clean power drive. Shawn Tierney (Host): Well, and I you know, just for the audio audience, I mean, we’re looking at the standard g two twenty, right, your standard drive. You’re looking at a total harmonic distortion of, let’s say, 33. Well, you put that passive harmonic filter on, that’s standard drive. Now we’re down to around 4%. Right? But if you have a lot of those drives, that may not be enough. Right? So with the clean power g two twenty, we’re down to under 2%, 1.9 total harmonic distortion. And you see that I know you guys listening can’t see it, but you can see that in the waveforms. All the viewers who are watching can see the waveforms definitely the improvement as you go through each of these options. And, again, you’ll know if you need clean power. Right? I’m fairly sure that, you you know, if you don’t need clean power, you don’t need it. Right? But if you need it Right. And and this is something that I think we’ll see more and more because quite honestly, I mean, power fact, we all know how that affects your utility bill and how our company thinks about that. And so we can accept more stringent controls over time as, yes, the systems become more advanced. You know, you’re gonna get dinged if you have really bad power, you know, the quality of the power. If you’re causing problems down, you know, for the rest of the block or for the rest of the, business park, they’re gonna start tracking that. So let me turn it back to you, Evan. Ivan Spronk (Siemens): Yep. We’re kind of to the end. I’ve got a couple of slides just to summarize what we’ve talked about here. You know, the the g two twenty is, a new drive for us. It’s our next generation SINAMICS product. And really this drive was designed and built on four pillars of digitalization. So in the form of you know, having a digital twin capability to help engineers shorten design and engineering efforts when sizing a drive system, and then tools to optimize operation once it’s up and running. You can see another pillar of secure, meaning security, with regards to cybersecurity and and safety that protects people from machines and protects machines from people as well and other sinister actors. And ease of use, you know, next generation product starting with a clean sheet of paper. Okay. Some things were done with regards to selection, configuring, commissioning, training, things like that with making the product as easy to use as possible. And then this fourth pillar of being sustainable, you know optimizing manufacturing resources and materials used, even operational efficiency during the life of the product and then even considering you know the end of the product life cycle. So all of those things designed into the Sinamics G220 and then if we look again specifically at the advantages of the clean power drive, you know that nice clean low low total distortion that complies with the harmonic standards, near unity power factor, and again, in that space saving design. And just to kinda give you an idea, I’ve I’ve been telling you it’s small, and I think I maybe let the cat out of the bag at the beginning of the, presentation as well. Yeah. Here’s here’s kind of a table that shows dimensions, and there’s that 200 horsepower drive that I referenced. So, yeah, this this technology, you know, it’s not like buy the drive and buy buy something else to add on to it. It’s all in one package. And, yeah, that that 200 horsepower drive, you know, 31 inches tall, less than 12 inches wide, and about 14 inches deep. That’s a 200 horsepower clean power drive that would yeah. You wouldn’t have to think about all this harmonic stuff. And I’m not gonna put up a chart that shows competitor a, b, and c and and our product next to it. But you can take that table and go find go look at other people’s solutions and you’ll see yeah. It’s it’s a very compact device. So that’s kind of the point of that slide there, Shawn. And, yeah, really my last slide then just kind of I have drawn heavily from a white paper that my counterpart, Nikun Shah, wrote. So we’ll give you a link to go download that, white paper. That discusses a little bit more. I’ve kinda mentioned on and off, I triple e five nineteen. That is by far the prevalent standard in this country for, yeah, describing what harmonics are, different medication techniques. And then, you know, there’s tables in there. It’s like, okay, if you’re being called to meet specification at triple eight five nineteen, you know, here are the harmonic current distortion levels and voltage distortion levels that that you need to meet. So that’s all laid out in that white paper. Yeah. And then we’ll give you a a link to our website, to the g two twenty catalog. I have another very useful feature shown that I’ll give you a link to is the seamless product selector where you can go and, you know put in a part you know very quickly pick a part number and then get to some you know CAD models of it. And then I’ve mentioned that energy savings calculator at all. So Shawn that’s kind of what I had for today. I hope that was interesting to you and, more importantly, interesting to your audience. Shawn Tierney (Host): Yeah. And I just wanna remind the audience that we had you on to talk about the g two twenty a while back. We also had Jackie on that go through commissioning the one twenty and the two twenty. So if you’re kinda curious, how do you do that in TIA portal? Because I’ve never done that before. So Jackie came on, and she walked us through that for both of these two models. We also have received some samples from Siemens. So we will be, trying those out them ourselves here in the in the studio. Don’t know. Don’t have a date on that. We’re a little backed up here. But, definitely, they’re right in front of me every day, so I don’t forget about them. So we’ll be doing that as well. And, then we’ll make those available to our in person students who come to the school as well as we’ll add those as lessons to the online course over at the automation school. But so lots of stuff. We’ve had a lot of coverage. If you have any questions, check out this white paper. I’m sure we just touched the surface of what’s in there. And, of course, Ivan and all his colleagues at Siemens would love to hear from you. And, Ivan, let me, pass it back to you for the final word. Ivan Spronk (Siemens): Yeah. Just thank you so much for having me on, Shawn. Shawn Tierney (Host): Well, I hope you enjoyed that episode. I wanna thank Ivan for coming on the show and giving us that very technical presentation, which I totally enjoyed. I hope you guys did too. Also wanna thank Siemens for sponsoring this episode because you guys know I love to really stem completely ad free and available to the entire public. So with that said, I also wanna thank you for tuning back in this week. If you think about it, please give me a thumbs up or a like or a five star review. That is the best way for me to find new vendors to come on the show. And with the exception of Thanksgiving week, we should have a show every week up until the last two weeks of the year, and we are already recording shows for next year. So I’m excited about that. If you know any vendors you think we should be on the show, please reach out to them. I’m working on a new media guide as well, and so, we’d love to have them on the show this coming year of 2026. So with that said, I just wanna wish you all good health and happiness. And until next time, my friends, peace. Until next time, Peace ✌️  If you enjoyed this content, please give it a Like, and consider Sharing a link to it as that is the best way for us to grow our audience, which in turn allows us to produce more content

In this episode, Kevin and Charles sit down with Ben from Energy Pathways to explore MESH, the company's nationally significant long-duration energy storage and clean-power hub. They discuss how the UK's wind curtailment problem costs billions annually and how compressed air storage in salt caverns could provide up to seven days of dispatchable renewable power. Ben explains the project's Section 35 fast-track approval, the use of methane pyrolysis for low-cost hydrogen, and the integration of low-carbon ammonia and graphite production to support the UK's industrial strategy. He also outlines key partnerships with Siemens Energy, Costain, KBR, and Hazer, current funding milestones, and how the scalable MESH model could shape the UK's path to Clean Power 2030. Disclaimer & Declaration of Interest This podcast may contain paid promotions, including but not limited to sponsorships, endorsements, or affiliate partnerships. The information, investment views, and recommendations provided are for general informational purposes only and should not be construed as a solicitation to buy or sell any financial products related to the companies discussed. Any opinions or comments are made to the best of the knowledge and belief of the commentators; however, no responsibility is accepted for actions based on such opinions or comments. The commentators may or may not hold investments in the companies under discussion. Listeners are encouraged to perform their own research and consult with a licensed professional before making any financial decisions based on the content of this podcast. 

DCD sits down with Alex Goodall, CEO of Xela Energy, to discuss the company's rebrand from Clean Energy Capital, and how it aims to deliver behind-the-meter renewable power to the UK's data center market.

Want the latest news, analysis, and price indices from power markets around the globe - delivered to your inbox, every week?Sign up for the Weekly Dispatch - Modo Energy's unmissable newsletter.https://bit.ly/TheWeeklyDispatchAs more renewable energy connects to the grid, one question keeps coming up: who carries the risk when the wind doesn't blow, or prices crash? The future of clean power doesn't just depend on building more generation, it hinges on whether markets can give investors price certainty and revenue stability.In this episode of Transmission, we explore how risk is traded, priced, and managed in modern power markets. We look at how hedging, PPAs, and virtual power contracts have evolved and why the clean energy transition needs smarter financial tools to scale. Lee Taylor, CEO of REsurety joins Quentin to share how market design, trading strategies, and better risk management can unlock new renewable investment when traditional PPAs fall short.Key topics covered include: • Why price volatility makes financing renewables harder and riskier.• The rise of virtual PPAs and hedging instruments in clean energy.• How merchant risk and cannibalisation impact renewable project value.• Why new financial products are essential for scaling renewables globally.• The future of power market design and investor confidence.About our guest: Lee Taylor is the founder and CEO of REsurety, a leader in energy risk management software and hedging solutions that help developers, investors, and offtakers manage revenue risk in power markets. For more information on REsurety, head to their website. https://resurety.com/Want the latest news, analysis, and price indices from power markets around the globe - delivered to your inbox, every week?Sign up for the Weekly Dispatch - Modo Energy's unmissable newsletter.https://bit.ly/TheWeeklyDispatchAs more renewable energy connects to the grid, one question keeps coming up: who carries the risk when the wind doesn't blow, or prices crash? The future of clean power doesn't just depend on building more generation, it hinges on whether markets can give investors price certainty and revenue stability.In this episode of Transmission, we explore how risk is traded, priced, and managed in modern power markets. We look at how hedging, PPAs, and virtual power contracts have evolved and why the clean energy transition needs smarter financial tools to scale. Lee Taylor, CEO of REsurety joins Quentin to share how market design, trading strategies, and better risk management can unlock new renewable investment when traditional PPAs fall short.Key topics covered include: • Why price volatility makes financing renewables harder and riskier.• The rise of virtual PPAs and hedging instruments in clean energy.• How merchant risk and cannibalisation impact renewable project value.• Why new financial products are essential for scaling renewables globally.• The future of power market design and investor confidence.About our guest: Lee Taylor is the founder and CEO of REsurety, a leader in energy risk management software and hedging solutions that help developers, investors, and offtakers manage revenue risk in power markets. For more information on REsurety, head to their website https://resurety.com/About Modo Energy:Modo Energy helps the owners, operators, builders, and financiers of battery energy storage solutions understand the market - and make the most out of their assets.All of our interviews are available to watch or listen to on the Modo Energy site. To keep up with all of our latest updates, research, analysis, videos, conversations, data visualizations, live events, and more, follow us on LinkedIn. Check out The Energy Academy, our bite-sized video series breaking down how power markets work.

What does it take to rewire a nation's energy system? Can we make the grid cleaner, smarter, and more resilient — without driving up bills? And how will the explosion of AI data centres reshape the future of electricity demand?This week on Cleaning Up, host Michael Liebreich sits down with John Pettigrew, outgoing CEO of National Grid, for a candid conversation marking the end of his 35-year career. Together they explore the UK's £60 billion plan to deliver Clean Power by 2030, the race to build transmission for offshore wind, the growing strain from AI-driven electricity demand, and lessons from major outages in Spain and Heathrow.Pettigrew reflects on the evolving “energy trilemma” — balancing decarbonisation, reliability, and affordability — shares reflections from his 35-year career: what's changed, what went wrong, and what comes next for the grids powering our clean energy future.Leadership Circle:Cleaning Up is supported by the Leadership Circle, and its founding members: Actis, Alcazar Energy, Arup, Cygnum Capital, Davidson Kempner, EcoPragma Capital, EDP of Portugal, Eurelectric, the Gilardini Foundation, KKR, National Grid, Octopus Energy, Quadrature Climate Foundation, SDCL and Wärtsilä. For more information on the Leadership Circle, please visit https://www.cleaningup.live.Links and more:John's first appearance on Cleaning Up: https://youtu.be/1HVcJuO9dNIRoger Dennis on Cleaning Up 'The Price of Resilience': https://youtu.be/CELQT31riDENational Grid's £60 billion plan: https://www.nationalgrid.com/gridforgrowthNational Energy System Operator (NESO): https://www.neso.energy/Final report from what happened to the Heathrow substation: https://www.neso.energy/news/final-report-review-north-hyde-substation-outage

The Godfather of EVs, Dr Andy Palmer, talks to Fully Charged Show Founder, Robert Llewellyn, about Palmer Automotive's acquisition of Brill Energy, accepting Chinese EV realities, and the need for the UK's EV industry to unite.   The UK's EV industry can meet (tickets FREE) at B2B EV DAY in the Home Counties this Friday (10th October), for talks, ~100 EVs & thousands of test drives: https://www.tickettailor.com/events/fullychargedshowltd/1850554 Not in the industry? Join Everything Electric for a family-friendly festival of electrification at the weekend instead (11th & 12th October): https://everythingelectric.show/ There are more than 110 cars on display and / or test drives, (with more still being added in the final week), including: AUDI Q4 S line 45 e-tron AUDI Q4 Sportback Sport 45 e-tron quattro AUDI Q6 SUV Sport e-tron AUDI Q6 Sportback s-line e-tron AUDI A6 e-tron Avant BYD Atto 2 BYD Atto 3 BYD Dolphin Surf BYD Dolphin BYD Seal BYD Sealion 7 Cadillac Lyriq Changan S07 Cupra Born Cupra Tavascan Dacia Spring DS No.8 Ford Puma Gen-E Ford Explorer Ford Capri Ford Mustang Mach-E Geely EX5 Genesis GV60 Genesis GV70 Genesis GV80 Hyundai Inster Hyundai Kona Electric Hyundai Ioniq 5 Hyundai Ioniq 5 N Hyundai Ioniq 6 Hyundai Ioniq 9 Jaecoo 5 BEV Jeep Avenger KIA EV9 GT Leap T03 Mazda 6E Mercedes EQE 53 AMG Mercedes EQS 450+ Mercedes G580 Mercedes EQA 250+ Mercedes EQB 250+ Mercedes EQE 350+ Mercedes CLA 250+ MG4 MGS5 MG Cyberster MG IM 5 MG IM 6 Nissan ARIYA Nissan LEAF Nissan Micra Nissan SIlence 04 Omoda E5 Peugeot e-2008 Peugeot e-3008 Peugeot e-408 Peugeot e-5008 Polestar 2 Polestar 3 Polestar 4 Porsche Taycan Porsche Macan Skoda Elroq Smart #1 Smart #3 Tesla Model 3 Tesla Model Y Vauxhall Astra Vauxhalll Corsa Vauxhall Grandland Volvo EX30 Volvo EC40 Volvo EX40 Volvo ES90 Volvo EX90 VW ID.3 VW ID.7 Tourer VW ID.4 Estate VW ID.7 Hatchback VW ID.Buzz XPeng G6 XPeng P7 Like this? Check out our sister channel Everything Electric TECH: / @everythingelectricshow To keep current, subscribe for our episode alerts: https://fullycharged.show/zap-sign-up/ To partner, exhibit or sponsor at our award-winning expos email: commercial@fullycharged.show Everything Electric FARNBOROUGH - Farnborough International - 11th & 12th October 2025 Everything Electric MELBOURNE - Melbourne Showgrounds 14th, 15th & 16th November 2025 Everything Electric SYDNEY - Sydney Olympic Park 6th, 7th & 8th March 2026  #fullychargedshow #battery everythingelectricshow #homeenergy #cleanenergy #battery #electriccars #electricvehiclesuk

This event is part of the Institute for Government's Labour Party Conference 2025 fringe programme. Speakers: Michael Shanks MP, Minister for Energy at the Department for Energy Security and Net Zero Sam Alvis, Associate Director for Environment, Energy Security and Nature at IPPR Sam Peacock, Managing Director for Corporate Affairs, Regulation and Strategy at SSE Dhara Vyas, Chief Executive Officer of Energy UK This event was chaired by Jill Rutter, Senior Fellow at the Institute for Government. This event was held in partnership with Energy UK and SSE. 

 Speakers:    Michael Shanks MP, Minister for Energy at the Department for Energy Security and Net Zero Sam Alvis, Associate Director for Environment, Energy Security and Nature at IPPR Sam Peacock, Managing Director for Corporate Affairs, Regulation and Strategy at SSE Dhara Vyas, Chief Executive Officer of Energy UK This event was chaired by Jill Rutter, Senior Fellow at the Institute for Government.   This event was held in partnership with Energy UK and SSE. Learn more about your ad choices. Visit podcastchoices.com/adchoices

EnergyPathways PLC (AIM:EPP) CEO Ben Clube talked with Proactive's Stephen Gunnion about the UK government's designation of the company's flagship MESH project as “nationally significant” — a major milestone under the Planning Act 2008. Clube explained that this classification helps streamline the planning and approval process, accelerating the project's timeline with a view to being operational by 2030. The MESH project is central to the UK's Clean Power 2030 goals, offering both long-duration energy storage and low-cost hydrogen production. Clube emphasised that “we think we can produce hydrogen at the lowest cost relative to two other technologies available to the UK market.” EnergyPathways has secured key partnerships with Siemens Energy, Costain, Zenith Energy, Hazar Group, and KBR Inc., each contributing to the integrated clean energy system — including compressed air energy storage and methane pyrolysis hydrogen production. Siemens is a core technology partner for energy storage, while Hazar and KBR support hydrogen development. Clube also discussed recent capital raised from investors and directors, confirming that the company has now entered the FEED (Front-End Engineering Design) stage. “There's a lot of demand, we think, to backing the company through FEED and through the development cycle,” he added. The company expects several upcoming milestones as it navigates the Planning Act process and advances project approvals. For more interviews like this, visit Proactive's YouTube channel. Don't forget to like this video, subscribe, and turn on notifications for updates. #EnergyPathways #HydrogenProduction #CleanEnergyUK #MESHProject #BenClube #EnergyStorage #SiemensEnergy #MethanePyrolysis #NetZeroUK #FEEDstage #WindCurtailment #CompressedAirStorage #ProactiveInvestors #CleanPower2030

Want the latest news, analysis, and price indices from power markets around the globe - delivered to your inbox, every week?Sign up for the Weekly Dispatch - Modo Energy's unmissable newsletter.How do you take a battery project from an empty field to a grid-connected asset that actually supports the system? And with queue reforms, planning pressure, and shifting revenue stacks, what does it now take to move storage from idea to operation at speed *and* at scale?Today we're taking a look how sites are found, why connections and planning timelines make or break projects, and which policy changes (from connections reform to Clean Power 2030) matter most for accelerating flexible capacity on the system.In this episode, Ed is joined joined by Bex Sherwood, Head of Development at Field, to unpack how a storage developer navigates origination, planning, construction and optimisation and where the biggest bottlenecks (and opportunities) now sit.Key topics covered include:How battery storage projects are developed. From day zero through to operations.The impact of Clean Power 2030 and connections reform on storage growth.The key challenges developers face in planning and permitting.How Field has evolved since 2023, moving from developer to owner, operator, and optimiser.Why diversity in the workforce matters for the future of batteries and STEM.About our guestBex Sherwood is Head of Development at Field, a developer, owner, operator and optimiser of grid-scale battery storage; she also chairs Regen's Planning Working Group, focusing on practical reforms to speed well-sited, system-friendly projects. For more information about Field, head to their website.About Modo EnergyModo Energy helps the owners, operators, builders, and financiers of battery energy storage solutions understand the market - and make the most out of their assets.All of our interviews are available to watch or listen to on the Modo Energy site. To keep up with all of our latest updates, research, analysis, videos, conversations, data visualizations, live events, and more, follow us on LinkedIn. Check out The Energy Academy, our bite-sized video series breaking down how power markets work.

Want the latest news, analysis, and price indices from power markets around the globe - delivered to your inbox, every week?Sign up for the Weekly Dispatch - Modo Energy's unmissable newsletter.How do you take a battery project from an empty field to a grid-connected asset that actually supports the system? And with queue reforms, planning pressure, and shifting revenue stacks, what does it now take to move storage from idea to operation at speed *and* at scale?Today we're taking a look how sites are found, why connections and planning timelines make or break projects, and which policy changes (from connections reform to Clean Power 2030) matter most for accelerating flexible capacity on the system.In this episode, Ed is joined joined by Bex Sherwood, Head of Development at Field, to unpack how a storage developer navigates origination, planning, construction and optimisation and where the biggest bottlenecks (and opportunities) now sit.Key topics covered include:How battery storage projects are developed. From day zero through to operations.The impact of Clean Power 2030 and connections reform on storage growth.The key challenges developers face in planning and permitting.How Field has evolved since 2023, moving from developer to owner, operator, and optimiser.Why diversity in the workforce matters for the future of batteries and STEM.About our guestBex Sherwood is Head of Development at Field, a developer, owner, operator and optimiser of grid-scale battery storage; she also chairs Regen's Planning Working Group, focusing on practical reforms to speed well-sited, system-friendly projects. For more information about Field, head to their website.About Modo EnergyModo Energy helps the owners, operators, builders, and financiers of battery energy storage solutions understand the market - and make the most out of their assets.All of our interviews are available to watch or listen to on the Modo Energy site. To keep up with all of our latest updates, research, analysis, videos, conversations, data visualizations, live events, and more, follow us on LinkedIn. Check out The Energy Academy, our bite-sized video series breaking down how power markets work.

Want the latest news, analysis, and price indices from power markets around the globe - delivered to your inbox, every week?Sign up for the Weekly Dispatch - Modo Energy's unmissable newsletterWhich regions are best positioned for the clean energy transition and what does it really cost to balance these variable power sources across a global energy system? The transition is not just about choosing the cheapest technology upfront. It's about understanding the system-wide costs of integrating renewables.As the world races to electrify, countries face starkly different starting points. Some have abundant solar resources; others rely on wind. But no matter the geography, the same challenge emerges: how do we balance intermittent renewables while keeping costs down for consumers? Every country will have to solve the balance challenge, but the path will look different depending on local resources.In this episode of Transmission, Elena Pravettoni and Phoebe O'Hara from SystemE&Piq join us to unpack one of the most pressing questions in energy today: how to design power systems that are clean, affordable, and reliable at scale.In this conversation, we cover:Sun belts vs wind hotspots: Which geographies are better placed for the clean energy transition, and why local resources matter.Why building renewables is only half the challenge, and how flexibility shapes the true system cost.The role of storage, interconnection and demand response - the tools that make variable renewables reliable and affordable at scale.Global lessons in power system design – what countries can learn from each other.The importance of looking beyond cheapest generation to understand long-term system costs.Mentioned in the episodePower Systems Transformation Report Demand side flexibility – unleashing untapped potential for clean powerAbout our guestsElena Pravettoni is Head of Analysis at the Energy Transitions Commission (ETC), where she leads research and insights to support policymakers and industry leaders in accelerating the global energy transition. Her work focuses on system-wide analysis to guide decision-making on clean power, decarbonisation pathways, and cost-effective solutions for net zero. Connect on LinkedInPhoebe O'Hara is Head of Clean Power at the ETC, where she leads work on power system transformation and is the lead author of the Commission's recent report on the future of global clean power. With a background in battery storage and energy innovation, Phoebe brings deep expertise on the technologies and policies that enable reliable, affordable renewable energy at scale. Connect on LinkedIn For more information on the Energy Transmissions Commision or Systemiq, check out their websites. https://www.systemiq.earth/https://www.energy-transitions.org/About Modo EnergyModo Energy helps the owners, operators, builders, and financiers of battery energy storage solutions understand the market - and make the most out of their assets.All of our interviews are available to watch or listen to on the Modo Energy site. To keep up with all of our latest updates, research, analysis, videos, conversations, data visualizations, live events, and more, follow us on LinkedIn. Check out The Energy Academy, our bite-sized video series breaking down how power markets work.

Is the clean energy revolution finally here? Over the past few years, the world has experienced a sudden and overwhelming surge in renewable energy installation and generation, outpacing even the most optimistic predictions from experts. This week on the GZERO World Podcast, Ian Bremmer talks to Bill McKibben, an environmentalist and author, about the stakes and scale of the global energy transformation. His new book, Here Comes the Sun, argues renewables aren't just a climate fix—they're a political and economic opportunity. But while China and Europe are pushing ahead in the race to power the future, the Trump administration is doubling down on fossil fuels. What happens if the US puts the brakes on clean energy, just as the rest of the world hits the gas? Or rather... plugs in the solar battery? Do we risk being left in the dark?Host: Ian BremmerGuest: Bill McKibben Subscribe to the GZERO World with Ian Bremmer Podcast on Apple Podcasts, Spotify, or your preferred podcast platform, to receive new episodes as soon as they're published.

Is the clean energy revolution finally here? Over the past few years, the world has experienced a sudden and overwhelming surge in renewable energy installation and generation, outpacing even the most optimistic predictions from experts. This week on the GZERO World Podcast, Ian Bremmer talks to Bill McKibben, an environmentalist and author, about the stakes and scale of the global energy transformation. His new book, Here Comes the Sun, argues renewables aren't just a climate fix—they're a political and economic opportunity. But while China and Europe are pushing ahead in the race to power the future, the Trump administration is doubling down on fossil fuels. What happens if the US puts the brakes on clean energy, just as the rest of the world hits the gas? Or rather... plugs in the solar battery? Do we risk being left in the dark?Host: Ian BremmerGuest: Bill McKibben Subscribe to the GZERO World with Ian Bremmer Podcast on Apple Podcasts, Spotify, or your preferred podcast platform, to receive new episodes as soon as they're published.

What does the energy industry want? And what does it need? E-FWD members at the recent Offshore Europe show took time out from conferencing to share some thoughts in the studio.   The government's plans rest on the energy industry doing its part, to deliver Clean Power 2030 in the first instance, and in the longer term net zero. But there's a lack of clarity on too many fronts - and workers are on the front lines.   To hear more about how the industry sees the future, listen to this special E-FWD episode of Energy Voice Out Loud. Head to our YouTube channel to watch all of the interviews in full.  https://www.youtube.com/@E-FWD_EnergyTransition

In our 60th episode, we delve into the very interesting concept of "MegaProjects" for offshore wind. We believe that megaprojects have the potential to create a critical mass of market demand, making large supply chain and infrastructure investment easier to justify, and provide a mechanism that gives public and private partners certainty over the nature, timing and location of those investments. Against the backdrop of ambitious 2030 offshore wind deployment targets, there is a strong argument to be made for thinking bigger. Our hosts, Head of Analysis & Insights, Tom Quinn and A&I Manager, Emily Rees, are joined by our Head of Strategic Development and Policy, David Wallace, Senior Policy Adviser at E3G, Susie Elks and last but not least, Director of the UK Energy Research Centre (UKERC) and Clean Power 2030 Advisory Commissioner, Robert Gross.

Energy Voice's Ryan Duff, Erikka Askeland, and Mat Perry discuss the number one question GB Energy boss, Dan McGrail, has been asked since taking over the state-backed body. Erikka tells us about the speech Dan delivered while at the Scottish Green Energy Supply Chain Awards in Aberdeen, in which he said the most popular question he's asked is "What is GB Energy?" There were some interesting insights given by Dan as our trio of journalists discussed the implications of a state-owned "activist investor". Next up, Energy Voice editor Mark Selby spoke with renowned energy analyst Michael Liebreich in a pre-recorded interview. While trying not to come across as a "Debbie Downer" on net zero, Liebreich said the UK needs to stop "chasing the Quixotic dream of Clean Power 2030" and embrace a more pragmatic approach. Finally, this episode wraps up on the University of Aberdeen's latest review, conducted by John Underhill. It is suggested by John that "bespoke" permits should be handed out to oil and gas developments located near existing infrastructure. This raises some interesting questions at a time when the UK offshore regulator, the North Sea Transition Authority, is unable to hand out any licences while operators await the results of government consultation.

“Leadership isn't about being the strongest in the room, it's about being the clearest window for source.” – Jon Eden Khan Jon Eden Khan is a transformational facilitator, spiritual teacher, and founder of Avatar and Singularity—two visionary projects that bridge inner transformation with systemic change. His path has taken him from addiction and homelessness to stewarding global communities rooted in truth, ritual, and evolutionary purpose. Avatar is a multidimensional soul initiation journey rooted in ritual, remembrance, and embodiment. Singularity is a bold transnational political movement designed to birth a new form of governance—anchored in the one earth, one humanity, and one heart. In this episode, Jon shares: What it means to embody clean power—and how brokenness can make us more trustworthy leaders. Why the choice to keep going deeper after healing is the mark of true self-initiation. His journey building Avatar through over a decade of trial, risk, and sacred listening. The mystical origins of Singularity—and why he believes spiritual leadership must now enter the political realm. How group fields can become vessels for planetary consciousness and collective awakening. The difference between listening “horizontally” to the room and “vertically” to source.   Join our Patreon for access to monthly Facilitation teachings and webinars with Rachel Patreon.com/inpresencewetrust Connect with Jon Website: https://www.jonedenkhan.com/ Avatara: https://www.avatara.one/ Singularity: https://www.singularity-earth.org/ Connect with Rachel Rachel's Email List: subscribe Rachel's Website: rachelrickards.com The Field Facilitator Training: www.the-field.com Find us on Instagram The Field Facilitator Training: instagram.com/thefieldfacilitation Rachel Rickards: instagram.com/rachel.rickards/ Our Cover Art was Designed by Oana Serbana Instagram: Oana_flowingart Etsy:  Oana Flowing Art Etsy

The UK's clean energy ambitions depend on more than just building wind farms and solar arrays they rely on the systems and schemes that decide how those projects connect to the grid and how they sell their power.From the long-established Contracts for Difference (CfD) auctions to the upcoming Clean Power 30 reforms, the rules and incentives that have shaped renewable deployment are now under pressure. With the volume of projects in the pipeline and 2030 targets approaching fast, the question is whether these mechanisms are fit for today's pace of change.Without changes to connection processes and offtake frameworks, gigawatts of clean energy could stay stuck in the queue, missing climate deadlines and adding costs. Reforming these systems is critical to delivering the UK's 2030 decarbonisation goals.In this special Transmission × Energy Revolution Podcast crossover, Sulaiman Ilyas-Jarrett, who has worked at the heart of government energy policy joins Modo Energy's Ed Porter to explore: How today's grid connection schemes work and where delays are building up. The role CfDs have played in accelerating renewables, and the limitations they now face.What Clean Power 30 could mean for developers, investors, and the wider market. The balance between speed, fairness, and system stability in connecting new generation. Lessons from inside government on designing schemes that actually deliver.About our guestSulaiman Ilyas-Jarrett is a recognised leader in energy and climate policy. Formerly Head of Policy and Strategy for Renewable Delivery at the UK Department for Energy Security and Net Zero, and a Policy Fellow at the University of Cambridge, he brings deep expertise in renewable energy systems, market design, and policy innovation. With a career spanning government, academia, and climate advocacy, Sulaiman has shaped strategies to accelerate the energy transition and unlock renewable deployment at scale.Connect with Sulaiman on LinkedInAbout Modo EnergyModo Energy helps the owners, operators, builders, and financiers of battery energy storage solutions understand the market - and make the most out of their assets.All of our podcasts are available to watch or listen to on the Modo Energy site. To keep up with all of our latest updates, research, analysis, videos, podcasts, data visualizations, live events, and more, follow us on LinkedIn. Check out The Energy Academy, our bite-sized video series breaking down how power markets work. Sign up to the Modo Energy Weekly Dispatch for expert insights on energy storage, market shifts, and policy updates - delivered straight to your inbox every week.

The UK's clean energy ambitions depend on more than just building wind farms and solar arrays they rely on the systems and schemes that decide how those projects connect to the grid and how they sell their power.From the long-established Contracts for Difference (CfD) auctions to the upcoming Clean Power 30 reforms, the rules and incentives that have shaped renewable deployment are now under pressure. With the volume of projects in the pipeline and 2030 targets approaching fast, the question is whether these mechanisms are fit for today's pace of change.Without changes to connection processes and offtake frameworks, gigawatts of clean energy could stay stuck in the queue, missing climate deadlines and adding costs. Reforming these systems is critical to delivering the UK's 2030 decarbonisation goals.In this special Transmission × Energy Revolution Podcast crossover, Sulaiman Ilyas-Jarrett, who has worked at the heart of government energy policy joins Modo Energy's Ed Porter to explore: How today's grid connection schemes work and where delays are building up. The role CfDs have played in accelerating renewables, and the limitations they now face.What Clean Power 30 could mean for developers, investors, and the wider market. The balance between speed, fairness, and system stability in connecting new generation. Lessons from inside government on designing schemes that actually deliver.About our guestSulaiman Ilyas-Jarrett is a recognised leader in energy and climate policy. Formerly Head of Policy and Strategy for Renewable Delivery at the UK Department for Energy Security and Net Zero, and a Policy Fellow at the University of Cambridge, he brings deep expertise in renewable energy systems, market design, and policy innovation. With a career spanning government, academia, and climate advocacy, Sulaiman has shaped strategies to accelerate the energy transition and unlock renewable deployment at scale.Connect with Sulaiman on LinkedInAbout Modo EnergyModo Energy helps the owners, operators, builders, and financiers of battery energy storage solutions understand the market - and make the most out of their assets.All of our podcasts are available to watch or listen to on the Modo Energy site. To keep up with all of our latest updates, research, analysis, videos, podcasts, data visualizations, live events, and more, follow us on LinkedIn. Check out The Energy Academy, our bite-sized video series breaking down how power markets work. Sign up to the Modo Energy Weekly Dispatch for expert insights on energy storage, market shifts, and policy updates - delivered straight to your inbox every week.

Clean Power Alliance is in its eighth year serving cities and unincorporated areas in Los Angeles and Ventura counties, providing power to over one million electric meters in 35 cities and county areas with a generating capacity of 3,400 MW. This episode of Flanigan's Eco-Logic features Ted Bardacke who has been its CEO throughout this tenure... creating the nation's largest community choice aggregator. CPA is also the nation's largest clean energy provider, and has been for the past two years. Its annual sales of 10 - 11 TWh, make it the fourth largest power provider in the State of California. Recently, it eclipsed San Diego Gas and Electric in power sales.Ted explains that CPA provides three tiers of rates, important choices for its members: About 10%of its members have selected its Lean Power rates, pricing that is about 2% less than the rates offered by Southern California Edison (SCE). Another 25% have selected the Clean Power rates that are equal in price but a better environmental product. Two-thirds of its members are on the 100% Green Power rate, paying about 6% more than they would if they were still buying power from SCE. These choices have been key to CPA's remarkably low opt-out rate (and its 93% participation rate)... meaning that members are pleased with the CPA products and have for largely have not returned to SCE.CPA is now mature and offering a suite of programs that enhance its services. Ted explains that there are two types of  programs: CPA offers programs for its member agencies that feature resilience for critical facilities as well as up to $250,000 grants for building electrification. CPA also offers a suite of customer programs... things like incentives for advanced battery energy storage and EV charger incentives. By working closely with its board of directors, Ted explains that CPA's services are locally rooted, and that CPA has a fine-grained understanding of its customers' needs.The conversation then shifts to the current presidential administration's decrees... retarding wind and solar. Fortunately CPA "resourced" its portfolio of green power early and at relatively low cost, putting the CCA in a strong financial position. But Ted explains that there is no question that the administration is changing the market for renewables... with less tax credits, policies making it harder to permit renewables, and the effects of tariffs on supply lines. Without question, these changes are impacting the "ecosystem" supporting renewables... making it harder for customers to "do the right thing" to control costs and drive down emissions. Ted notes that "California will do a good job of holding this ecosystem together" though "there will be some backsliding.'When asked about next steps for CPA, Ted flags directions including refining and expanding programs, exploring asset ownership, and working with customers to make them co-managers of electrification. Just as Californians have and will respond to water shortages, Ted wants CPA to lead a cultural shift such that electricity consumers are active participants.... driving down costs and emissions for all.

In this episode of Energy Newsbeat – Conversations in Energy, Stuart Turley is joined by James Walker, CEO of Nano Nuclear Energy, to discuss the exciting advancements in microreactor technology. James shares insights on Nano Nuclear's upcoming projects in the U.S. and Canada, including the development of the first commercial microreactor. They also explore the impact of regulatory changes, the growing demand for clean, reliable energy from tech and military sectors, and the future of nuclear power in addressing the U.S.'s energy challenges. Stay tuned for updates on their groundbreaking work in the nuclear industry.They have the potential to change the entire nuclear game. Their new complete designs include dramatic changes to ocean shipping and microgrids. This is huge, and has the potential to lower costs for AI data centers and businesses looking to put electrical generation behind the meter. You will want to check out the Nano Nuclear site to look at their new updates: https://nanonuclearenergy.com/Connect with James on LinkedIn here: https://www.linkedin.com/in/jamesjohnwalker1/Highlights of the Podcast 00:00 - Intro00:43 - James Walker's Introduction02:09 - Nano Nuclear Energy's Exciting Developments02:50 - Timeline for Nano Nuclear Projects03:03 - Deployment Speed of Microreactors04:05 - Regulatory Process and Industry Shifts05:03 - The Impact of New Regulations06:00 - Reactor Size and Deployment07:23 - U.S. Grid Challenges and Nuclear Power's Role09:25 - AI and Nuclear Collaboration10:23 - Military Demand for Nuclear Power12:37 - Nano Nuclear Energy's Growth and Industry Partnerships13:09 - The Future of Nuclear Power14:05 - Growth and Job Creation in the Nuclear Industry16:17 - Nuclear's Future and Challenges19:13 - The Public Perception of Nuclear20:34 - Molten Salt and Triso Fuels22:07 - Nano Nuclear's Upcoming Developments23:12 - Conclusion and Future UpdatesFor the full transcript and interact, head to the Energy News Beat Substack or Website.

Join Guy Ruddle and Marylis Ramos, Director of Savills Earth Advisory Services, alongside Nick Green, Head of Savills Energy, Infrastructure and Renewables, Harry Ramsey, Associate, Savills Planning and Rosie Vetter, Head of Development at VOLTALIA UK, in the fourth episode of the third Savills Earth podcast series.In this episode, we explore the rapidly evolving landscape of the UK's renewable energy market as it charges toward the Clean Power 2030 target. With the government aiming for a fully decarbonised electricity system by the end of the decade, we unpack the major reforms shaping the sector. Will they unlock the full potential of wind, solar and storage or could uncertainty and investor risk slow progress when momentum is needed most?

POLITICO Energy host Josh Siegel sits down for an extended interview with Jason Grumet, CEO of the American Clean Power Association, a trade group representing renewable energy producers. They discuss President Donald Trump's war against American wind and solar power, whether the US renewable industry can recover, and why clean energy proponents have lost political power. Jason Grumet is the CEO of the American Clean Power Association. Josh Siegel is an energy reporter for POLITICO and the host of POLITICO Energy. Nirmal Mulaikal is the co-host and producer of POLITICO Energy.  Kara Tabor is an audio producer for POLITICO. Gloria Gonzalez is the deputy energy editor for POLITICO.  Matt Daily is the energy editor for POLITICO. For more news on energy and the environment, subscribe to Power Switch, our free evening newsletter: https://www.politico.com/power-switch And for even deeper coverage and analysis, read our Morning Energy newsletter by subscribing to POLITICO Pro: https://subscriber.politicopro.com/newsletter-archive/morning-energy Learn more about your ad choices. Visit megaphone.fm/adchoices

In this episode of the Everything Electric Podcast, we sit down with Chris Stark, Head of the UK's Mission Control for Clean Power 2030 within the Department for Energy Security and Net Zero. From building the UK's energy dashboard to delivering on ambitious targets, Chris takes us behind the scenes of the nation's clean power revolution. We cover everything from offshore wind auctions and retrofitting homes, to the huge challenge of delivering 95% clean electricity by 2030. Listen to Chris' insights on:

Sean talks with Navdeep Martin, CEO and co-founder of Flypower, at the American Clean Power (ACP) Clean Power 25 conference in Pheonix. Flypower is leveraging AI to enhance renewable energy projects. Navdeep, a former speaker at the big NorCal Solar event recently in Oakland, discusses Fly Power's mission to streamline the process of securing permits and overcoming community resistance by analyzing public data. They dive into how AI can optimize renewable energy site selection and community engagement, the hurdles faced by solar and wind energy developers, and how AI innovations enhance decision-making. They also touch on the social dynamics and opposition from various groups towards renewable projects, how developers can navigate these challenges, and the broader significance of renewable energy adoption.   Topics discussed: NorCal Solar 50th Anniversary Flypower AI Clean Power  Conference = Clean Power 25 Wind Industry CIA Community Resistance Data Centers Trevor Noah at ACP Analyzing Commissioners Public available data Census AI based Perplexity Gemini Cloud ChatGPT Deepseek Allies Cancel culture Teddy Kennedy   Reach out Navdeep Martin here: LinkedIn: www.linkedin.com/in/navdeepmartin/ Website: www.flypower.io   Learn more at www.solarSEAN.com and be sure to get NABCEP certified by taking Sean's classes at www.heatspring.com/sean.

In this episode, our guest is Emily Morris, Founder and CEO of Emrgy, a company pioneering modular hydropower systems that bring clean, continuous electricity to remote and underserved communities. Emily explains how her technology integrates water stewardship, floating solar, and energy storage to build decentralized microgrids that don't require new transmission infrastructure. From projects in New Zealand and the US to ambitious global expansion, we explore how Emrgy's plug-and-play turbines are changing the way power is delivered — and how this model empowers rural economies, women entrepreneurs, and the next generation of clean energy leaders. Please join to find more: Connect with Sohail Hasnie: Facebook @sohailhasnie X (Twitter) @shasnie LinkedIn @shasnie ADB Blog Sohail Hasnie YouTube @energypreneurs Instagram @energypreneurs Tiktok @energypreneurs Spotify Video @energypreneurs

What will it take to finally wean Europe off Russian gas? Can renewables help with grid stability? And is the EU making a mistake subsidising hydrogen? This week on Cleaning Up, Michael Liebreich sits down with EU Energy and Housing Commissioner Dan Jørgensen to dissect the continent's energy transformation. In this wide ranging interview recorded at the Berlaymont building in Brussels — the home of the European Commission — Liebreich and Jørgensen delve into critical topics including reducing dependency on Russian energy, the economics of renewable technologies, the role of nuclear power, and the contentious economics of green hydrogen. Jørgensen defends the EU's ambitious climate goals while addressing concerns about cost, competitiveness, and political pushback against the green transition. Leadership Circle:Cleaning Up is supported by the Leadership Circle, and its founding members: Actis, Alcazar Energy, Davidson Kempner, EcoPragma Capital, EDP of Portugal, Eurelectric, the Gilardini Foundation, KKR, National Grid, Octopus Energy, Quadrature Climate Foundation, SDCL and Wärtsilä. For more information on the Leadership Circle, please visit https://www.cleaningup.live. Discover more:Sierra Leone special: https://www.youtube.com/watch?v=z-5QjSfy2SMDecarbonizing the last few percent: https://mliebreich.substack.com/p/decarbonizing-the-last-few-percentLessons from Spain: https://mliebreich.substack.com/p/lessons-from-spainEU Hydrogen Strategy: https://energy.ec.europa.eu/topics/eus-energy-system/hydrogen_en  

Battery storage is booming — but how does it really work, and why does it matter? In this episode of the Fully Charged Show Podcast, Imogen sits down with Ed Porter from ⁨@modoenergy⁩ one of the UK's leading experts on battery energy storage systems (BESS), to demystify the critical role batteries are already playing in balancing the grid — and what's still to come. From frequency regulation and price arbitrage to blackouts and the path to clean power by 2030, we explore how grid-scale batteries are transforming our energy system faster than you think. Ed shares his insights on: Why batteries are replacing gas in grid services — and slashing costs. What dynamic frequency response actually means How the UK went from 0 to 5.3 GW of battery storage — and where we go from here Why the “1.5-hour” battery duration isn't a limitation, but a smart design choice How we plan to survive “Dunkelflaute” and keep the lights on in winter. Enjoy! ⁨@fullychargedshow⁩ ⁨@EverythingElectricShow⁩ Find out more about the Modo Energy Terminal: https://modoenergy.com/ 00:00 Introduction  01:01 Ad Break  01:16 Modo Energy  04:09 Why do we need Grid Scale Batteries?  06:07 Batteries and frequency in the system  09:07 80% Cost reduction vs gas!  12:17 Are we deploying batteries fast enough?  16:09 1.5 hour battery duration?!  19:02 What about “Dunkelflaute”?! and a note on CCUS...  26:00 Decoupling the cost of electricity from gas?!  29:13 A whole new system?  37:15 Should energy be free?!  40:53 Negative pricing  43:26 What the UK can learn from Texas  46:00 Please like and subscribe!     This episode is sponsored by Duracell Energy! Enter the Free Prize Draw to WIN your own Duracell Energy bunny here: https://www.duracellenergy.com/givaway/    Get a free quote for solar and battery from Duracell Energy here: https://bit.ly/4i9ERid    Free Prize Draw Terms & Conditions can be found here: https://www.duracellenergy.com/wp-content/uploads/2025/01/Prize-Draw-2025-Puredrive-Energy-Ltd.pdf   Why not come and join us at our next Everything Electric expo: https://everythingelectric.show Check out our sister channel: https://www.youtube.com/@fullychargedshow Why are our episodes now sponsored? https://fullycharged.show/blog/dan-caesar-on-x-insta-youtube-and-why-we-made-a-contro[…]s-on-fully-charged-everything-electric-electric-vehicles-uk/ Support our StopBurningStuff campaign: https://www.patreon.com/STOPBurningStuff Become a Fully Charged SHOW Patreon: https://www.patreon.com/fullychargedshow Become a YouTube member: use JOIN button above Buy the Fully Charged Guide to Electric Vehicles & Clean Energy : https://buff.ly/2GybGt0 Subscribe for episode alerts and the Fully Charged newsletter: https://fullycharged.show/zap-sign-up/ Visit: https://FullyCharged.Show Find us on X: https://x.com/Everyth1ngElec Follow us on Instagram: https://instagram.com/fullychargedshow To partner, exhibit or sponsor at our award-winning expos email: commercial@fullycharged.show Everything Electric CANADA - Vancouver Convention Center - 5th, 6th & 7th September 2025 Everything Electric SOUTH (UK) - Farnborough International - 10th, 11th & 12th October 2025 Everything Electric AUSTRALIA VIC - 14th, 15th & 16th November 2025

Peggy Smedley talks about the clean power manufacturing sector, explaining how it is driving the U.S. economic boom. She says we need to make, build, and grow together, which will require several shifts in manufacturing. She also discusses: How much it contributes to the U.S. GDP annually today—and will in 2030. Growth anticipated for jobs, earnings, and economic output. How it can help generate opportunities for local communities. peggysmedleyshow.com  (6/3/25 - 923) What You Might Have Missed:  A Primer on Clean Energy Clean Energy Trends to Watch The State of the Grid IoT, Internet of Things, Peggy Smedley, artificial intelligence, machine learning, big data, digital transformation, cybersecurity, blockchain, 5G, cloud, sustainability, future of work, podcast This episode is available on all major streaming platforms. If you enjoyed this segment, please consider leaving a review on Apple Podcasts.

The re-elected Albanese government is offering to effectively cut the price of home batteries for solar by half. That's on top of the generous tax incentives it has already rolled out for electric cars: It's time to cash in on the greening of Australia. In today's show we cover The new federal incentive to cut home battery costs in half How to have a fully tax deductible electric car Renting your home and Capital Gains tax Is the deeming rate now 'deemed' untouchable? James Gerrard of www.financialadviser.com.au joins Associate Editor- Wealth, James Kirby in this episodeSee omnystudio.com/listener for privacy information.

In the latest Clean Power Hour Live Episode on May 2nd, Tim Montague and John Weaver dive into the latest developments in the renewable energy sector. The conversation kicks off with an analysis of the recent major power outage in Spain and France, exploring how solar inverter technology may have contributed to the grid collapse and how battery storage solutions could prevent similar events in the future.The hosts also discuss exciting technological advancements in solid-state batteries, exploring Narada Power's new 783 amp-hour cell that packs 8.3 megawatt-hours of storage into a single shipping container.Episode Highlights:Spanish Grid Collapse Analysis (https://pv-magazine-usa.com/2021/09/24/odessa-disturbance-highlights-troubling-gaps-in-solar-reliability/)Double Black Diamond Solar Farm (https://wirepoints.org/first-look-at-massive-illinois-solar-farm-powering-chicago-abc7-chicago/)Rooftop Innovation in DC (https://www.reddit.com/r/solar/comments/1k8hxx7/our_panels_arrived/)Utility-Scale Automation (https://bsky.app/profile/commercialsolarguy.com/post/3lnsryrkkts25)Solid State Battery Breakthrough (https://www.ess-news.com/2025/04/25/narada-power-launches-783-ah-cell-8-3-mwh-solid-state-battery/)Balcony Solar Revolution (https://pv-magazine-usa.com/2025/04/25/balcony-solar-comes-to-california/)Solar Tariff Impacts (https://www.reuters.com/sustainability/climate-energy/nextera-beats-profit-expectations-rate-hikes-robust-power-demand-2025-04-23/) Support the showConnect with Tim Clean Power Hour Clean Power Hour on YouTubeTim on TwitterTim on LinkedIn Email tim@cleanpowerhour.com Review Clean Power Hour on Apple PodcastsThe Clean Power Hour is produced by the Clean Power Consulting Group and created by Tim Montague. Contact us by email: CleanPowerHour@gmail.com Corporate sponsors who share our mission to speed the energy transition are invited to check out https://www.cleanpowerhour.com/support/The Clean Power Hour is brought to you by CPS America, maker of North America's number one 3-phase string inverter, with over 6GW shipped in the US. With a focus on commercial and utility-scale solar and energy storage, the company partners with customers to provide unparalleled performance and service. The CPS America product lineup includes 3-phase string inverters from 25kW to 275kW, exceptional data communication and controls, and energy storage solutions designed for seamless integration with CPS America systems. Learn more at www.chintpowersystems.com

Liz Muller is the CEO and Co-founder of Deep Fission, a company pioneering a new approach to the traditional light-water nuclear reactor. Rather than using concrete and constructed containment, Deep Fission places the reactor one mile underground, fundamentally changing the design paradigm.Liz was on the show over five years ago when she was building a company focused on storing nuclear waste deep underground—a related concept. Now, she's back with a fresh vision and a new venture. Deep Fission recently raised a pre-seed round led by Eight VC, and we wanted to catch up with her to hear how the idea came together and how she's approaching the challenge this time around.In this episode, we cover: [1:37] Liz's previous venture: Deep Isolation and lessons learned[4:19] The origin story of Deep Fission and the core insight that sparked it[9:37] Cost comparison between underground and traditional above-ground nuclear reactors[12:17] Deep Fission's modular, scalable reactor design[19:10] Plans for maintenance, refueling, and long-term waste disposal[22:25] Regulatory engagement with the NRC and path to licensing[23:24] Initial commercial partnership with Endeavor Data Centers[25:07] Advantages of Deep Fission's approach vs. traditional nuclear plants[28:23] Funding milestones and capital raised to date[29:10] Liz's vision for the future of nuclear energy[35:03] Who Deep Fission wants to hear from—and how you can helpEpisode recorded on March 27, 2025 (Published on April 10, 2025) Enjoyed this episode? Please leave us a review! Share feedback or suggest future topics and guests at info@mcj.vc.Connect with MCJ:Cody Simms on LinkedInVisit mcj.vcSubscribe to the MCJ Newsletter*Editing and post-production work for this episode was provided by The Podcast Consultant

Joe Salvatto joins Ryan to talk about his path to working at EQUI=TECH and how important it is for studios to have access to clean power.Video By: More Than Media - www.morethan.mediaInstagram: https://www.instagram.com/morethan.media/TikTok: https://www.tiktok.com/@morethan.mediaYouTube: https://www.youtube.com/@morethanmedia_The S.O.U.N.D. Project Podcast:Apple Podcasts: https://podcasts.apple.com/us/podcast/the-sound-project/id1680525959Spotify: https://open.spotify.com/show/6dkk1s642VFjZGsdYGyxBPGoogle: https://podcasts.google.com/feed/aHR0cHM6Ly9hbmNob3IuZm0vcy9kZTBiZGNlOC9wb2RjYXN0L3JzcwFull episodes playlist: https://www.youtube.com/playlist?list=PLghfvh2wd7A9MnVKr44jtPEg0qcZ1esTFKeep up with us on our Socials:- YouTube: https://www.youtube.com/@haverstickdesigns- Instagram: https://www.instagram.com/haverstickdesigns/- Facebook: https://www.facebook.com/HaverstickDesigns- TikTok: https://www.tiktok.com/@haverstickdesigns- LinkedIn: https://www.linkedin.com/company/haverstick-designs/- Linktree: https://linktr.ee/haverstickdesigns- Website: https://www.haverstickdesigns.com/

Several hundred New Yorkers traveled to the state Capitol on Wednesday March 19 as part of the Renewable Heat Now campaign. A main focus was the passage of the NY Heat Act, which passed the Senate last year but stalled in the State Assembly. NY Heat would require state agencies - especially the Public Service Commission - to align their policies and regulations with the state's climate law (CLCPA) and to cap utility bills for low-income New Yorkers at 6% of their income. The Assembly has not supported the bill while the Governor has balked at the 6% cap though that is already a PSC goal. We hear from Jessica Azulay of AGREE; Emily Skydel of Food and Water Watch; Betta Broad of New Yorkers for Clean Power; and Michael Hernandez of Rewiring America.

France went 95% fossil-free, while the UK still struggles—why aren't we copying them? What about that small Danish city that recycled 735,000 reusable coffee cups in just one year? Welcome to Adept English, the podcast where we explore fascinating positive! real-world stories while helping you learn https://adeptenglish.com/company/learning-system/ English in a fun and immersive way. Interesting content that keeps you listening!Improve your English with our podcast subscription! Every month, for less than your daily coffee, you will get 8 new premium episodes designed to strengthen your listening https://adeptenglish.com/english/listening/ skills with real-world language listening.

Geothermal energy has been utilized by humans for millennia. While the first-ever use may be a mystery, we do know the Romans tapped into it in the first century for hot baths at Aquae Sulis (modern-day Bath, England). Since then, many other people and cultures have found ways to use the Earth's underground heat to their benefit. Geothermal resources were used for district heating in France as far back as 1332. In 1904, Larderello, Italy, was home to the world's first experiment in geothermal electricity generation, when five lightbulbs were lit. By 1913, the first commercial geothermal power plant was built there, which expanded to power the local railway system and nearby villages. However, one perhaps lesser-known geothermal concept revolves around energy storage. “It's very much like pumped-storage hydropower, where you pump a lake up a mountain, but instead of going up a mountain, we're putting that lake deep in the earth,” Cindy Taff, CEO of Sage Geosystems, explained as a guest on The POWER Podcast. Sage Geosystems' technology utilizes knowledge gleaned from the oil and gas industry, where Taff spent more than 35 years as a Shell employee. “What we do is we drill a well. We're targeting a very low-permeability formation, which is the opposite of what oil and gas is looking for, and quite frankly, it's the opposite of what most geothermal technologies are looking for. That low permeability then allows you to place a fracture in that formation, and then operate that fracture like a balloon or like your lungs,” Taff explained. “When the demand is low, we use electricity to power an electric pump. We pump water into the fracture. We balloon that fracture open and store the water under pressure until a time of day that power demand peaks. Then, you open a valve at surface. That fracture is naturally going to close. It drives the water to surface. You put it through a Pelton turbine, which looks like a kid's pinwheel. You spin the turbine, which spins the generator, and you generate electricity.” Unlike more traditional geothermal power generation systems that use hot water or steam extracted from underground geothermal reservoirs, Sage's design uses what's known as hot dry rock technology. To reach hot dry rock, drillers may have to go deeper to find desired formations, but these formations are much more common and less difficult to identify, which greatly reduces exploration risks. Taff said traditional geothermal energy developers face difficulties because they need to find three things underground: heat, water, and high-permeability formations. “The challenge is the exploration risk, or in other words, finding the resource where you've got the heat, the large body of water deep in the earth, as well as the permeability,” she said. “In hot dry rock geothermal, which is what we're targeting, you're looking only for that heat. We want a low-permeability formation, but again, that's very prevalent.” Sage is now in the process of commissioning its first commercial energy storage project in Texas. “We're testing the piping, and we're function testing the generator and the Pelton turbine, so we'll be operating that facility here in the next few weeks,” Taff said. Meanwhile, the company has also signed an agreement with the California Resources Corporation to establish a collaborative framework for pursuing commercial projects and joint funding opportunities related to subsurface energy storage and geothermal power generation in California. It also has ongoing district heating projects in Lithuania and Romania, and Taff said the U.S. Department of Defense has shown a lot of interest in the company's geothermal technology. Additionally, Meta signed a contract for a 150-MW geothermal power generation system to supply one of its data centers.

The UK government has pledged to achieve 95% clean power by 2030. It's an ambitious, tough goal – and even tougher to accomplish while reducing energy prices. Chris Stark, head of the nation’s Mission Control for Clean Power, says he’s “confident” the UK can deliver. But at the same time, the Labour government’s leaders are sending mixed signals on climate: They want to expand airports and may sign off on new oil fields in the North Sea. Stark tells Akshat Rathi why he’s still certain the country can balance its carbon budget, and why it’s important for politicians to show that green investments have economic benefits too. Explore further: Past episode with Chris Stark on his role at the Climate Change Committee Past episode about what happens to the energy transition as the US leaves the Paris Agreement Past episode with Scottish Power CEO Keith Anderson about grid readiness Zero is a production of Bloomberg Green. Our producer is Mythili Rao. Special thanks this week to Will Mathis, Sharon Chen, Eamon Farhat, and Jessica Beck. Thoughts or suggestions? Email us at zeropod@bloomberg.net. For more coverage of climate change and solutions, visit https://www.bloomberg.com/green.See omnystudio.com/listener for privacy information.

On Tuesday February 4, several hundred climate activists were at the State Capitol to promote the Renewable Heat Now Campaign. The main push was to finally pass the NY Heat Act. The Act, which has passed the NYS Senate, Would stop subsidies for gas expansion (e.g., the 100 foot rule); would align state agency actions (e.g., PSC) with the state's climate law (CLCPA); and would cap utility bills for low income households at 6%. Among other issues the campaign is supporting is the Renewable Capitol Act to convert the Capitol complex, including the Empire State Plaza, to 100% renewable energy within three years. We hear about the campaign and other critical climate issues from Jeanne Bergman with SANE Energy; Adam Flint, Director of Clean Energy Programs at Network for a Sustainable Tomorrow; Albany resident Fred Pfieffer; Eric Weltman of Food and Water Watch; Betta Broad of New Yorkers for Clean Power; Lena Goings of Fridays for Future NYC; and David Alexis of New York Communities for Change. By Mark Dunlea for Hudson Mohawk Magazine.

In the latest edition of our Big Debates miniseries, Morgan Stanley Research analysts discuss the factors that will shape the global energy market in 2025 and beyond, and where to look for investment opportunities.----- Transcript -----Michelle Weaver: Welcome to Thoughts on the Market. I'm Michelle Weaver, U.S. thematic and Equity strategist at Morgan Stanley.Devin McDermott: I'm Devin McDermott, Head of Morgan Stanley's North America Energy Team.Mike Canfield: And I'm Mike Canfield, Head of the Europe Sustainability Team,Michelle Weaver: This is the second episode of our special miniseries, Big Debates, where we cover key investment debates for 2025. Today, we'll look at where we are in the energy transition and some key investment opportunities.It's Monday, January 13th at 10am in New York.Mike Canfield: And 3pm in London.Michelle Weaver: Since 2005, U.S. carbon emissions have fallen by about 15 percent. Nearly all of this has been tied to the power sector. Natural gas has been displacing coal. Renewable resources have seen higher penetration. When you look outside the power sector, though, progress has been a lot more limited.Let me come to you first, Devin. What is behind these trends, and where are we right now in terms of the energy transition in the U.S.?Devin McDermott: Over the last 20 years now, it's actually been a pretty steady trend for overall U.S. emissions. There's been gradual annual declines, ratcheting lower through much of this period. [There's] really two primary drivers.The first is, the displacement of coal by natural gas, which is driven about 60 percent of this reduction over the period. And the remainder is higher penetration of renewable resources, which drive the remaining 40 percent. And this ratio between these two drivers -- net gas displacing coal, renewables adding to the power sector -- really hasn't changed all that much. It's been pretty consistent even in this post COVID recovery relative to the 15 years prior.Outside of power, there's been almost no progress, and it doesn't vary much depending on which end market you're looking at. Industrial missions, manufacturing, PetChem -- all relatively stable. And then the transport sector, which for the U.S. in particular, relative to many other markets and the rest of the world, is a big driver transport, a big driver of emissions. And there it's a mix of different factors. The biggest of which, though, driving the slow uptick in alternatives is the lack of viable economic options to decarbonize outside of fossil fuels. And the fact that in the U.S. specifically, there is a very abundant, low-cost base of natural gas; which is a low carbon, the lowest carbon fossil fuel, but still does have carbon intensity tied to it.Michelle Weaver: You've also argued that the domestic natural gas market is positioned for growth. What's your outlook for this year and beyond?Devin McDermott: The natural gas market has been a story of growth for a while now, but these last few years have had a bit of a pause on major expansion.From 2010 to 2020, that's when you saw the biggest uptick in natural gas penetration as a portion of primary energy in the U.S. The domestic market doubled in size over that 10-year period, and you saw growth in really every major end market power and decarbonization. There was a big piece of it. But the U.S. also transitioned from a major importer of LNG, which stands for liquefied natural gas, to one of the world's largest exporters by the end of last decade. And you had a lot of industrial and petrochemical growth, which uses natural gas as a feedstock.Over the last several years, globally, gas markets have faced a series of shocks, the biggest of which is the Russia-Ukraine conflict and Europe's loss of a significant portion of their gas supply, which historically had come on pipelines from Russia. To replace that, Europe bought a lot more LNG, drove up global prices, and in response to higher global prices, you saw a wave of new project sanctioning activity around the world. The U.S. is a key driver of that expansion cycle.The U.S. over the next five years will double; roughly double, I should say, its export capacity. And that is an unprecedented amount of volume growth domestically, as well as globally, and will drive a significant uptick in domestic consumption.So that the additional exports is pillar number one; and pillar number two, which I'd say is more of an emerging trend, is the rise of incremental power consumption. For the last 15 years, U.S. electricity consumption on a weather adjusted basis has not grown. But if you look out at forecasts from utilities, from various market operators in the country, you're now seeing a trend of growth for the balance of this decade and beyond tied to three key things.The first is onshore manufacturing. The second is power demand tied to data centers and AI. And the third is this broader trend of electrification. So, a little bit from EV's, more electric appliances, which fit into this decarbonization theme more broadly. We're looking at now an outlet, this is our base case of U.S. electricity demand growing at just shy of 2 percent per year over the next five years. That is a growth rate that we have not seen this century. And natural gas, which generates about 40 percent of U.S. power today, will continue to be a key player in meeting this incremental demand. And that becomes then a second pillar of consumption growth for the domestic market.Michelle Weaver: And we're coming up on the inauguration here, and I think one really important question for investors is what's going to happen to the energy sector and to renewables when Trump takes office? What are you thinking here?Devin McDermott: Yes. Well, the policy that supports renewable development in the U.S., wind and solar specifically, has survived many different administrations, both Republican and Democratic. And there's actually several examples over the last 10 to 15 years of Republican controlled Congress extending both the production tax credit and investment tax credit for wind and solar.So, our base case is no major change on deployments, but also unlikely to see any incremental supportive policy for these technologies. Instead, I think the focus will be on some of the other major themes that we've been talking about here.One, there's currently a pause on new LNG export permits under the Biden administration that should be lifted shortly post Trump's inauguration. Second, there are greenhouse gas intensity limits on new power plant and existing power plant construction in the U.S. that will likely be lifted, under the incoming Trump administration. So, gas takes a larger share of incremental power needs under Trump than it would have under the prior status quo. And then lastly. Consistently over the last few years, penetration of electric vehicles and low carbon vehicles in general in the United States have fallen short of expectations.And interestingly, if you look at just the composition of new vehicles sold in the U.S. over the past years, nearly two-thirds were SUVs or heavier light duty vehicles that offset some of the other underlying trends of some uptick in EV penetration.Under the prior Trump administration, there was a rollback of initiatives to improve the fuel economy of both light duty and heavy-duty transport. I would not be surprised if we see that same thing happen again, which means you have more longevity to gasoline, diesel, other fossil-based transport fuels. Which kind of put this all together -- significant growth for natural gas that could accelerate under Trump, more longevity to legacy businesses like gasoline and diesel for these incumbent energy companies is not a bad backdrop.Trade's still at double its historical discount versus the broader market. So, not a bad setup when you put it all together.Michelle Weaver: Great. Thank you, Devin. Mike, new policies under the second Trump administration will likely have an impact far beyond the U.S. And with a potential withdrawal of the U.S. from the Paris Agreement and increased greenhushing, many investors are starting to question whether companies may walk back or delay their sustainability ambitions.Will decarbonization still be a corporate priority or will the pace of the energy transition in Europe slow in 2025?Mike Canfield: Yeah, that's the big question. The core issues for EU policymakers at the moment include things like competitiveness, climate change, security, digitalization, migration and the cost of living.At the same time, Mario Draghi highlighted in his report entitled “The Future of European Competitiveness” that there are three transformations Europe has to contend with: to become more innovative and competitive; to complete its energy transition; and to adapt to a backdrop of less stable geopolitics where dependencies are becoming vulnerabilities, to use his phrase.We do still expect the EU's direction of travel on things like the Fit for 55 goals, its targets to address critical mineral supplies, and the overall net zero transition to remain consistent. And the UK's Labour Party has advocated for Clean Power 2030 goals of 95 percent clean generation sources.At the same time, it's fair to say some commentators have pointed to the higher regulatory burden on EU corporates as a potentially damaging factor in competitiveness, suggesting that regulations are costly and can be overcomplicated, particularly for smaller companies. While we've already had a delay in the implementation of the EU's deforestation regulation, some questions do remain over other rules, including things like the corporate sustainability, due diligence directive, and the design of the carbon border adjustment mechanism or CBAM.We're closely watching corporates themselves to see whether they'll reevaluate their investment plans or targets. One example we've actually already seen is in the metals and mining space where decarbonisation investment plans were adjusted because of inadequate green hydrogen infrastructure and policy concerns, such as the effectiveness of the CBAM.It does remain committed to its long-term net zero goals. But the company has acknowledged that practical hurdles may delay achievement of its 2030 climate ambitions. We wouldn't be surprised to see other companies take an arguably more pragmatic, in inverted commas, approach to their goals, accepting that technology, infrastructure and policy might not really be ready in time to reach 2030 targets.Michelle Weaver: Do you believe there are still areas where the end markets will grow significantly and where companies still offer compelling opportunities?Mike Canfield: Yeah, absolutely. We think sustainable investing continues to evolve and that, as with last year, stock selection will be key to generating alpha from the energy transition. We do see really attractive opportunities in enabling technologies across decarbonisation, whether that's segments like grid transmission and distribution, or in things like Industry 4.0.We'd recommend focusing on companies with clear competitive moats and avoiding the relatively commoditized areas, as well as looking for strong pricing power, and those entities offering mission critical products or services for the transition. We do anticipate a continued investment focus on data center power dynamics in 2025 with cooling technology increasingly a topic of investor interest.Beyond the power generation component, the urgent need for investment in everything from electrical equipment to grid technologies, smart grid software and hardware solutions, and even cables is now increasingly apparent. We expect secular growth in these markets to continue apace in 2025.Within Industry 4.0, we do think adoption of automation, robotics, machine learning, and the industrial Internet of Things is set to grow strongly this year as well. We also see further growth potential in other areas like energetic modernization in buildings, climate resilience, and the circular economy.Michelle Weaver: And with the current level of policy uncertainty has enthusiasm for green investing or the ‘E' environmental pillar of ESG declinedMike Canfield: I think evolved might be a fairer expression to use than declined. Certainly, reasonable to say that performance in some of the segments of the E pillar has been very challenging in the last 12 to 24 months -- with the headwinds from geopolitics, from the higher interest rate backdrop and inflation. At the same time, we have seen a transition towards improver investment strategies, and they're continuing to gain in popularity around the world.As investors recognize that often the most attractive alpha opportunities are in the momentum, or direction of travel rather than simple, so-called positive screening for existing leaders in various spaces. To this end, the investors that we speak to are often focused on things like Capex trends for businesses as a way to determine how companies might actually be investing to deliver on their sustainability ambitions.Beyond those traditional E, areas like renewables or electric vehicles, we have therefore seen investors try to diversify exposures. So, broadening out to include things like the transition enablers, the grid technologies, HVAC -- that's heating, ventilation and cooling, products supporting energy efficiency in buildings, green construction and emerging technologies even, like small modular nuclear reactors alongside things like industrial automation.Michelle Weaver: And, given this evolution of the e pillar, do you think that creates an opportunity for the S or G, the social or governance components of ESG?Mike Canfield: We do think the backdrop for socially focused investing is very strong. We see compelling opportunities in longevity across a lot of elements, things like advanced diagnostics, healthier foods, as well as digitalization, responsible AI, personal mobility, and even parts of social infrastructure. So things as basic as access to water, sanitation, and hygiene.One topic we as a team have written extensively on in the last few months It's preventative health care, for example. So, while current health systems are typically built to focus on acute conditions and react to complications with pharmaceuticals or clinical care, a focus on preventative care would, at its most fundamental, address the underlying causes of illnesses to avoid problems from arising in the first place.We argue that the economic benefits of a more effective health system is self evident, whether that's in terms of reducing the overall burden on the system, boosting the workforce or increasing productivity. Within preventative healthcare, we point to fascinating investment opportunities across innovative biopharma, things like smart chemotherapy, for example, alongside solutions like integrated diagnostics, effective use of AI and sophisticated telemedicine advances -- all of which are emerging to support healthy longevity and a much more personalized targeted health system.Michelle Weaver: Devin and Mike, thank you for taking the time to talk, and to our listeners, thanks for listening. If you enjoy Thoughts on the Market, please leave us a review wherever you listen to the show and share the podcast with a friend or colleague today.

Sean has been on Tim's podcast a number of times and it was time for Tim to be on Sean's podcast!   Both Tim and Sean have classes on HeatSpring and see each other at all of the big and many smaller solar conferences in the US. In this podcast they talk about various topics including:   Topics covered: History of Clean Power Hour Solar Works For Illinois PV Magazine John Weaver RE+ CPS America = Chint Power Systems Americas www.chintpowersystems.com SUNVOY www.sunvoy.com O&M = Operation and Management ESS = Energy Storage Systems Battery Sean Whites Solar and Energy Podcast history Sean's Radio 690 AI = Artificial Intelligence Google Notebook LM Tesla Optimus Going to Mars Exploring Uncharted Lands Fossil Fuel The Manhattan Alien Abduction Tim Montague's Heatspring NABCEP = North American Board of Certified Energy Practitioners www.nabcep.org Online Learning ESIP = Energy Storage Installation Professional Net Metering Non Exporting VPP = Virtual Power Plant Schweitzer Relay C&I Solar = Commercial and Industrial Solar Elexity www.elexity.io Goat Yoga   Reach out Tim Montague here: Linkedin: www.linkedin.com/in/cleanpowerhour Youtube: www.youtube.com/@cleanpowerhour HeatSpring: www.heatspring.com/courses Clean Power Hour Website: www.cleanpowerhour.com   Tim Montague's Previous Podcasts with Sean White: May 10, 2022: www.youtube.com August 10, 2023: www.youtube.com December 10, 2024: www.youtube.com   Learn more at www.solarSEAN.com and be sure to get NABCEP certified by taking Sean's classes at www.heatspring.com/sean

President-elect Donald Trump has vowed to cut support for clean power. Two guests from Bloomberg NEF weigh the likely impacts on clean energy development. --- President-elect Donald Trump has vowed to reduce federal support for clean power as soon as he takes office in January. Yet political realities may limit the extent to which incentives, such as those in the Inflation Reduction Act, may be rolled back, leaving open the possibility that the incoming president may seek surgical rather than sweeping cuts. A more fundamental question nevertheless remains: How much would reducing federal support for clean energy actually slow its growth in the U.S.? On the podcast, two experts on clean power markets and policy explore the likely scope, and practical impacts of Trump’s stated energy positions. Meredith Annex is an energy economist and Head of Clean Power at Bloomberg NEF. Derrick Flakoll is Bloomberg’s Policy Expert for the US and Canada. The two analyze the incoming administration’s plans for clean power manufacturing, project development, and trade policy. They also share their insights on how these policies might unfold and what they could mean for the future pace of clean power growth in the United States. Meredith Annex is Head of Clean Power at Bloomberg NEF. Derrick Flakoll is Bloomberg NEFs Policy Expert for the US and Canada. Related Content Closing the Climate Finance Gap: A Proposal for a New Green Investment Protocol https://kleinmanenergy.upenn.edu/research/publications/closing-the-climate-finance-gap-a-proposal-for-a-new-green-investment-protocol/ California’s Low Carbon Fuel Standard https://kleinmanenergy.upenn.edu/research/publications/californias-low-carbon-fuel-standard/ Energy Policy Now is produced by The Kleinman Center for Energy Policy at the University of Pennsylvania. For all things energy policy, visit kleinmanenergy.upenn.eduSee omnystudio.com/listener for privacy information.

Our South Asia Energy Analyst Mayank Maheshwari discusses the main drivers behind a shifting electric power landscape in his outlook for Asia energy.----- Transcript -----Welcome to Thoughts on the Market. I'm Mayank Maheshwari, Morgan Stanley's South Asia Energy Analyst. There's been an investment surge in renewable energy – to field the world's rising demands for energy and power. With a new White House administration, however, there are questions about its future. Today I want to dig into the profound shifts impacting the production and consumption of power in Asia.It's Wednesday, November 20, at 9pm in Singapore. The world consumed 25 trillion units of power last year and Asia accounted for about half of that. Asia demand is booming like the rest of the world, and power consumption is at a tipping point. We forecast global power consumption will grow 26 per cent faster through 2030 than in the last decade. Somewhat similar to the US, we are actually seeing tightness in Asian power markets in coming years as well. But even today countries like India, Singapore, and increasingly Malaysia are seeing power demand grow at 1.5 to 2x faster than pre-COVID levels. So, what's driving this rapid growth? Outside of the residential power demand, growth is driven by GenAI datacenters, re-shoring of manufacturing facilities, there are new semi-conductor investments that are coming through, and expanding new energy supply chains itself are actually adding to the tightness. Importantly though, regional differences in clean power costs and demand are stark. In Asia, power prices have steadily risen. Multiple regulators are acknowledging the tightness by extending the life of coal plants, building new gas and coal facilities, and even restarting nuclear power generation capacity – as clean power alone cannot by itself handle this surge in demand. Interestingly though, the cost to produce clean power has declined pretty rapidly in 2024 to below-trend levels after a period of significant inflation we saw post-COVID. On average, solar panel prices in Asia declined 50 per cent, and the cost of onshore wind declined 10 per cent – with energy storage costs deflating by a third to levels not seen in the past five years. However, this cost deflation has been a lot more uneven across regions, with the US and Europe seeing much smaller declines due to tariffs and other supply bottlenecks. Asia is hence seeing significant inflection in the economics for power generation companies, especially in South Asia, which had lagged China capacity adds over the last several years. Part of the deflation in the clean power supply chain comes from even the capacity overbuilds that we are seeing in geographies that are looking to build their own clean power supply chains. Regions such as India and Southeast Asia, where clean power demand is growing very quickly, are adding to the glut in capacity on clean power supply chains that we have already seen in China.Amid all the clean power developments in Asia, COP29 announced a[n] updated climate goal. The UN climate conference being held in Azerbaijan this year aims for a 59 per cent to 67 per cent reduction in economy-wide greenhouse gas emissions by 2035. That's the clean energy update from Asia for now. Listen in tomorrow, as my colleagues engage in a conversation about the impact of the US election results on the sector.Thank you for listening. If you enjoy Thoughts on the Market, please leave us a review wherever you listen and share the podcast with a friend or a colleague today.

Decarbonising power by 2030 is one of the flagship policies for Keir Starmer's government. Whether this is achievable and how we go about the green transition will impact ten of thousands of jobs and everybody's energy bills. So just how do they plan on reaching this ambitious target? Gary Smith, general secretary of the GMB, argues that there is a fundamental dishonesty about the route to net zero, with communities being hollowed out and the working class left behind. All of this has resulted in fertile ground for the far right.   The Spectator's editor Fraser Nelson sat down with Gary Smith at Labour conference last week, to give an alternative take on the net zero debate.