Episodes

  • Court Keeps GE on Vineyard Wind, France Plans Huge Wind Farm

    Court Keeps GE on Vineyard Wind, France Plans Huge Wind Farm
    Jun 8 2026
    Allen covers GE Vernova ordered to stay on Vineyard Wind, TotalEnergies filing for France’s largest renewable project, Spain’s repowering grants, and Dajin’s Hong Kong stock debut. Sign up now for Uptime Tech News, our weekly newsletter on all things wind technology. This episode is sponsored by Weather Guard Lightning Tech. Learn more about Weather Guard’s StrikeTape Wind Turbine LPS retrofit. Follow the show on YouTube, Linkedin and visit Weather Guard on the web. And subscribe to Rosemary’s “Engineering with Rosie” YouTube channel here. Have a question we can answer on the show? Email us! Good Monday. Wind energy made news this week from Boston courtrooms… to the coast of Normandy … to the stock exchange floors of Hong Kong. Let us start in Massachusetts. A Boston judge has once again told GE VERNOVA it cannot walk away from VINEYARD WIND. To understand why GE VERNOVA wants out… you have to look at the money. VINEYARD WIND owes GE VERNOVA three hundred and sixty million dollars on a one-point-two-billion-dollar turbine supply contract. VINEYARD WIND is withholding that payment. GE VERNOVA says it has the contractual right to walk when it is not paid. In February, they sent VINEYARD WIND a termination notice. VINEYARD WIND sued. In April, Judge PETER KRUPP issued an injunction ordering GE to stay. GE VERNOVA came back and asked the judge to reconsider. Vernova pointed to statements from state officials and VINEYARD WIND’s own parent company describing the eight-hundred-and-six-megawatt project as essentially complete. If the project is done, GE argued, there is no harm in letting us leave. Judge KRUPP did not buy it. Here is why this matters so much to the Commonwealth of Massachusetts. VINEYARD WIND is the largest offshore wind project in New England. It is owned jointly by Spain’s IBERDROLA and Denmark’s COPENHAGEN INFRASTRUCTURE PARTNERS. It began initial operations just this past February… after the developer won a separate court fight to keep federal construction permits intact. Sixty-two turbines. A four-point-five-billion-dollar investment. The anchor project for offshore wind in the entire region. The judge found that GE VERNOVA’s proprietary expertise is still needed to bring those turbines to full operational capacity. Pull GE’s more than two hundred employees and subcontractors off the job… and the project’s financing structure could collapse. Massachusetts Governor MAURA HEALEY has weighed in publicly. The state has too much riding on this project to let it unravel in court. GE VERNOVA still has its appeal of the April injunction pending. But for now… the turbines keep turning. Now let us cross the Atlantic. Off the coast of Normandy, France… TOTALENERGIES has filed for government authorization of a massive offshore wind farm called CENTRE MANCHE ENERGIES. This will be France’s largest renewable energy project… ever. One-point-five gigawatts of offshore wind. Located more than forty kilometers off the Normandy coast. Four-point-five billion euros in investment. Up to twenty-five hundred construction jobs over three years. Once running, the wind farm will generate roughly six terawatt-hours of clean electricity per year… enough to power more than one million French homes. TOTALENERGIES was awarded this project by the French government eight months ago. Filing for authorization is the next milestone on the path to construction. Meanwhile… across the Pyrenees in Spain… The Spanish government has awarded grants for eighty wind repowering projects totaling two-point-four gigawatts of capacity. With Nearly four hundred and sixty million euros in subsidies. The goal: replace older turbines with more efficient technology by twenty-thirty. The names on the award list read like a who’s who of European wind energy. IBERDROLA… STATKRAFT… EDP… ENEL GREEN POWER… NATURGY… RWE … and others. IBERDROLA alone picked up four hundred megawatts of new capacity. And this repowering wave is not just replacing old machines. Some projects are swapping out turbines that were once the industry standard… one-point-five and two-megawatt machines… for the far more powerful equipment available today. The industry is not just building forward. It is rebuilding smarter. And finally… a story from the other side of the world. A Chinese manufacturer of offshore wind foundations and towers called DAJIN HEAVY INDUSTRY made its debut on the Hong Kong Stock Exchange this past Friday. The share sale raised up to eight hundred and forty-seven million dollars. DAJIN claims a notable distinction: it says it ranked as Europe’s largest offshore wind foundation supplier by monopile sales value in the first half of twenty twenty-five. The company plans to use more than half the proceeds to expand its deep-sea wind power services… and one-fifth to build an assembly facility in Europe. As we know wind energy is continues to push forward. On...
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    3 mins
  • Green Eagle Automates 70 GW of Renewable Assets

    Green Eagle Automates 70 GW of Renewable Assets
    Jun 4 2026
    Alejandro Cabrera Muñoz, co-founder and CEO of Green Eagle Solutions, returns to discuss automating 70 GW of renewable assets and why operators are self-operating their fleets. Reach out to sales@greeneaglesolutions.com to learn more! Sign up now for Uptime Tech News, our weekly newsletter on all things wind technology. This episode is sponsored by Weather Guard Lightning Tech. Learn more about Weather Guard’s StrikeTape Wind Turbine LPS retrofit. Follow the show on YouTube, Linkedin and visit Weather Guard on the web. And subscribe to Rosemary’s “Engineering with Rosie” YouTube channel here. Have a question we can answer on the show? Email us! Welcome to Uptime Spotlight, shining light on wind energy’s brightest innovators. This is the progress powering tomorrow Allen Hall: Alejandro, welcome back to the program. Alejandro Cabrera Muños: Thank you so much, Allen. It’s a pleasure to be here. Allen Hall: Well, so last time we talked, you had so much happening at Green Eagle, and it is, uh, amazing to watch the progress there. You’ve been around for quite a while now. You started, what, in 2011 working on SCADA systems. Uh, uh, there’s been a lot of evolution since then. Walk me through, like, the process where you thought, “Hey, there’s a business here.” Alejandro Cabrera Muños: Of course. Uh, we actually started officially back in 2012. It’s been a, quite a, of a long journey to, to get here. Uh, yeah, we started, uh, back, back then. We say it’s a whole new world, right? If we look backwards, like, almost 15 years. Makes me, makes me feel, like, extremely [00:01:00] old. Uh, but ne- nevertheless, um, yeah, back then we were trying to, to cover, like, a lot of issues that were based on OEM SCADAs, which by the way, we still are dealing with. But, but that, that was starting point. It was, um- It was, uh, based on understanding that the, the renewable energy industry is so complex. Every wind farm, every solar plant has different issues, different systems. Even, even the same models from the same manufacturer sometimes have complete different systems, which complicates everything. So it was very exciting to, to start our careers in a, in an industry where nothing is standard and where everyone is looking for something that is standard. So that’s, that’s where we fit in. Um, yeah, and in these years, we, we started basically creating the f- the foundations, uh, uh, on top of, uh, SCADA systems. [00:02:00] But as soon as we had that, those foundations, we realized that this sector is not gonna evolve, uh, it’s gonna cope up with the complexity, uh, of the technical complexity, market volatility, regulatory compliance. That’s not gonna be solved by just having more SCADAs. So we created a layer of automation in place, which is basically what we’ve been, um, evolving in the last 10 years now, um, with the, with the mindset and with the goal that every wind turbine should be running autonomously without having to have people behind it, uh, supervising and taking control of it. Allen Hall: Yeah, and that’s a great founding idea, but that has grown from an idea to you’re automating, what, 40 gigawatts of renewable assets right now? Alejandro Cabrera Muños: Oh, we’re actually now connected to over 70 gigawatts. Allen Hall: That’s amazing. Alejandro, that’s incredible. Alejandro Cabrera Muños: And all of them are different. Allen Hall: Sure. So that, that’s a combination– 70 gigawatts is a combination of wind and solar and anything else? Alejandro Cabrera Muños: Yes. [00:03:00] Well, actually, one of the, one of the main, um, needs that we try to cover from day one is to be able to connect to all, um, asset classes. So we understand that, um, the challenge of operating a large portfolio for our customers, um, can only be solved if we have the ability to connect to all type of asset classes. So we can have to connect to wind turbines, inverters, trackers, substations, um, energy meters, you name it. You– we have to connect to every single asset class, um, because what’s important is how you manage that data on top of that and how you react on the anomalies. Allen Hall: Right. Because I think a lot of operators are now considering taking your model, the Green Eagle model of s-self-operating, but they need that help, they need that insight into the operation of a solar farm or a wind farm or, or any of those assets, renewable assets, ensure those inverter-driven assets. You’re, you’re seeing– I, I think we’re seeing the same thing, which is a lot of operators decide to [00:04:00] leave full service agreements globally, and what do you think is driving that now? Uh, is it a financial decision? Is it a performance decision, or is it both? Alejandro Cabrera Muños: I think there are many factors, but I think the main driver is the financial aspects of it. I think when you, when you delegate the operations...
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    33 mins
  • Ørsted Explores US Exit, Ming Yang Builds 20MW Turbine

    Ørsted Explores US Exit, Ming Yang Builds 20MW Turbine
    Jun 2 2026
    Ørsted closes its European offshore sale to CIP and weighs a $1 billion exit from the US market. Plus MingYang commissions a 20 MW offshore turbine, and ZF’s plain bearings log 36 GW with no measurable wear. Sign up now for Uptime Tech News, our weekly newsletter on all things wind technology. This episode is sponsored by Weather Guard Lightning Tech. Learn more about Weather Guard’s StrikeTape Wind Turbine LPS retrofit. Follow the show on YouTube, Linkedin and visit Weather Guard on the web. And subscribe to Rosemary’s “Engineering with Rosie” YouTube channel here. Have a question we can answer on the show? Email us! [00:00:00] The Uptime Wind Energy podcast, brought to you by StrikeTape, protecting thousands of wind turbines from lightning damage worldwide. Visit StrikeTape.com. And now, your hosts Allen Hall: Welcome to the Uptime Wind Energy podcast. I’m your host for today, Allen Hall, along with Matthew Stead, Rosemary Barnes, and Yolanda Padron. If you’re going to be in Houston for Clean Power 2026, mark Wednesday, June 3rd on your calendar. The Australian American Chamber of Commerce, Texas is hosting an invitation-only panel and networking reception with cocktails from 6:00 to 8:00 PM at the Houston Club, and I’ll be moderating. We’re bringing together Australian and US wind energy experts to compare notes on how two markets handle O&M, lightning risks, blade inspections, remote monitoring, and where operational gaps [00:01:00] are. The evening also marks the North American commercial launch of EOLOGIX-PING’s satellite-based lightning monitoring system, developed with Adelaide-based satellite IoT company, Myriota. So in joining me on the panel, our own Matt Stead, co-founder of EOLOGIX-PING, and Mark Norman, VP of Edge Solutions at Myriota, and Weather Guard’s Yolanda Padron. EOLOGIX-PING and Myriota have systems already deployed in Japan and Australia, and a little bit in the US here at Weather Guard, and they’re stepping into the North American market at American Clean Power with this advanced lightning monitoring product. So you’ll want to be there and see this new product introduced. It is an invitation-only event, so if you’re at Clean Power and want to be in the room, reach out to us on LinkedIn so we can get you on the list. Orsted finished selling off its European offshore wind business to Copenhagen [00:02:00]Infrastructure Partners, better known as CIP or as it’s a-affectionately called CIP. Now, Bloomberg reports the Danish company is exploring a sale of its US portfolio also, which includes a whole bunch of wind. It’s a decent amount of solar and battery storage in a deal that could bring more than about a billion dollars. Uh, the business generated more than one-fifth of Orsted’s total operating income just last year. Uh, meanwhile, uh, more than 50 US organizers are urging RWE CEO, Markus Kroeker, not to hand back over $1 billion in US offshore wind leases as part of a reported deal with the Trump administration. Uh, so the, the pattern is clear, everybody. European developers are being pushed towards the exit in the American market. The Ørsted situation’s been going on several months now. I, I think it’s pretty much common [00:03:00] knowledge, I would assume at this point. W- we’ve known for months, and I th- think a lot of people we’ve talked to have been saying Ørsted is prepping for a sale. The question is who? And the, the RWE getting rid of their offshore leases in the United States would be a little bit of a odd move. However, a billion dollars back in your bank account is probably a smart move today. So are the, the Germans and the Danish leaving America? Yolanda Padron: Ørsted’s still keeping their offshore in the US, right? Allen Hall: Yeah, I don’t know if they’ll be able to sell it off. They own it 100% at this point, right? All the partners have pulled out But I wonder if that’s on the auction block also. That it could be Matthew Stead: So why? Why are they, why are they selling? I mean, there has to be a reason. I mean, do they have better use for the money elsewhere, or do they just have lost faith in the, the USA? Allen Hall: It could be a combination of both, right? Both can be true at the same time. I do think the cash flow is an issue [00:04:00] for renewable energy companies at the minute, so if they can get some money back into the coffers and to get ready for the next big run of development, they probably should do it now. But things, especially it does seem a little bit on the slow side on the re- renewable development, except in the UK where it’s going crazy. Do you think then that they’re looking for American people to sell it to? Allen Hall: Or Canadian. If Ørsted sells their onshore business, uh, to CIP, it still remains in Danish hands, so it wouldn’t necessarily be a, uh, removal of the Danes from America, not, not quite. Matthew Stead: Yeah. I’m just a...
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    34 mins
  • ECP Buys TPI Blade Factories, GE Vernova Secures Blades

    ECP Buys TPI Blade Factories, GE Vernova Secures Blades
    Jun 1 2026
    Allen covers how private equity firm Energy Capital Partners ended up owning wind blade factories, TPI Composites’ bankruptcy, and the decades-long GE Vernova relationship behind the rescue. Sign up now for Uptime Tech News, our weekly newsletter on all things wind technology. This episode is sponsored by Weather Guard Lightning Tech. Learn more about Weather Guard’s StrikeTape Wind Turbine LPS retrofit. Follow the show on YouTube, Linkedin and visit Weather Guard on the web. And subscribe to Rosemary’s “Engineering with Rosie” YouTube channel here. Have a question we can answer on the show? Email us! Speaker: Happy Monday, everyone. Well, there is a company most people have never heard of quietly positioning itself at the very center of America’s energy future. Its name is Energy Capital Partners. It’s a private equity firm headquartered up in Summit, New Jersey. But to understand how ECP ended up owning wind blade factories, you have to start with gas turbines and a power company called Calpine. See, back in 2001, Calpine placed one of the most audacious turbine orders ever recorded, 203 GE gas turbines. enough to power 50,000 megawatts of base load generation. GE did [00:01:00] not just sell Calpine turbines. The two companies co-developed power plants together. GE co-owned facilities. Calpine held options to buy them back. It was a less a vendor relationship and more of a marriage. In 2018, Energy Capital Partners bought Calpine, All 77 power plants, 26,000 megawatts of generation capacity, and every long-term GE service agreement that came with it. And for the next seven years, ECP was GE’s single most consequential private sector gas turbine customer in the Western Hemisphere. That relationship, built on decades of iron and service contracts, would soon reach far beyond gas. Because on the other side of the energy world, a very different kind of company was falling apart, and that was TPI Composites. For years, the world’s largest independent maker of wind turbine blades. [00:02:00] facilities in Iowa, in Mexico, in India, and in Turkey. More than 9,600 employees worldwide. But the cracks were forming long before anyone said bankruptcy. First came the debt. TPI had borrowed heavily from Oaktree Capital Management and by the time the end arrived, the company owed Oaktree $476 million, secured against substantially all of its assets. Then came the customers. Nordex walked away from its Matamoros facility, shutting it down at the end of the second quarter of 2024. Then came customs. US Customs and Border Protection launched a review of TPI’s Mexico facilities under the Uyghur Forced Labor Prevention Act. TPI maintained its supply chain had no connection to forced labor, but the law did not care about confidence. Cared about proof, and while TPI worked to prove its innocence, a substantial portion of its Mexico-made blades could not cross the border into [00:03:00] the United States. The backlog told the story in numbers. At the end of 2024, there were $237 million in orders. One year later, $114 million in orders, cut nearly in half. On August 11th of last year, TPI filed for Chapter 11 bankruptcy, delisted from NASDAQ about eight days later. Now, when a company heads into bankruptcy, the first thing it has to solve is a very human problem. How do you keep the people who know how to run the place from walking out the door? Well, TPI’s board had an answer. Two months before the bankruptcy filing, the compensation committee approved retention bonuses for key executives, paid in cash within 30 days. The CEO, $1,225,000. The CFO, $518,000. The COO, [00:04:00] $487,000. And of course, the general counsel, $435,000. But there was one condition, you had to stay through restructuring. If you left early, you had to give it all back. Well, they stayed, at least most of them have. In the months that followed, TPI sold off its Turkish operations. Vestas moved quickly, claiming the India and Matamoros plants for roughly $24 million. And then the phone rang in Summit, New Jersey. GE Vernova needed its blade supply secured. It had a decades-long relationship with the firm on the other end of that call, a relationship forged not in composite factories, but in gas turbine halls. Through a newly formed entity called ECP Blade Holdings, Energy Capital Partners is acquiring TPI’s remaining North American assets , plants up in Newton, Iowa, down in Juarez, Mexico, for about $20 [00:05:00] million. The management team that had guided TPI through its darkest chapter came with it. And embedded in the transaction was a five-year supply agreement requiring GE Vernova to direct a defined share of its blade procurement exclusively to ECP-operated facilities. Well, if this deal had fallen apart, GE Vernova itself was contractually bound as a backup buyer, obligated to step in and at least purchase the Iowa plant for $21 million. GE Vernova was simultaneously ECP’s partner, its ...
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    3 mins
  • EchoBolt’s BoltWave Makes Bolt Inspections Easy

    EchoBolt’s BoltWave Makes Bolt Inspections Easy
    May 28 2026
    Pete Andrews from EchoBolt joins to discuss ultrasonic bolt inspection, the Bolt Wave device, and blade stud defect detection. Sign up now for Uptime Tech News, our weekly newsletter on all things wind technology. This episode is sponsored by Weather Guard Lightning Tech. Learn more about Weather Guard’s StrikeTape Wind Turbine LPS retrofit. Follow the show on YouTube, Linkedin and visit Weather Guard on the web. And subscribe to Rosemary’s “Engineering with Rosie” YouTube channel here. Have a question we can answer on the show? Email us! Welcome to Uptime Spotlight, shining light on wind. Energy’s brightest innovators. This is the Progress Powering tomorrow. Pete Andrews: Pete, welcome to the program. Good to be back. Yeah. See you face to face. Yeah. Yes. This is wonderful. It’s a really great event to catch it with loads of the. UK innovation that are happening in the supply chain. So it’s, yeah, really nice to be here. Allen Hall: This is really good to meet in person because we have seen a lot of bolt issues in the us, Canada, Australia, yeah. Uh, all around the world and every time bolt problems come up, I say, have you called Pete Andrews and Echo Bolt and gotten the kit to detect bolt issues? And then who’s Pete? Give me Pete’s phone number. Okay, sure. Uh, but now that we’re here in person, a lot has changed since we first talked to you probably two years ago.[00:01:00] You’re a bootstrap company based in the UK that has global presence, and I, I think it’s a good start to explain what the technology is and why Echo Bolt matters so much in today’s world. Pete Andrews: Yeah, absolutely. So, um, as you said, we’re a uk, um, SME, there’s a team of 13 of us based here in the uk. Yeah. But we do deliver our services internationally, but really focused on Northern Europe. Yeah. But increasingly we’ve done more in the US and North America, a little bit in Canada. Um, but our big offering really is to help wind turbine operators and owners reduce the need to routinely retire in bulks. So we have a quick and simple inspection technology that people can deploy, find out the status of their bolt connections, and then. Reti them if necessary, but the vast majority of the time we find that they’re static and absolutely fine and can be left [00:02:00] alone. So it’s a real big efficiency boost for wind operators. Joel Saxum: Well, you’re doing things by prescription now, right? Instead of just blanket cover, we’re gonna do all of this. It’s like, let’s work on the ones that actually need to be worked on. Let’s do the, the work that we actually need to, and instead of lugging, like we’re looking at the kit right here, and I can, you can hold the case in one hand, let alone the tools in a couple of fingers. As opposed to torque tensioning tools that are this big, they weigh a hundred kilos, and those come with all of their own problems. So I know that you guys said you’re, you’re focused here. You do a lot of work, um, in the offshore wind world as well. Yeah. I mean, offshore wind is where you add a zero right? To zeros. Yeah. Everything else is that much more complicated. It costs that much more. It’s you’re transitioning people offshore to the transition pieces. Like there’s so much more HSE risk, dollar risk, all of these different spend things. So. The Echo Bolt systems, these different tools that you have being developed and utilized here first make absolute sense, but now you guys are starting to go to onshore as well. Pete Andrews: Yeah, that’s right. So I mean, as as you said, that there’s really [00:03:00] three main benefit areas we focus on. The first one is the health and safety of technicians, right? As you said, some of the fasteners used offshore now are up to MA hundred. So a hundred millimeter diameter bolts, Joel Saxum: four inches for our American friends. Yeah, absolutely. Pete Andrews: And they probably weigh. 30 kilos plus per bolt. Yeah. Um, so just the physical manual handling of that sort of equipment and the tightening equipment for those bolts is a huge risk for people. If you think 150 bolts lifting or maneuvering, the tooling around on on its own can cause all the problems. So as well as the inherent risk of the hydraulic kit failing. So occasionally we see catastrophic tool failure. Is, which have really high potential severity, you know, sort of tensioner heads ejecting or crush injuries from Tor. So that is really a key focus for our customers, just to [00:04:00] keep their teams safe, but also you have to be the cost effective and the the major cost benefit we allow is that we don’t have to revisit every bolt and every turbine like you’d have to do if you were retyping. So we believe there’s something of the order of a million pounds per installed gigawatt saving. By moving from a routine REIT uh, maintenance strategy to a focused condition based inspection, you significantly...
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    22 mins
  • NextEra Buys Dominion, China Outpaces Vestas

    NextEra Buys Dominion, China Outpaces Vestas
    May 26 2026
    NextEra’s $67B all-stock Dominion deal targets data center alley. Plus China’s top five each outpace Vestas, and 80% of Swedish wind producers ran at a loss. Sign up now for Uptime Tech News, our weekly email update on all things wind technology. This episode is sponsored by Weather Guard Lightning Tech. Learn more about Weather Guard’s StrikeTape Wind Turbine LPS retrofit. Follow the show on Facebook, YouTube, Twitter, Linkedin and visit Weather Guard on the web. And subscribe to Rosemary Barnes’ YouTube channel here. Have a question we can answer on the show? Email us! [00:00:00] The Uptime Wind Energy podcast, brought to you by StrikeTape, protecting thousands of wind turbines from lightning damage worldwide. Visit striketape.com. And now, your hosts Speaker 6: Welcome to the Uptime Wind Energy podcast. I’m your host, Allen Hall, and I’m here with three other people, Matthew Stead, Rosemary Barnes, and, uh, Yolanda Padron down in Texas. Uh, we’re all getting ready to go to American Clean Power in Houston, Texas, where it will be practically 150 degrees and 99% humidity, and we’re all looking forward to those warm, wet days that we will spend It is very similar to New Orleans. New Orleans was also very warm and very humid. So there’s a trend going on here with American Clean Power, although we were up in Minneapolis not too long ago, uh, but I guess we were in Phoenix too, so we gotta find a middle ground, everybody. Can we go someplace like– [00:01:00] Rosemary says we should always go to the Maldives, Tahiti. I got a lot of requests from Tahiti from people. We never go there. We never go to Hawaii. Rosemary Barnes: I’ve suggested Hawaii so many times, and I’ve been told that Americans are not gonna be given permission from their manager to go to Hawaii. Speaker 6: It’s kinda like Las Vegas. Rosemary Barnes: Maybe one day we’ll make it to San Diego or something and get, um, beach adjacent facility And if your presentation is too boring, then everyone will be at the beach. So that will be how we ensure quality control of the speakers, which is a big problem at these events now, right? Like you can’t, um, there’s– It’s more like the norm is fairly boring sales pitches rather than informative discussion. Speaker 6: We used to have OMNS, when I say we, I mean the wind community used to have OMNS out in San Diego in Coronado at the Del Coronado is, I think that’s the hotel name. And the one time that I went, I think I’ve been [00:02:00] there, I would say one time, uh, everybody was outside on the, at the beach, basically on the patio. So they’re holding all these talks and discussions, and it’s… I’m looking around, it’s like me and five other people. Everybody else is out there next to the water. So they had a problem with that. So I guess what they figured, either make it really cold or make it really hot, so it forces everybody into the climate-controlled conditions of, uh, the, uh, auditorium to watch the speakers. Maybe that’s the, the plan. All right. Let’s, let’s, let’s talk about what happened with NextEra and Dominion because there’s going to be a huge merger. So if you thought utility business was boring, it’s not anymore. NextEra announced a sixty-seven billion dollar all-stock deal to acquire Dominion Energy, a move that would create the largest regulated electricity utility in the world by market cap. Uh, [00:03:00] the combined company would serve about ten million customers accounts across Florida, Virginia, North Carolina, where I’m based, and South Carolina with one hundred and ten gigawatts of generation across renewables, nuclear, and natural gas. Uh, but the real driver here is data centers, of course. Dominion sits in the heart of Virginia’s data center alley, where it has connected more than four hundred and fifty data centers, and NextEra is building thirty data center hubs through its NextEra Energy Resources subsidiary and has partnered with Google Cloud on paired generation campuses. So together, they would control about a hundred and thirty gigawatts of large load pipeline. And the question is whether the regulators will let it happen. And I think that’s, having watched some of the news articles over the last several days, uh, the news broke pretty much Sunday morning or late Saturday night that this was happening and [00:04:00] The first thing that came to mind, are the regulators going to let it happen? And the concern is going to be, and you can well imagine how this plays out, they’re going to drag Dominion and NextEra up to Washington, D.C. and berate them about how electricity rates cannot increase due to data centers. And if they don’t swear to that, then this merger won’t happen. That’s my interpretation of what’s about to happen. It may not, but how does this play out? How does everybody else on the team at Uptime see this play out? Matthew Stead: Seems ...
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    32 mins
  • Australia’s $17B Grid Expansion, Recycling Blades to Steel

    Australia’s $17B Grid Expansion, Recycling Blades to Steel
    May 25 2026
    Allen covers Suzlon hitting 2 GW in a single Indian state, Nabrawind’s crane-free turbine install in Namibia, Antora’s South Dakota thermal battery, Australia’s $17 billion grid expansion, and Shimizu recycling old turbine blades into steel. Sign up now for Uptime Tech News, our weekly email update on all things wind technology. This episode is sponsored by Weather Guard Lightning Tech. Learn more about Weather Guard’s StrikeTape Wind Turbine LPS retrofit. Follow the show on Facebook, YouTube, Twitter, Linkedin and visit Weather Guard on the web. And subscribe to Rosemary Barnes’ YouTube channel here. Have a question we can answer on the show? Email us! GOOD MORNING. The wind industry is not just getting bigger. It is getting smarter. And today … we have the proof. Let us start in India. SUZLON GROUP just crossed a milestone. Two gigawatts of wind orders … in a single Indian state. The latest deal … sixty-five turbines at three megawatts each for a company called SUNSURE ENERGY. SUNSURE is not a utility. It is an independent power producer building round-the-clock clean energy for data centers … electric vehicles … and heavy industry. Wind paired with solar and battery storage. Power that does not stop when the sun goes down. SUZLON is already building six hundred and sixty-four megawatts of additional commercial and industrial projects in the same region. And SUNSURE … backed by PARTNERS GROUP of Switzerland … has seven gigawatts in development across India with a target of ten gigawatts by two thousand thirty. That is not government-led. That is private capital chasing wind. Now … across the ocean to Africa. A Spanish company called NABRAWIND [NAH-brah-wind] just solved a problem that has plagued remote wind farms for years. How do you install a turbine when you cannot get a crane to the site? Their answer is a system called SKYLIFT. No heavy-lift cranes. None. A self-erecting tower combined with a blade installation tool they call the BLADERUNNER. They just put up a GOLDWIND six-megawatt turbine at a wind farm in NAMIBIA. And here is the part that changes the math. Traditional crane installation needs calm air. Six to eight meters per second. Maximum. NABRAWIND’s system works in fifteen meters per second sustained … with gusts up to twenty. That site blows hard. All the time. Which is exactly why they chose it. When complete … seven turbines … two hundred and thirty gigawatt-hours a year. About six percent of NAMIBIA’s entire electricity demand. NABRAWIND was acquired by Australia’s FORTESCUE last year as part of its industrial decarbonization push. So India is stacking private-sector wind orders. Africa is installing turbines without cranes. And in SOUTH DAKOTA … they are storing the wind itself. A California startup called ANTORA ENERGY just built a five-gigawatt-hour thermal battery at an ethanol plant in BIG STONE CITY. More than two hundred solid carbon blocks. When the wind blows at night and nobody needs the power … the blocks absorb cheap electricity and heat up. When the plant needs energy … the blocks release heat or generate electricity through special cells that capture light from superheated material. Think of it as a giant toaster oven battery. Full power expected by October. The plant’s president put it simply. Nobody has got a switch for the wind. It blows when it wants to blow. Now … down under. The AUSTRALIAN government just announced the biggest single expansion of its electricity grid. Nineteen renewable energy projects. Seven-point-eight gigawatts of generation. Seven-point-nine gigawatt-hours of battery storage. Seventeen billion dollars in private investment. Nineteen thousand construction jobs. Power for four million homes. Among the largest … RWE’s [arr-vay’s] THEODORE wind farm in QUEENSLAND. One-point-one gigawatts. Up to one hundred and seventy turbines. Three billion Australian dollars. RWE … the same company building offshore wind in England and Denmark … is now building onshore in AUSTRALIA. And the AUSTRALIAN government is not stopping. They just opened the next round of tenders. Another five gigawatts. Finally … JAPAN. Major contractor SHIMIZU [shee-MEE-zoo] CORPORATION has developed a way to recycle old wind turbine blades. Not into park benches. Not into landfill. Into steel. The blades are cut and crushed into a material that goes into electric furnaces to adjust the carbon content of steel … making it harder and stronger. JAPAN expects to replace one hundred to two hundred turbines a year by the two thousand thirties. That is two to three thousand tonnes of blade waste. Annually. SHIMIZU has built about twenty percent of the wind power facilities in JAPAN. They see this technology as a way to grow their entire wind energy business. So … let us step back. India stacks two gigawatts of private-sector wind orders. Africa installs turbines in gale-force winds … without a crane. ...
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    3 mins
  • MotorDoc Finds Bearing and Gearbox Faults in Minutes

    MotorDoc Finds Bearing and Gearbox Faults in Minutes
    May 21 2026
    Howard Penrose of MotorDoc joins to discuss current signature analysis, uptower circulating currents wrecking main bearings, and full drivetrain scans in minutes. Reach out at info@motordoc.com or on LinkedIn. Sign up now for Uptime Tech News, our weekly email update on all things wind technology. This episode is sponsored by Weather Guard Lightning Tech. Learn more about Weather Guard’s StrikeTape Wind Turbine LPS retrofit. Follow the show on Facebook, YouTube, Twitter, Linkedin and visit Weather Guard on the web. And subscribe to Rosemary Barnes’ YouTube channel here. Have a question we can answer on the show? Email us! Howard Penrose: [00:00:00] Welcome to Uptime Spotlight, shining light on wind energy’s brightest innovators. This is the progress powering tomorrow. Allen Hall: Howard, welcome back to the program. Howard Penrose: Hey, thanks for having me. Allen Hall: It’s about time everybody realizes what motorDoc can do. There’s so much technology, and I’ve been watching- Yeah … your Chaos and Caffeine podcast on Saturday morning, which are full of really, really good information about the motorDoc as a company, all the things you’re doing out in the field, and how you’re solving real-world problems, not imaginary ones- Yeah real-world problems. Oh, yeah. Yeah, and Howard Penrose: whatever annoys me that week. Exactly. And, and whatever great coffee I’m trying out. Yes. Except for a few. We’ve had the ReliaSquatch down our- Yes … um, a couple of times. Uh, yeah, no, I, I enjoy it, and we gotta get you on there sometime. I don’t do- I, it- … a lot of interviews other than an AI character we put in. Allen Hall: It’s a very interesting show because you’re [00:01:00] getting a little bit of comedy and humor and s- Yeah … and a, and a coffee review, which is very helpful because I’ve tried some of the coffees that you have reviewed, that you’ve given the thumbs up to. But if you’re operating wind turbines and you’re trying to understand what’s happening on the drivetrain side, on the generator, everything out to the blades even, main bearings, gearboxes- Yeah all those rotating heavy, expensive parts, there’s a lot of ways to diagnose them- Howard Penrose: Yes … Allen Hall: that are sort of like we can look at a gear, we can look at a joint, we can look at roller bearings, whatever, but motorDoc has a way to quickly diagnose all of that chain in about- Yeah … 15 seconds. Howard Penrose: Well, a little longer than 15 sec- more like a minute. A minute, okay. It feels like paint drying. But- Uh, in any case, yeah. Uh, uh, and, and what’s kind of funny is, um, back in the ’90s, uh, EPRI actually accidentally steered the technology away from its [00:02:00] core purpose, which was in 1985, um, NAVSEA, the US Navy, had done research on using current signature analysis for looking at pumps, fans, and compressors, the bearings, the belts, the components, all the rotating components using the motor as the sensor. Not too much different than we are now. I mean, mind you, we got better resolution now, we’ve got, uh, more powerful– I mean, I look at my data from the ’90s, and now it’s completely different. Um, and then Oak Ridge National Lab, same thing, bearings and gears in motor-operated valves. So in 2003, we were the first ones to apply electrical and current signature analysis to some wind turbines in the Mojave Desert. Wow. Yeah. So, um, nobody had tried it before. Everybody said it couldn’t be done. And, uh, that was a bad thing to say to me because- … it meant I was gonna get it [00:03:00] done. Right. At that time, um, we were looking at bearing issues and some blatant conditions with the, um, with the, uh, generator using a technology called Altest, ’cause I was with Altest at the time. And, uh, I had taken an EMPath software and blended it with a, a power analyzer, and they still have that tool to this day. I was using that technology all the way through 2015. 2016, I should say. And then- And then switched over to the pure EMPath, which was more of an engineering tool. And then more recently, in 2022, uh, made the decision to ha- to take all the work we’d done on over 6,000 turbines, uh, looking at how we were looking at the data and what we were doing on the industrial side, and took a, uh, created a current signature analyzer that would do one phase of current to analyze the entire powertrain. Allen Hall: So when you tell [00:04:00] operators you can do this magic, I think a lotta times they gotta go, “ Howard Penrose: What?” Oh, yeah, yeah. They don’t understand it because they’re used to vibration- Right … which is a point analysis system. Right. Allen Hall: Vibration at this- Yeah … particular location. Yeah. One spot- Even if it’s- … or a couple Howard Penrose: spots triax, they’re reading through material, up through a transducer. Hopefully, they put it above ...
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    27 mins