Episodes
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Antoine Larvol, CTO of Windar Photonics, discusses how their continuous wave LiDAR technology enhances wind turbine performance through optimization and monitoring, increasing AEP and reducing loads, particularly for legacy turbines.
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!
Welcome to Uptime Spotlight, shining light on wind. Energy's brightest innovators. This is the Progress Powering Tomorrow.
Alright, we're here in Phoenix, a CP, clean power, uh, 2025. So I'm, uh. Sitting with Antoine Larvol from, he's a CTO from Windar. Yep. Welcome to the show. Thank you. Uh, we've been, uh, happy enough to get actually to sit inside your booth where it's nice and qui. Quiet and isn't it nice? Yeah. We got glass behind the camera here and people are walking by, walking by, walking by.
Um, so this morning, uh, we, we talked yesterday a little bit about what wind photonics does. Yep. Of course, from our, uh, some of our other friends around the world. We've heard about some, some campaigns you've done in the United States, which have been. Really successful. So yeah, congrat good. Congratulations there.
Yeah, thank you. Um, and, and as, as a lot of things in the wind industry, Windar, photonics based in Denmark.
Antoine Larvol: Yeah.
Joel Saxum: So you guys, uh, bring it, bring in that Danish [00:01:00]technology. We're here, of course, bringing it to the US market at a CP, the American Clean Power Show. So welcome to the States. Thank you. Um, it's a short one, but a
Antoine Larvol: good one.
Yeah, yeah, yeah,
Joel Saxum: exactly. So, so I want to talk a little bit about what Windar photonics and, and it is a LIDAR based sensor, correct?
Antoine Larvol: Yes. Right. So. We do continuous wave base, uh, lidar. Yep. Uh, main product is a two beam version mm-hmm. Where you shoot, uh, at 80 meters in front of the turbine. Mm-hmm. And you basically alternate from one beam to the other.
And measure wind speed and direction upfront, the, the turbine among others.
Joel Saxum: Right. So we're talking about, uh, if you, if you're in the wind industry, you've ever seen these lidar units that are put actually, you're the cell mounted, correct? Yes. Okay. Yeah. So, and, and, uh, we're looking more on the optimization, retrofit monitoring side of things.
Yeah,
Antoine Larvol: exactly. So we've never been a resource assessment company. Yeah. Or we don't look at power curve verification and stuff like that. We really [00:02:00] focus on. Retrofitting those, existing turbines. And then add value to In terms of information to, the customer, Yeah. With the mon monitoring side of things.
Yeah. And, from day one, that's been the goal of Windar Making something cheap, robust. That can just stay there and measure with good availability, wind speed, and direction coming to your turbine.
Joel Saxum: I love it. so we wanna squeeze as much as we can outta these turbines. And you guys are increasing AEP that's, the name of the game.
Yeah. Right.
Increasing AEP below rated. and then above rated you decrease loads. Increase uptime. and we basically do that by going on the line of the wind direction. that you then feed to the turbine controller and then we can actually adjust the, yaw position of the turbine according to our information.
So I want to talk a little bit, we, we chatted a little bit offline about the, technology behind it, right? Yep. And people in the wind industry, if you're around the wind industry around resourcing or you're around optimization, you've heard [00:03:00] lidar. Yep. You know what I mean? And, -
This episode covers the UK's Crown Estate's offshore wind investments, drone threats to wind turbines, and Nordex's 40th anniversary. It also highlights TotalEnergies winning a German offshore wind auction and Pemamek's advanced welding capabilities.
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!
You are listening to the Uptime Wind Energy Podcast brought to you by build turbines.com. Learn, train, and be a part of the Clean Energy Revolution. Visit build turbines.com today. Now, here's your hosts. Allen Hall, Joel Saxum, Phil Totaro, and Rosemary Barnes.
Allen Hall: Well, we're back with another edition of the Uptime Wind Energy podcast.
I got Rosemary Barnes in Australia, Phil Totaro in Warm and sunny California, and Joel Saxon in practically hell in temperature in Austin, Texas. I was just down in Dallas, Texas a day ago, and man, is that hot. There's just like a, a certain kind of heat, you know, you need to get indoors pretty quick. Texas heat is really bad right now.
Joel Saxum: You know, one thing I didn't know about this area out here west of Austin, like in the Hill country, it's actually really windy out here. Like there's a steady wind all the time that, and you don't hit [00:01:00] wind farms for another like three hours when you had West, like the first ones. But it's like, I lived in Houston and Texas and it was pretty dormant most of the time, but it, there's constant wind here as the temperatures change throughout the day.
All the time explains all the wind turbines.
Rosemary Barnes: Yeah, you sound like me when I moved to Denmark and I'm like, why do I have to live in this windy place?
Allen Hall: So we have a birthday to celebrate and no, it's not Rosie's birthday. It's Nord Deck's birthday and it's celebrating their 40th anniversary and they've been around since 1985.
And some facts about Nordex that they published really interesting. They have developed 46 different onshore turbine types. Across the two companies, which was Nordex, SE, and Acciona. And That's amazing. So in 40 years, did those two companies now merge together A couple of years ago? Uh, is they have 46 different onshore term designs from 250 kilowatts up to seven megawatt machines.
Now Rosemary, I think this kind of high, [00:02:00] and congratulations to Nordex by the way. That's quite an achievement. It does highlight the rate of pace. For wind turbines from the mid eighties up till now. One new turbine a year is a lot.
Rosemary Barnes: Yeah. And it's not the hugest company, right. It's not like they've got a hundred thousand employees developing those, uh, that one new turbine every year.
So, yeah. Um. Nobody's been sitting around on their hands at that company.
Joel Saxum: They made it past the, is it, isn't it the rule of thumb, Alan? We talk about businesses like in the states, like if you make it past five years, you're, you're good
Allen Hall: al almost right? So most companies fail within the first year to three years.
It's, it's hard to make it to three, then five, then 10. If you can make it across 10, you have something worthwhile. It's gonna stick around for a little bit. And, and Nordics has.
Rosemary Barnes: What's weather guard at?
Allen Hall: Uh, we're at. Almost 2020.
Rosemary Barnes: Whew. An institution.
Allen Hall: An institution. Yeah. We need to beat an institution at this point.
And over in the uk, uh, the [00:03:00] UK's Crown Estate. Now this is an important story everyone. The UK's Crown Estate is making major investment commitments, uh, -
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Allen discusses US-UK tension over Chinese company Ming Yang's wind energy investment in Scotland, key offshore wind projects from HSM Offshore Energy and Great British Energy, Turkey's ambitious wind energy goals, and new leadership at the Global Wind Energy Council.
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!
There's tension between the US and UK over Chinese wind energy investment.
The US government has raised security concerns about plans by Chinese company Mingyang to build a wind turbine factory in Scotland.
Trump administration officials warned the UK about what they call national security risks. The factory would supply wind farms in the North Sea.
UK ministers are now reviewing whether to block the project. They're worried about cybersecurity and being too dependent on Chinese technology.
Security officials say Chinese wind turbines could contain electronic surveillance equipment. Mingyang is not state-owned, but critics worry the Chinese government could interfere.
Deputy First Minister Kate Forbes had said Scotland was open to the factory. But the Scottish Government is waiting for security guidance from Westminster.
A UK Government spokesperson said they would never let anything threaten national security. All energy investments face the highest security checks.
Construction has officially started on Belgium's major offshore energy project.
Workers cut the first steel this week at a factory in the Netherlands. They're building parts for the Princess Elisabeth hub. The artificial island will sit twenty-eight miles off the Belgian coast.
The project will transport at least two point one gigawatts of wind energy to the mainland. That's enough power for millions of homes.
HSM Offshore Energy is making high-voltage equipment at their Schiedam yard. Commercial director Hans Leerdam says this marks a key moment for European energy security.
The island will also connect Belgium to other European countries, including the UK. Final assembly will happen in Schiedam and Vlissingen.
Leerdam calls it one of Europe's most strategic energy projects moving from plan to reality.
The UK government has announced a massive boost for offshore wind energy.
Great British Energy is leading a one billion pound investment package. The money will fund wind turbine manufacturing, floating platforms, and port upgrades.
Three hundred million pounds comes from Great British Energy. The Crown Estate and private companies are adding another seven hundred million pounds.
The investment targets key regions including Teesside, South Wales, East Anglia, and Scotland. Officials say it will create thousands of skilled jobs.
The government is also offering up to five hundred forty-four million pounds through its Clean Industry Bonus. This encourages developers to invest in deprived areas.
The North East of England could receive up to two hundred million pounds. That might unlock four billion pounds in private investment.
Scotland gets up to one hundred eighty-five million pounds for ports and high-tech components.
The offshore wind expansion should support fourteen thousand new jobs over four years. Industry leaders believe this could boost the UK economy by twenty-five billion pounds by twenty thirty-five.
Turkey is planning a major expansion of its wind energy capacity.
The country aims to reach forty-eight gigawatts of wind power by twenty thirty-five.
Turkey currently has nearly fourteen gigawatts installed. That makes it the sixth largest wind power producer in Europe and twelfth in the world. -
Alejandro Cabrera Muñoz, CEO and founder of Green Eagle Solutions, discusses their ARSOS platform and how it helps wind farm operators manage technical complexities, market volatility, and regulatory changes by automating turbine issue responses for increased productivity and revenue.
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!
Wind Farm operators face mounting challenges from managing thousands of diverse turbines to navigating the energy markets and constant regulatory changes. This week we speak with Alejandro Cabrera Munoz, CEO, and founder of Green Eagle Solutions. Green Eagle's ARSOS platform gives control rooms immediate responses to turbine issues, which dramatically increases productivity and captures more revenue from their turbines.
Welcome to Uptime Spotlight, shining Light on Wind. Energy's brightest innovators. This is the progress powering tomorrow.
Allen Hall: Alejandro, welcome to the show.
Speaker 3: Thank you, Allen. Thank you for having me here today.
Allen Hall: so Green Eagle Solutions is in a unique space of the renewable energy marketplace, and you saw a problem several years ago, particularly in the control rooms of [00:01:00] wind operators. What is that problem that you identified?
Speaker 3: Yeah, Allen, I think it, it's, It's a challenge that, most of our customers, which are generally large operators, are facing today. But it's a challenge that have been, growing, in the past years. So first of all, it's, it goes along with the penetration of renewables in the industry, right?
So we have, due to all these many years of aggregating new wind farms and solar plants, We are seeing how the complexity, the technical complexity of operating and supervising these assets is growing exponentially, right? So we now have customers with thousands of wind turbines that have, different models, different versions of, controllers, And also different healthcare issues that they have to take care of. So the technical complexity is a fair, the first [00:02:00] factor that, it's has to be tackled from a control room, And, makes, operations quite, challenging. Along with this, we have market volatility. So in the recent years especially, we are seeing how, Negative pricing and optional markets are now affecting operations in a daily, basis. Basically in every 15 minutes you dunno if you're gonna produce or not. Up until recently it was as simple as if you had wind resource, you would produce energy from wind farms. If you had solar, you produce energy from solar plants.
It's not like that anymore. So the market is quite, volatile. that adds a lot of complexity from the commercial point of view of, Of the assets. And the last, factor that is actually becoming, an increasing challenge for everyone is the regulatory changes. So basically due to the penetration of renewable energies, what we see is that all governments, all grid operators and our market operators are constantly issuing [00:03:00] new adapt, new regulatory changes, that everyone has to adapt to no matter what.
it doesn't matter if you have an all wind farm or a newer wind farm. Or you prepared or not, like everyone has to be adapted to, to the new regulatory, changes. the three things are actually affecting, our customers and we are trying to solve all these issues, the way, the, best way that we can, right?
So most of our customers, we just have a control room full of people. they will do their best effort to accommodate these challenges. The reality is that we have to. Deal with, people, procedures, and, systems, and we, -
Register for the next SkySpecs Webinar! We discuss China's new 20MW floating turbine by CRRC, and Nordex's patent application for modular blade assembly. Plus HeliService USA's offshore ambulance service and the recent construction delays at Atlantic Shores and Vineyard Wind.
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!
Allen Hall: Our next SkySpecs webinar, if you missed the last one, about lightning protection and how to use SkySpecs, drone imaging and data, and the EOLOGIX-PING Lightning sensor to help yourself on the lightning side. You can actually watch that on the SkySpecs. Just go to SkySpecs and you can see that webinar.
It's free. All this stuff is free. It's all great stuff. All you need to do is register. You can get all this information. The next one is coming up on June 25th, 11:00 AM Eastern Time. And this next, webinar is gonna have Liam McGrath from RWE, who's a blade engineer there, and Tom Brady from SkySpecs, who handles all the cool drone technologies.
So if you haven't met Tom, you need to go to this webinar and find out what's going on. And Michael McQueenie from SkySpecs. It's the rule. Subject is when should you be scheduling your drone inspections and you shouldn't be doing it in the spring. That's really important. If you wanna save some money on your operational aspects, your [00:01:00] o and m budget, you need to be thinking about how to get your inspections done, when to get your inspections done, and what tools are available to you at different times a year.
So there's optimal times to get your drones inspected and there's suboptimal times. Suboptimal times is like March. Don't do it, then do it the previous fall. and so Joel will be there. I will be there. Don't miss it. It is June 25th. 11:00 AM and you can sign up in the show notes below.
Speaker 2: You're listening to the Uptime Wind Energy Podcast, brought to you by build turbines.com.
Learn, train, and be a part of the Clean Energy Revolution. Visit build turbines.com today. Now, here's your hosts. Alan Hall, Joel Saxon, Phil Totaro, and Rosemary Barnes.
Allen Hall: Welcome to the Uptime Wind Energy Podcast. I have Joel Saxo along and Rosemary Barnes from Australia and I've. Just been digging through all the news over the last several days.
Really disappointing news to the United States, but over [00:02:00] in China. TRRC has unveiled a 20 megawatt floating wind turbine, and it's, has a rotor diameter of 260 meters, which is not really outrageous. The CRRC press release, which is a little outrageous, let, me read you some of this, and it's called The Key Hung.
wind turbine, the key Hung, integrates multiple innovative control technologies offering four core advantages. High intelligence system, modularization, full chain collaboration. And Joel, don't we all want that? And exceptional stability. It incorporates various intelligent controls, sensing and detection technologies that design further enhances the unit's flexibility and efficiency by modularizing key system interfaces and structural components.
So there are a lot of words in this press release, but they don't say, actually say anything at all. So that's why we have Rosemary here to suss
Joel Saxum: out.
Allen Hall: What is happening with CRRC and a [00:03:00] 20 megawatt floating turbine? Is it really needed, Rosemary?
Rosemary Barnes: Yeah, I think I've made my thoughts clear about the, like bigger, kind of pursuit of, offshore wind turbines.
And I think that a lot of it is about prestige to be the, first with the biggest. and so I guess that this is the, -
Australia has approved the 943 MW Valley of the Winds Wind Farm, Bermuda plans to install an offshore wind farm with 17 turbines by 2027, and Nova Scotia proposes an ambitious $10 billion offshore wind project.
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!
Australia has given the green light to a massive wind project. The Independent Planning Commission in New South Wales has approved ACEN Australia's nine hundred forty-three megawatt Valley of the Winds wind farm. The project also includes a three hundred twenty megawatt battery storage system. The project will create up to four hundred construction jobs and fifty permanent positions. The investment is approximately one point six eight billion Australian dollars.
The island nation of Bermuda is making the most of its windy weather. Officials unveiled plans for an offshore wind farm starting with seventeen turbines by twenty twenty-seven. The project aims to help Bermuda reach its twenty thirty-five goal of eighty-five percent renewable energy. The project will begin with a sixty megawatt installation near the north shore. Officials hope to scale up to one hundred twenty megawatts total.
Nigel Burgess, head of regulation at Regulatory Authority Bermuda, calls offshore wind a compelling opportunity. The project will lower exposure to fuel price shocks and create space for long-term investment. Currently, Bermuda gets one hundred percent of its power from fuel burning. The project aims to promote energy independence by reducing dependence on imported fuels. The wind farm is expected to be operational by twenty thirty.
Nova Scotia has announced an ambitious offshore wind project that could cost up to ten billion dollars. Premier Tim Houston wants to license enough offshore turbines over the next ten years to produce forty gigawatts of electricity. That's eight times more than originally planned. To put this in perspective, Nova Scotia with just over one million people requires only two point four gigawatts at peak demand. China's offshore wind turbines were producing just under forty-two gigawatts as of last year.
The project would require hundreds of wind turbines built in water about one hundred meters deep, about twenty-five kilometers offshore. Experts say the project would actually need more than four thousand offshore turbines using current fifteen megawatt turbines. The transmission line alone is estimated to cost between five billion and ten billion dollars to connect the wind farms with the rest of the country.
The premier calls it a concept to capture the imagination of Nova Scotians. He wants federal help to cover costs, saying the excess electricity could supply twenty-seven percent of Canada's total demand. -
Howard Penrose from MotorDoc discusses their electrical signature monitoring for wind turbines that offers precise diagnostics, enabling cost-effective preventative maintenance and lifetime extension.
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!
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 show. Thank you. Well, we've been traveling a, a good deal and talking to a lot of operators in the United States and in Europe, and even in Australia. And, uh, your name comes up quite a bit because we talk to all the technical people in the world and we see a lot of things. And I get asked quite a bit, what is the coolest technology that I don't know about?
And I say, Howard Penrose MotorDoc. And they say, who? And I say, well, wait a minute. If you want something super powerful to learn about your turbine, that is easy to implement and has been vetted and has years of in-service testing and verification. It is MotorDock, it is [00:01:00] empower for motors, it is empath for systems and vibration and all the other things.
And now empath, CMS, which is a continuous monitoring system that you're offering that those systems are revolutionary and I don't use that word a lot in wind. It's revolutionary in wind and. Let, let me just back up a little bit because I, I want to explain what some of these problems are that we're seeing in the field and, and what your systems do.
But there's a, the, the core to what your technology is, is that you're using the air gap between the rotor and the stator and the generator to monitor what's happening inside the turbine. Very precisely. Can you just provide a little insight like how that magic happens?
Howard Penrose: Okay. It's, it's basically, we use it as an, as a basic accelerometer.
So, um, the side to side movement of the, of the rotor inside the air gap. Um. I could get very technical and use the word [00:02:00] inverse square law, but basically in the magnetic field I've got side to side movement. Plus every defect in the powertrain, um, causes either blips or hesitations in the rotation.
Basically, the torque of the machine, which is also picked up in the air gap, and from a physics standpoint. The air gap, the magnetic field, can't tell the difference. And, um, both voltage and current see that as small ripples in the wave form, and then we just pull that data out. So, um, uh, I, I liken it exactly as vibration.
Just a different approach,
Allen Hall: right? And that that vibration turns into little ripples. And then I'm gonna talk electrical engineering, just for a brief moment, everybody. We're taking it from the time domain to the frequency domain. We're doing a four a transform. And in that four a transform, you can see these spikes that occur at, uh, known locations that correlate back to what the machine is doing
Howard Penrose: exactly.
[00:03:00] They're they're exact calculations, uh, down to the hundred or even thousandths of a hertz. Uh, so, uh, when we, when we do the measurements, they come up as side bands around, uh, whatever. The, the, uh, signature is, so the amplitude modulation, it's an amplitude modulated signal. So I have, uh, basically the ripple show up on the positive side of the waveform and on the negative side of the waveform.
So around everything, I just have plus and minus line frequency. That's, that's basically the primary difference. Then we just convert it over to decibels, which makes it, um, relational to the load, -
The hosts discuss the recent $62 million funding round for Aerones, Siemens Energy's call for increased offshore wind capacity in the UK, Canada's push for offshore wind with Bill C-49, and the installation of Vestas' 7.2 MW turbine in Germany. And the Coyote Wind Farm in Texas as the Wind Farm of the Week.
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!
You are listening to the Uptime Wind Energy Podcast brought to you by build turbines.com. Learn, train, and be a part of the Clean Energy Revolution. Visit build turbines.com today. Now here's your hosts, Alan Hall, Joel Saxon, Phil Totaro, and Rosemary Barnes.
Allen Hall: And welcome back to the Uptown Wind Energy Podcast.
I'm here with Rosemary Barnes, Joel Saxon, and Phil Ro. Uh, crazy week. Again, I don't know how else to describe it. The, I was just telling our producer this morning that there's so much news coming out where it seemed like to be a little bit of a lull after the US House bill, but it's picked right back up again.
And one of the more exciting things that's happened is A owns closed a $62 million series B. Uh, led by Activate Capital and S two G with, uh, revenue growing at Aeros by about 300% in 2024, and they are getting a lot of requests from [00:01:00] operators in the United States and elsewhere to fix their wind turbine blades.
They have been working pretty closely with GE Renova and NextEra. Over the last, what Joel say two years, maybe a little bit longer on a number of problems.
Joel Saxum: Yeah. A couple years they've been doing, uh, bespoke solutions for both of them. They've also been doing their, you know, standard things that they're rolling out to the rest of the market.
But I think this is a good thing. In one article that I was reading, there is like a tier one operator starting to adopt it, right? So. Everybody was kind of approaching that robotic thing, like, yeah, it looks like it's the future and, you know, but a little trepid, right? Dipping a toe in or dipping a finger into the water, trying it out.
But now it seems like, hey, we got an LEP campaign, coones, we've got this robotics problem we wanna solve, collar owns. So they're starting to get more and more adoption and, and that shows, right, 300%, uh, revenue growth in 2024. So that's, that's huge, right? To, to hit that kind of number. So now it's up to, uh, scaling up.
Uh, the only thing that can cap that number is the amount of robots that they can put outta the [00:02:00] factory over there in Riga.
Allen Hall: And we visited their facility in the United States about a year ago. It was just outside of Dallas, near Lake Dallas of all places. And it is a decent sized facility, but at the time we, when we walked around out back, you just noticed a whole bunch of, uh, parking lot spaces with trailers and capabilities for robots and thought, wow, that there's a lot of robot, uh, sitting in the parking lot.
And, uh. But then they had, when I asked they, they said, oh, they had a ton of crews already out in the field working. So they do have the ability to get to a number of turbine sites. I, I guess maybe still not enough from what I hear, there's, the demand has gone through the roof.
Joel Saxum: Well, it's, it's a really interesting, or really cool, I guess, opportunity for technicians.
So that's one of the things that robotics does is it addresses the technician shortage. You got a technician shortage, great, let's use robots. Then we can start, uh, having that force multiplier, right? Because you could run robots on two turbines from one control van. -
Allen Hall covers the appointment of Catrin Jung as Vattenfall's new head of wind division, the Netherlands reaching 20% renewable energy in 2024, Quebec's $1.1 billion funding for a major wind project, and France commissioning its first floating wind farm.
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 news from the offshore wind industry today. Vattenfall has named a new leader for its wind business division. Catrin Jung will take over as Head of Business Area Wind starting July first. Jung currently leads the company's offshore wind operations. She replaces Helene Bistrom, who is leaving the company. Jung joined Vattenfall in two thousand two. She has managed some of the company's largest investments in recent years. The wind division handles both offshore and onshore wind projects. It also manages large solar and battery projects. Jung says staying focused on fossil freedom is more important than ever in these uncertain times.
The Netherlands reached a major renewable energy milestone last year. Renewable energy made up nearly twenty percent of the country's total energy use in twenty twenty four. That's up from seventeen point four percent in twenty twenty three. Statistics Netherlands released the preliminary data. The increase comes mainly from new offshore wind turbines and more biodiesel use in transportation. The overall renewable energy consumption reached three hundred fifty eight petajoules. That's a fifteen percent increase from twenty twenty three. Biomass remained the largest renewable source. Wind came second, followed by solar power. Renewables were mostly used for electricity at sixty percent. Heat and cooling accounted for twenty eight percent. Transport fuels made up twelve percent. The share of renewables has more than doubled compared to five years ago.
A major wind energy project in Quebec has secured its funding. Invenergy and a consortium of 209 municipalities and territories in Eastern Quebec announced the closing of one point one billion dollars Canadian in financing. The money will fund the PPAW 1 Wind Energy Centre. The work will create three hundred fifty jobs during construction. Construction will happen throughout twenty twenty five and twenty twentysix. Commercial operation is expected in late twenty twenty six. Once operational, the project will add three hundred fifty megawatts to the local grid.
France has achieved a renewable energy first. EDF Renewables has fully commissioned the country's first floating wind farm. The Provence Grand Large wind farm has a power capacity of twenty five megawatts. The farm features three floating wind turbines installed seventeen kilometers off the France's Mediterranean coast This is the first floating wind farm in France and across the entire Mediterranean basin. The project uses unique anchoring technology. Siemens Gamesa built the turbines. They're installed on floats with tight anchor lines. The technology was inspired by systems used to stabilize oil platforms. SBM Offshore and IFP Energies Nouvelles developed this technology. It's suitable for deep sea areas and provides excellent float stability. Bernard Fontana, Chairman and CEO of EDF, says the project helps diversify renewable energy sources. He calls it an important project for France's energy sovereignty. The experience will help with construction of EDF's second floating wind farm, Mediterranee Grand Large. EDF was awarded that contract in December twenty twenty four. -
Carlos Oliveira, CEO of Fibersail, discusses their advanced fiber optic technology for early detection of wind turbine blade damage, reducing downtime and optimizing maintenance for wind farm operators.
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!
Allen Hall: Wind turbine blade failures cost the industry billions annually. Today we're talking with Fibersail, CEO, Carlos Oliveira About their innovative fiber optic technology that detects early blade damage before catastrophic failures occur. Learn how their shape sensing system is helping wind farm operators reduce downtime and optimize maintenance.
Welcome to Uptime Spotlight, shining Light on Wind. Energy's brightest innovators. This is the progress powering tomorrow.
Carlos, welcome to the program.
Thank you for having me here.
Allen Hall: This is gonna be a fascinating discussion. when I was over at Wind Europe, the activity around your booth was really good. a lot of interested people wanting to learn more about the technology and how to protect their blades and be able to determine early if they have blade problems.
And I think everybody on the [00:01:00] podcast knows that blades are a huge issue financially. And we just don't have enough information about how they are moving structurally or what kind of structural issues they're having. How big do you think this problem is, Carlos?
Speaker 3: I agree with you. So we have quite a busy Wind Europe event.
we were really full all the, time. and I think that, the problem is really, getting out, right? It's every year, more than. Five, $6 billion are being spent in non-planned repairs activities. and this is impacting a lot to the bottom line of the industry. what we knew at fiber cell 3, 4, 5 years ago, that the problem was really big Honda blades.
Now it's mainstream knowledge. big companies are putting billions of euros, in, recognizing losses because of this issue. And more and more customers are coming to us. it's [00:02:00] really a big issue and we believe that, it can really put in danger the wind industry as a whole.
Allen Hall: Yeah. And even if you buy a new turbine today, there is very little information that comes from the blades themselves.
A lot of it is coming from the SCADA system, and that's, those SCADA systems are not designed to detect this sort of. Issues that Fibersail can detect. Correct?
Speaker 3: Yeah. And I think it's we are building bigger and bigger blades, using old technology, right? It does not work. you have a mixture for a big explosion happening, and that's exactly what we are seeing.
If in the past, the turbines, they were showing problems after 5, 6, 7, 8 years of operation. Today we have customers that come to us. with big problems in blades after one, two years of operation, some of them still during the warranty period. So it's really becoming a big issue and that's where our shape sensing technology kicks in because we have advanced sensing technology.
For the most [00:03:00] advanced, turbines out there and the new ones, it's really good interior, but the reality is a different story.
Allen Hall: how soon should you install a system onto a blade, particularly a new blade? Should it go in at the factory or, immediately after in the warranty period, or a lot of operators that we have seen, like to install them at year five or six of operation, which seems.
Late to us.
Speaker 3: I tend to agree, we would prefer to have it installed, at the manufacturing. we know it's not, straightforward. and what we're doing, and this is let's say our go-to market strateg... -
This week we discuss Australia's recent cancellation of wind projects due to political changes and community opposition, the complexities of grid interconnects, and the need for strategic renewable energy planning.
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!
You are listening to the Uptime Wind Energy Podcast brought to you by build turbines.com. Learn, train, and be a part of the Clean Energy Revolution. Visit build turbines.com today. Now here's your hosts, Allen Hall, Joel Saxum, Phil Totaro, and Rosemary Barnes.
Well, welcome to the Uptime Wind Energy Podcast. I am Allen Hall and I'm here with Rosemary Barnes, who's fresh from. Sweden, she just traveled all around the world to record this episode. Uh, Phil Totaro is out in California and Joel Saxum is up in the cold north of Wisconsin. And we, we've been just discussing off air. All the craziness has been happening in the wind industry.
And I, I have to admit, you know, I thought last week was. Insane. Well, we just, uh, put it on steroids. So not only are we canceling a lot of projects in the United States currently, we're all, we're starting to be cancel [00:01:00] them on Australia and over in Queensland. The Queensland Deputy Premier, uh, has used his ministerial powers to refuse planning approval for the moonlight range when Farm Near Rock Hampton.
Now I, and I'm sure I murdered that name Rosemary, so please forgive me, but it was gonna have 88 turbines in about 450 megawatts of capacity, enough to power about a quarter million homes in Australia and tied with, it's about 300 construction jobs and 10 permanent positions to make that wind farm go.
But there's was like a two month public consultation period that happened. And during that consultation period, about 80 per 90% of the local residents, and when I say local residents are about 150 local residents, uh, replied back and were concerned about some of the, the known people that are gonna be there because it's gonna like double the population, right.
And 300 construction workers in a, an area of 140 people, 150 people. Uh, and based on [00:02:00] that boom, perhaps the, the project was canceled. What is happening in Queensland that we need to understand that projects just kinda get wiped away like that with 140 people, 150 people chiding in.
Rosemary Barnes: So what's happened is that the Queensland government, the Queensland State Government, it was labor for quite a while and they had, uh, renewables targets and net zero targets and stuff like that.
And then, um, the government changed last year, so now there's a, a liberal government, which means conservative in Australia. They're in power and they wanted to change their planning regulations. But what is a bit weird is that they wanna do it retroactively. So they've changed the rules in April, and now they're going through projects that have already been approved to see if they meet the new rules rather than the rules at the time that they were approved.
But the weirdest thing is that I'm pretty sure that this specific wind farm that they revoked, they were the ones to approve it shortly after [00:03:00] they came into government. They approved this wind farm and then they changed the rules a few months later, and then they did a new round of community consultation.
Um. And they say that 85% of local residents were, um, you know, in favor of reassessing. The issue is that now we're at this stage of the energy transition where, you know, we're up over 40% renewables across Australia. Um, that's primarily wind and solar. -
In this episode of Uptime News, Allen covers leadership changes at Eneco, historic renewable energy deals in Poland, strong support for wind energy in Ireland, and a surge in American clean energy investment.
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!
Welcome to Uptime News. Flash Industry News Lightning fast. Your host, Allen Hall, shares the renewable industry news you may have missed.
Allen Hall: Leading off the week, there's a leadership change at a major European energy company. As Templeman is stepping down as CEO of Dutch Energy firm, Eneco on August 1st.
Templeman is leaving to become the new chief executive of lighting company, signify in September. Eneco says Kees Jan Rameau will serve as interim CEO starting July 4th. The company's board has already started searching for a permanent replacement. Templeman joined an Eneco as CEO in July of 2020.
The supervisory board chair Mel Kroon says Templeman led the successful launch of the company's one planet plan before Eneco. Templeman held senior positions at Shell across [00:01:00] Asia, Europe, the Middle East, and Africa. Over in Poland, energy companies have closed one of the largest renewable energy deals in European history. Norwegian firm, Equinor, and Polish company, Polenergia, have secured 6 billion euros in financing for two offshore wind projects. That's about $6.8 billion. The companies say it's the largest project finance deal in Poland's energy history.
The Baltic two and Baltic three Wind Farms will feature 100 turbines with a combined capacity of 1.4 gigawatts. Polenergia, CEO Adam Purwin says they have secured financing from around 30 institutions. He says The company's obtained exceptionally favorable terms despite challenging market conditions, construction has already begun.
Onshore marine operations will start next year. The wind farms should begin full commercial operation in 2028, and they'll provide power to more than 2 million [00:02:00] Polish households.
And Irish citizens are showing strong support for wind energy development. A new national survey by Wind Energy Ireland found 80% of the public supports wind energy development, 62% back having a wind farm in the local area. The survey found people support wind energy because it offers more affordable electricity and reduces carbon emissions.
Energy independence was also a key motivator. CEO. Noel Cunniffe says, Irish people know wind power is the leading solution to rising energy costs and climate change. He says, wind power is already helping reduce electricity prices and create jobs.
75% of those surveys support offshore wind energy. 82% recognize its role in securing Ireland's energy supply. Research shows Ireland's offshore wind farms could generate 38 billion euros for the Irish economy by 2050.
And American clean energy investment continues to surge. The American [00:03:00] Clean Power Association says developers installed 7.4 gigawatts of new solar, wind and storage capacity in the first quarter. That represents $10 billion in domestic investment. The trade group says it was the second strongest start to a year on record.
Battery storage achieved record first quarter installations surpassing 30 gigawatts of total capacity nationwide. The development pipeline grew 12% to reach 184 gigawatts. That represents $328 billion in potential project investment. CEO. Jason Grumet says, clean power is shovel-ready at scale. He says the industry has a technology.
Investment capital and workforce needed. Grumet warns that the greatest threat to reliable energy is an unreliable political sys... -
Joseph Chacon, CEO of Padge LLC, discusses the impact of electrical harmonics on wind turbines and solar systems, providing insights into causes, consequences, and effective solutions for improving power quality.
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!
Welcome to Uptime Spotlight, shining Light on Wind. Energy's brightest innovators. This is the Progress Powering tomorrow.
Allen Hall: Joe, welcome to the show.
Joseph Chacon: Thank you. I appreciate it.
Allen Hall: Well, I'm glad we connected, uh, through Jon Zalar, I believe, and we don't talk electrical power creation or what that. Kind of power we're creating and what the effect of that power is on systems downstream very often, uh, the Uptime podcast, because there's so many wind turbine issues, is mostly focused on mechanical problems.
But we're finding that more and more problems may have an electrical origin. We wanted to get an expert in here that would be you to come help us on harmonics because there are requirements about harmonics.
Joseph Chacon: There are, uh, IEEE five 19 governs [00:01:00] the requirements for harmonics. At the point of common coupling.
Allen Hall: That's correct. And your prior experiences with ge, which is now GE Renova down in South Carolina, that's correct. But you were involved, maybe give a brief description of the things you're working on because when electrical people talk, um, kind of gets lost in translation. You were knee deep, maybe waist deep, maybe eyeballs deep and electrical
Joseph Chacon: power at GE Renova?
No, not, not knee deep, not weight deep, waist deep. I was baptized, completely immersed all the way in. I came shortly after the Enron acquisition. Um, I was one of the electrical engineering managers at the time. We had, uh, I think two or three at the time. Um, this was pretty early on. Uh, I got out of that because, uh, I'm, I like management, but I, I like electrical engineering, so I wanted to go back to being an individual contributor.
Um, so I've touched just about [00:02:00] every electrical thing you can think of in a wind turbine. And also in solar
Joel Saxum: as well. You know, a little bit of a sidebar here 'cause I want, we want to definitely get into this deep technical conversation, but Joe, you touched on something that happens to people, right? You're a really good engineer, you've run a team, you've solved some problems.
So now you get promoted to management, but you don't get to engineer as much anymore. So you get, like, you get, you start being leadership and like doing all these things, how to manage people, how to run a team, this, that, and that's great. We need that. The industry, every industry globally, we need to be able to do those things.
But for engineers that have engineer at heart, and I'm, I'm also looking at you, Alan Hall. Uh, they, they wanna be able to engineer, right? They wanna be able to do stuff to make a difference to, to, to get hands on with a problem. So, so you, so you've done that though, right? That that's you, you are now, uh, Josh Shahan is, uh, pad LLC and
Joseph Chacon: pod is short for Padre, which is what my kids and grandchildren call me.
They just shortened it from Padre to podge. 'cause saying two [00:03:00]syllables was too much and I liked it.
Joel Saxum: Yeah, I like that. Okay, so, so, so like we said, uh, you, you, you guys, you're getting deep into harmonics and other issues. You get called in by Solar Farms to solve problems and, and this is the thing Alan and I were kind of talking about off air a little bit is. -
Lene Hellstern, Director of Engineering at PEAK Wind, discusses the complexities of onshore wind siting, the advantages of using LIDAR technology, and strategic considerations for turbine selection.
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!
Allen Hall: We're back with Lene Hellstern, the Director of Engineering at PEAK Wind, and we're talking about onshore wind siting, which is a really critical issue that a lot of operators have difficulties with. And I've seen it in the United States and it's not good.
And I'm wondering from your perspective, what are some of the problems, Lene? Well first, welcome back to the podcast.
Lene Hellstern: Thank you. And thanks for having me repeat experience last time, so I hope so. I thought I'll pop in again.
Allen Hall: Well, it's good to have you back and thanks
Lene Hellstern: for coming to Copenhagen.
Allen Hall: Yeah, well we love Copenhagen.
It's great. Uh, I just wish it was a little bit warmer. Yeah, the sun is terrific. Yeah. When you're in it, well, at
Lene Hellstern: least I fixed that. Right. Yes. It's not raining. It's not raining. Yes.
Allen Hall: We, we quite enjoyed it. Uh, but I'm trying to get an understanding of what the underlying issues are with onshore wind siding and why some of the operators have difficulty later on.
Let's just start with the sighting [00:01:00] itself. Yeah. Is usually, we'll see a wind mast out on site for several months, maybe a year, maybe two years. To try to get some wind data. We would
Lene Hellstern: really like that. Yeah. Okay. But, uh, the preferable measurements are lidars.
Allen Hall: Oh, lidars. Yeah. I have not seen a lot of lidars in use.
Lene Hellstern: No. You, you need to get some more.
Allen Hall: Why?
Lene Hellstern: Um, because they reach higher.
Allen Hall: Okay.
Lene Hellstern: Um, and you can, uh, you can, you can move them around. Right. And the hassle of installing a Met Mass that's a hundred meters tall, is, uh, is it a problem? Quite, uh. Quite it, it cost a lot more. Yes. Um, and, and the lidars, they, they just, they're better and they measure higher.
And you can, you can have one sort of mother lidar and then you can move the other around and you can cover your wind resources and site suitability much better on the site. So I would definitely recommend
Allen Hall: lidars. Okay. How the lidars use a [00:02:00] good bit of power to make them run, correct? Yes. So you need a decent power source?
Yes.
Lene Hellstern: You do? Yes.
Allen Hall: Okay. Yeah. I, is that one of the difficulties why they don't use a lidar? Is it just in a lot of remote areas, they don't have the power source to run it?
Lene Hellstern: It could be, or it could be the, the lack of knowledge. Right. Traditionally we have used med masks, yes.
Allen Hall: Forever.
Lene Hellstern: Uh, so, so it could be, and then there are also some, um, uh, some issues with uncertainties because the lidar is the, the standards are not up to date.
I would say that's the political way correct way of saying it. So. Eh, the standard actually introduces more uncertainty on the lidar that's really not necessary to, due to a calibration with a me mast. Um, so that there's some, there's some things that needs to improve in that area
Allen Hall: because a lidar should be a lot more accurate than a met mast.
Lene Hellstern: Yes. Yeah. Yeah. But, but the, the downside of the lidar, so that, that is not often we see that, is if you don't have enough particles in the air, -
Allen, Phil, and Joel cover the low turnout at American Clean Power in Phoenix, the US House's budget bill affecting renewable energy incentives, security concerns over Chinese equipment, and a patent infringement lawsuit filed by 3S Lift.
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!
You are listening to the Uptime Wind Energy Podcast brought to you by build turbines.com. Learn, train, and be a part of the Clean Energy Revolution. Visit build turbines.com today. Now, here's your host. Allen Hall, Joel Saxum, Phil Totaro, and Rosemary Barnes.
Allen Hall: Welcome to the Uptime Wind Energy Podcast. I'm Allen Hall, and I'm joined today by Phil Totaro and Joel Saxum.
Rosemary Barnes is over in Sweden, and Rosemary's gonna miss out on a very active week in renewable energy, at least in the United States. we should probably start with American clean power, which as we are recording, just finished the day. It was in Phoenix, Arizona. Things I've seen online, Joel, were that they were expecting around 10,000 people to attend that event, but watching LinkedIn, and I did not attend it this year, unfortunately, or fortunately, is my daughter's graduation.
So [00:01:00] I wanted to be there. I. But it looked like the hallways were pretty empty, which was a little shocking.
Joel Saxum: Yeah. So Allen, I wanna preface what you said there by, changing, a CP was in Phoenix too. A CP was in 106 degrees Phoenix today. it was a little bit toasty walking around in the suit jacket, but, of course, everybody, had theirs on.
but no, you're, a hundred percent correct. I was there all week, of course, weather guard brand there, talking lightning with everybody and, strike tape. And we had the uptime wind energy banner. We talked to a ton of podcast fans, which was really cool. so the hallways were, Tuesday morning was great.
Tuesday afternoon, Wednesday, Thursday. It just got slimmer and slimmer. and, there was some kind of logistical things there too. This trade show was oddly on two different floors that were separated by four escalator sets. I think like it was a, maze to get up to the other thing. Yeah, it was, pretty wild, in that respect.
[00:02:00] And you saw some of the same players that you always see at these trade shows, right? But there was quite a few new ones walking around, doing a little, tour day, exhibit, exhibition floor. A lot of different new companies, that I wasn't used to seeing, in the solar space.
some software, some, a lot of little AI software things that you've been hearing about as well. battery storage, quite a few battery storage companies and that battery storage supply chain starting to spread out. You had some battery safety companies and stuff like that, which was great to see.
I know I talked to some of our insurance friends and they were bouncing around talking with all the battery storage people and the solar people and that kind of stuff. but yeah, it wasn't very heavy, heavily wind as it has been in the past we're, which we're, usually used to. another factor.
to walk the show floor was $1,600. [00:03:00] So that's, that, deters quite a people. And when, we had talked before we go to the show, of course we wanna connect with our clients, connect with colleagues, connect with old friends, and you start sending out these emails and there wasn't a whole lot of asset owners and operators coming as they, as we usually see, and it showed on the show floor.
I didn't talk to that many asset owners and asset operators as we usually do. I'm talking probably. A quarter of the traffic that we're used to from tho... -
South Korea's Jeonnam 1 Wind Farm enters commercial operation, Norway launches its first floating wind tender, Denmark announces 3 GW of offshore wind possibility, and The Netherlands delays tendering for two wind sites.
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!
Allen Hall: Leading off the week, Norway has launched the first part of its long awaited, inaugural floating wind tender, offering subsidies to the winners. Bidders will be awarded rights to develop commercial projects of up to 500 megawatts in capacity at the Utsira Nord site off the country's southwest coast. The winners will have two years to mature the projects before competing in an auction for subsidies in 2028 to 2029 to be provided as a direct grant. Norway's Energy Minister said Utsira Nord is an important first step in the development of commercial floating offshore wind development on the Norwegian continental shelf. Norway has agreed to cap subsidies for Utsira Nord at 35 billion Norwegian crowns equal to about [00:01:00] $3.7 billion.
Over in Denmark, Denmark has announced the launch of offshore wind tenders with a capacity of three gigawatts, enough to power approximately 3 million homes. According to the Danish Energy Ministry, the tenders set to open in autumn of this year, we'll cover two areas in the North Sea. One in the water separating Denmark and Sweden.
The initiative comes with the potential subsidy of up to 55.2 billion Danish crowns equal to about $8.32 billion over a span of 20 years. Last year, Denmark halted its ongoing offshore wind tenders to reevaluate its subsidy model after failing to attract any bids and what was supposed to be its largest offshore wind auction.
The Danish Energy Ministry clarified that bid prices and electricity price developments will dictate whether further subsidies are necessary or if the state might even generate revenue from the projects. And in the Netherlands, the Dutch government has [00:02:00] delayed tendering for two offshore wind sites.
Uh, companies were scheduled to compete for three permits in October this year for construction and operation of new wind farms in the North Sea. However, two of the sites will now be tendered later, just one site. Nederwiek 1-A has been designated for the next offshore wind tunnel with the capacity of about one gigawatt.
For the Nederwiek 1 Wind Farm, the tender criteria have been adjusted to improve the business case for offshore wind. The Ministry of Climate and Green Growth said it is taking these measures to make the upcoming tender round more attractive and to allow the construction of offshore wind farms to proceed at a realistic pace.
The Nederwiek 1-A wind farm will supply about three and a 5% of Dutch electricity consumption once completed. And in South Korea, south Korea's, Jeonnam 1 Wind Farm has officially entered commercial operation. The 96 megawatt project is owned by a joint venture between Copenhagen Infrastructure Partners and SK Innovations [00:03:00] ENS, the installation of 10 Siemens ga MEA 10 megawatt Direct Drive turbines was completed in December of last year. Commissioning followed earlier this year. Copenhagen Offshore Partners, the exclusive offshore wind development partner to CIP Co-LED project development activities for Jeonnam 1 on behalf of the project owners. This project Mercks the first large scale offshore wind project in Korea led by the private sector.
That's this week's top. News stories. Stay tuned for the Uptime Wind Energy Podcast tomorrow. -
Avient and Tight Line Composites have developed a carbon pultrusion technology without the need for peel ply. This method improves bond strength by 8%, cuts waste, reduces labor costs, and simplifies manufacturing.
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!
Welcome to Uptime Spotlight, shining Light on Wind. Energy's brightest innovators. This is the progress powering tomorrow.
Allen Hall: Andrew and Brad, welcome to the show. Thanks for having us. Thank you. Well, we're gonna start off by talking about carbon protrusions, because that's the focus of your technology, title IX composites, and there's been some recent advancements that are really fascinating, but I, I kind of wanna go back a minute because carbon pull protrusions are the future, even though we're still making some fiberglass blades that'll have a limited lifespan.
We're gonna be moving to carbon protrusions because the strength and the weight. And the cost, simplicity of it, uh, just makes carbon protrusions the future. And Tightline Composites has been key in that mold of making these, uh, carbon planks and getting 'em out to industry. I. But one of the big problems with any sort of carbon plank product is it [00:01:00] usually has a peel ply.
And Andrew, you wanna talk about what that peel ply does and why it's used and why we need it.
Andrew Davis: You really need that surface energy created by removing the peel ply to, to get an effective bond as you're building your spark cap. And so for years, this has just been considered a necessary evil. Uh, in terms of creating, creating that effective bond.
And, and that's, that's the world we've lived in for the last 10 years.
Allen Hall: And a peel ply for those who are not deep into the composite industry. Peel, ply is a removable. Ply a fabric that's that's applied over the carbon on the outside and it's kind of thicker and it has, uh, this kind of rough and surface.
So when you build the protrusion, you got these two layers of this peel ply on either side, and it travels with the product. So as, uh, tight line sends out product, these, these peel plys go with it. [00:02:00] And ideally when they get to the factory, the, the people on the floor. Pull this peel play off and it's not fun to peel off one and two, it's kind of invisible.
So you can forget that it's there and install it in ablaze. And Joel, you have seen that in the field. You've seen protrusions where they have the ply still attached.
Joel Saxum: Yeah, it's, it's like, um, Alan, we saw one of the other day too, where it was like there was still a coating on a down conductor, right? So like, if you.
If you try to embed this product, the, the idea behind peel and the peel ply is you peel the peel ply, and now you have a prepped surface that can be chemically and mechanically bonded to easier or in, in, in, in a much better way, as designed. So if you forget to pull that off, now you have a structural element inside the PLA or inside of whatever you may be building in composites.
That doesn't have the ability to bond properly to that protrusion, to that carbon plank or to that glass plank. Uh, and if that's the case, you lose, I can't [00:03:00] put a number to it. Right. But you lose an immense
Andrew Davis: amount of structural strength. And Joel, just to underline your point, we've heard from customers who will remain nameless that it is, it, it happens that, that this will get caught on scan.
Uh, when the blade is completely done, and then the entire blade has to be scrapped. There's no, there's no fixing it. -
Blade Repair Academy in Tennessee offers comprehensive blade repair training programs for technicians. Alfred Crabtree, Founder and CEO, and Sheryl Weinstein from SkySpecs highlight the importance of technician competency, hands-on experience, and standardization in the wind industry.
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!
Allen Hall: Alfred and Sheryl, welcome to the program.
Sheryl Weinstein: Thanks.
Allen Hall: So we're in Dunlap, Tennessee, not too far from Nashville, uh, and also close to. Chattanooga Chattanooga, and we're in the Smoky Mountains ish region.
We're
Alfred Crabtree: no, we're, we're, you could consider it Appalachia for sure. Sure. Okay. Uh, we're on the, in the valley called the Seche Valley, uh, which splits the Cumberland Plateau. So we're, we're in a valley and we have hills a thousand feet above us here. Yeah. Either way. It's beautiful.
Joel Saxum: Yeah. It's a great drive in here.
Alfred Crabtree: Yeah. It's a unique place. Yeah.
Allen Hall: And we're at Blade Repair Academy, which, uh, if you're not familiar with Blade Repair Academy, you should be. Uh, because a lot of the good training that happens in the United States actually happens to play repair, repair Care blade, repair academy. Uh, yeah, it's been a long week at uh, OMS this week and we got the introduction today.
This is the first time we've been on site. That's right. And, uh, we wanted to see all the cool things that are happening [00:01:00] here. And it really comes down to technician training competency. Working with blades, working with tools, knowing what you're doing up tower when you're on the blade, which is hard to train.
It's really hard to train, and both you and Cheryl have a ton of experience being up on blades and repairing blades and scarfing and doing all the critical features that have to happen to make blades work today. It's a tough training regimen. There's a lot to it and a lot of subtleties that don't always get transferred over from teachers to students unless you have.
Done it for a number of years. You wanna kind of just walk through the philosophy of Blade Repair Academy?
Alfred Crabtree: Yes. The, uh, you've, you've outlined quite well some of the issues. The environment where we work is very hard to take a ti the time to put somebody through a training regimen. We're so constrained by weather windows and then.
You know, even if the weather's nice, lightning can come, wind [00:02:00] speeds can cut off your workday. So production, production, production is what's important. And Cheryl and I both come from the rope access method. And in the rope access method, 95% of the time you're up there alone. And if you're up there and you're producing, you've got your blinders on.
Speaker 2: Mm-hmm.
Alfred Crabtree: And you're not ready to share with somebody else what to do.
Speaker 2: Mm-hmm.
Alfred Crabtree: With the basket or platform, you can have two even three people up on Blade, but it still has all these constraints of get the job done, get the job done. There's a lot of stress up there. And having the bandwidth to take on new information or to challenge some preconceived notions or try, that's not the place to do it.
So knowing that. Blade Repair Academy is built so that we have an environment that simulates all of the up tower stuff without being up tower. And you're gonna have the time you need to invest in your learning without consequences. Right. So it's a very much a [00:03:00] about creating the right environment to uptake the new information. -
This week we discuss uncertainty surrounding the IRA bill, GEV Wind Power's acquisition by Certek, and the sale of an LM Wind Power factory to Vestas. Plus Blackstone is in talks to acquire TXNM Energy, pointing to increase data center demand. Register for the next SkySpecs webinar!
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!
You are listening to the Uptime Wind Energy Podcast, brought to you by build turbines.com. Learn, train, and be a part of the Clean Energy Revolution. Visit build turbines.com today. Now here's your hosts, Allen Hall, Joel Saxum, Phil Totaro, and Rosemary Barnes.
Allen Hall: Well, welcome to the Uptime Wind Energy Podcast, Joel and Rosemary.
It's been an exciting week. A lot going on in a, in America in regards to what's gonna happen with the IRA bill. Nobody knows the, it's like, uh, as tense, as tense can be. You, you don't even really see a lot of articles about it at the moment. Everybody's just in, in kind of hold mode, like, hold your breath and hope something bad doesn't happen.
Joel Saxum: I think the interesting thing there is when something like this pops up, you would tend to see a lot of LinkedIn opinions and you're not. I think a lot of, a lot of people are kind of moved. They're kind of, [00:01:00] nobody's really saying too much. We're kind of waiting to see,
Allen Hall: yeah, waiting for that spicy take.
Usually from Rosemary, but she hasn't written that article yet. It must be coming. Rosemary.
Rosemary Barnes: Well, I haven't been writing a lot of anything on LinkedIn recently. Um, yeah, a bit, I'm bit busy. I got, I got really sick of, uh, LinkedIn as well when I, I over posted for a few months and. I got over it. Started, started to hate it when people would, would write a comment on my post.
Yeah. And I'm like, just stop talking to me. Go away. And I'm like, yeah, you were the one who made this post. So you That was my, that was my sign to, um, yeah, to, to move away for a little while. Yeah. But it's also, uh, I mean, you know, like I, it's not a topic that I am an expert in. 'cause obviously I'm, you know, I don't live there, so I'm not, yeah.
I have. I have heard a few podcasts talking about it. Um, there's that one. Um, uh, do you guys listen to that podcast? That's, it's like [00:02:00] the original Energy gang crew, but none of them are on the Energy Gang anymore. Now they've got their own new podcast. It's like Dig Ashore. And, um, the other two, sorry, I don't, I don't remember their, their names.
Joel Saxum: They just started
Allen Hall: that one.
Rosemary Barnes: It's called, maybe it's called Open Circuit.
Allen Hall: Oh, maybe I have, yes, I know what you're talking about.
Rosemary Barnes: It, it's really good. It's very, uh, it's too American Central for me to listen to every episode, but for, you know, Americans then, I'm sure that that's, uh, that's good. Um, they, they speculate a fair bit about it.
Um, and also the, um, podcast that has Jesse Jenkins on it, which is called Shift Key, um, they talk about it a bit as well. So I have, I have heard a fair few takes on it, but, um. Yeah, I don't know. I'm, I'm waiting to see, to, to be honest, as a non-American, I've just written off American Wind Power for the next few years and, uh, you know, just like, wait, wait, wait a little while to like, uh, get started again.
But it, you know, it doesn't affect me so much. I don't, I, I don't have [00:03:00]projects in America. Um, so I. Not affected day to day,
Joel Saxum: a and a half a dozen part load leads that I was in a hand, -
This week Allen discusses the European Investment Bank's major wind farm investment in Romania, the financial performance of German energy giant RWE, and the potential cancellation of Equinor's Empire Wind Project due to regulatory challenges.
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!
Welcome to Uptime News. Flash Industry News Lightning fast. Your host, Allen Hall, shares the renewable industry news you may have missed.
Allen Hall: Okay, starting off the week over in Romania, the European investment bank is investing 30 million euros in a major wind farm project in Romania. The poster two project located near the Black Sea, will have a capacity of up to 400 megawatts.
That's enough to supply over 1.4 million Romanian households for an entire year. The EIB is partnering with Copenhagen Infrastructure Partners on the project with the total investment expected to be in excess of 500 million Euros.
Construction is due to start later this year and it will bolster the European Union's push for climate neutrality by mid-century.
German energy Giant RWE, reported an adjusted EBITDA of 1.3 billion euros [00:01:00] for the first three months of 2025. Adjusted net income amounted to 0.5 billion euros as expected earnings were below the level of the same quarter last year.
This decline was primarily attributable to normalization of income in the flexible generation segment and a weaker start to the year in the trading business. The commissioning of new offshore wind farms, solar plants, and battery storage facilities had a positive impact on the company's performance.
RWE commissioned 600 megawatts of new generation capacity in the first quarter alone. The company, currently has new plants with a combined capacity of 11.2 gigawatts under construction. Michael Mueller, chief financial officer of RWE, stated that they were reaffirming their full year earnings forecast after a solid start to the year.
He noted, that the company is making great progress in expanding its portfolio in a value accretive manner. Construction projects remain on schedule [00:02:00] and on budget.
Over in Norway, Equinor is warning it may cancel its Empire Wind Project off New York's coast.
Following a Trump administration stop work order, the company is spending $50 million weekly to keep the project afloat while awaiting resolution. Molly Morris, president of Equinor's US renewable energy arm, describe the situation as unsustainable. The Interior Department led by Secretary Doug Bergham ordered Equinor to halt construction
on April 17th. The order cited information suggesting the Biden administration may have approved the project without a thorough environmental analysis. The stop work order stemmed from a report by the National Oceanic and Atmospheric Administration.
However, Equinor says it has not seen the report and is not aware of the specific concerns raised. The project represents a significant investment for Equinor. The company has already invested $2.7 billion in the [00:03:00] Empire Wind Facility.
Currently, 11 vessels with 100 workers remain on board, sitting on the water, waiting for an order to resume work. That's this week's top. New stories. Stay tuned tomorrow for the Uptime Wind Energy Podcast. - Show more
