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The Uptime Wind Energy Podcast

The Uptime Wind Energy Podcast

Di: Allen Hall Rosemary Barnes Yolanda Padron & Matthew Stead
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Uptime is a renewable energy podcast focused on wind energy and energy storage technologies. Experts Allen Hall, Rosemary Barnes, Yolanda Padron, and Matthew Stead break down the latest research, tech, and policy.Copyright 2026, Weather Guard Lightning Tech Scienza Scienze biologiche
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  • Everpoint’s BladeBlok Recycles Blades for Drilling

    Everpoint’s BladeBlok Recycles Blades for Drilling
    Jun 25 2026
    James Timmins, VP of Engineering at Everpoint Services, joins to discuss how recycled wind turbine blades become BladeBlok, a drilling fluid additive for oil, gas, and geothermal wells. 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: James, welcome to the podcast. Thank you. There has been a lot of activity at EverPoint Services. So I wanna back up first because if you’re not familiar with EverPoint Services, they are a recycler f- for renewable projects. James Timmins: So we’re a, a renewable energy service company that specializes in, um, decommissioning and remediation services for, uh, wind and solar assets. Allen Hall: So when a solar farm gets hit by hail and the panels are broken, EverPoint comes up and cleans up that mess to, to allow the repair to happen. James Timmins: Correct, yes. Allen Hall: And on the wind turbine side, you’re t- decommissioning wind turbines, but you’re also taking the [00:01:00] blades. James Timmins: Yes. So it’s our responsibility to haul off the damaged, I guess, the scrap. And, um, obviously there’s a very healthy market for scrap steel that you find in the tower base- Yes … but the fiberglass is a little less straightforward when it comes to disposal and/or recycling. Allen Hall: So typically with the fiberglass blades or any composite that’s, that’s being recycled, th- there’s really two techniques that are being implemented right now. Uh, well, really three. Let’s go over three of ’em. One of ’em is you can just bury them. They’re c- essentially construction materials, so you can bury them. Not ideal, but it has happened in the past. The second is they grind up the, the blades and use ’em in, uh, c- the cement-making process, where they’re burning some of the things that are combustible there and using it for fuel, but also the fiber can help with the cement. Does, does that sound right? Correct. And, and then the third one I’ve seen is just as a reinforcement product. [00:02:00] So it’s, uh, they chop up the fiber in different lengths, they clean it up, and you can u- use it as an additive to different products. Yes. And, and that generally has been the marketplace in the blade recycling area for- Going on 20 years now probably Yes Until now. And that’s where Everpoint has really changed the game because you’re thinking about blade recycling a completely different way. James Timmins: Correct. So my background is oil and gas. I was a drilling engineer, uh, for major oil companies, so it was my job to plan, execute, and oversee drilling operations. So I worked kind of all over the world, and this project started as an icebreaker at a friend’s birthday. I had never met Tyler Goodell before. I- Wait, Allen Hall: wait, wait. So you’re at a birthday party- James Timmins: Yes … Allen Hall: and your kids are having fun. They’re eating cake. Oh, James Timmins: we were at a dive bar, so we- Oh, okay … yeah, watching a band, uh- … sitting over a bucket of Lone Stars and yeah. Allen Hall: Okay. That’s the [00:03:00] best place for new ideas to occur clearly. So you’re, you’re, you’re at a birthday event, you’re hanging out, and what happens? James Timmins: He asked me what, what I would do with tens of thousands of tons of scrap fiberglass. Allen Hall: And you get asked that every day, or is it- No. Okay. James Timmins: And I thought it was a weird question, and I kinda put it in the back of my mind. And about 15 minutes later I was like, “Well, I have an idea that we could, uh- Put at least some of that to work. Allen Hall: And what was that idea? James Timmins: The idea was that we could grind it to a specific particle size distribution and use it as a fluid loss additive in oil, gas, and geothermal drilling operations. Allen Hall: Okay. That’s a unique application. James Timmins: Yes. Allen Hall: So I think we need to walk into what happens when we’re drilling an oil well or any sort of well, I suppose. Uh, there’s unique things that happen that require specialty fluids or specially … James Timmins: Uh, specialty additives you could say. Additives. Allen Hall: Yes. [00:04:00] So- Okay. That’s a, that’s a good way to describe it. All right. So, uh, I’m drilling a well. I’m in Texas. I’m an oil tycoon. I wanna drill this well. What am I doing? James Timmins: So you have what’s called drilling mud, which is...
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    22 min
  • Vineyard Wind Battles GE Vernova, UK Funds Blade Innovation

    Vineyard Wind Battles GE Vernova, UK Funds Blade Innovation
    Jun 23 2026
    Fraunhofer studies uptower carbon blade repairs, Vineyard Wind’s fight with GE Vernova deepens, the UK backs offshore innovation, and a 26-year Horns Rev study tracks how birds adapt to turbines. 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! 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, Allen Hall. I’m here with Rosemary Barnes, Yolanda Padron, and Matthew Stead. Fraunhofer has published peer-reviewed feasibility research in wind energy science. And Rosemary, I don’t know if you read wind energy science, but there’s a lot of good information there about wind turbines and mechanical aspects. Not much on the electrical side, but a lot about mechanical. Uh, in, in, in wind energy science, uh, they had a discussion or an article about repairing damaged pultruded CFRP spar cap planks while the blade stays on the turbine. Using finite element analysis on a 81.6-meter [00:01:00] blade from a seven-megawatt offshore turbine, the researchers found that a shear web window cut out as short as one meter drops buckling resistance from 20.7 times critical load to four times critical load, a reduction of over 80%. The fix? Temporary external clamping frames with a pre-tensioned span-wise rod to carry gravity loads, combined with internal push rod assemblies and external stringers profiles to restore buckling resistance, all installed and removed uptower. Wow. I know we’ve discussed the carbon pultrusion repair situation and how critical that is or h- how difficult it is. I didn’t realize it was that difficult, Rosemary, that if you actually try to replace a one-meter section of a carbon pultrusion, you’re re- reducing the, the, what, the, the buckling resistance by 80%? [00:02:00] Holy moly. Rosemary Barnes: I don’t think that’s even 100% pultrusion specific, right? They’re talking about cutting a, a window in the shear web. Allen Hall: Yes. Rosemary Barnes: So that could be for any kind of repair you might have to do that, including if you need to repair, like sometimes you need to repair the, the shear web. Um, and even though, like, they’re not doing a lot of heavy lifting, um, that’s kind of a structural pun, um, they’re still super important. If they’re not there, then you’re gonna have big problems pretty immediately. The way that it works with repairs is that there’s certain kinds of damage that you know that you can just do uptower. The technicians know they can do it. They don’t need to call an engineer. The engineer doesn’t call- need to call the expert engineer. But when you need to do something a bit unusual, like a whole meter of web removed, then you’re gonna need to get an engineer to, um, dial in the, y- the, to rerun the design codes basically, um, but with this weak structure now to see is this okay and is it okay, you know, uh, [00:03:00] obviously a turbine that is just, um, idle or it’s not even idle, it’s just fixed in place while they’re repairing it, that has different loads on it to one that’s operating. So, you know, they’ll run that and make sure that it’s safe, um, before they do the repair. So what I really like about Fraunhofer is that they in some ways, like- Maybe it’s not cutting-edge science or engineering because they are largely repeating what is already well known in industry. But the problem is that industry doesn’t tell everybody else. And so it is, like, such a vital role to then go and illustrate, um, to everybody else what, what’s happening in industry. And they, they are… Like, there is this problem with wind energy where academia and industry are not, um, talking too much, and a lot of the academic stuff just doesn’t relate at all to what’s happening in the industry. But Fraunhofer do, like, 90, 90% of the time seem to get it at pretty right. Allen Hall: When a carbon protrusion is [00:04:00] used, that really localizes where the load is versus in, in some of the more fiberglass designs that I’ve seen, the shell is actually taking some of the load. It’s not all in the shear web, so to speak. So doesn’t that sort of focus the loads into one location a little bit more when you move to carbon? Isn’t that the point? Rosemary Barnes: Yeah. Well, the carbon fiber is, is a lot, lot, lot stiffer than, um, fiberglass, and it’s, it’s a lot stronger. So yeah, you are designing… I, I mean, always the spar ...
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    29 min
  • Invenergy Drops Four Offshore Leases, Turbines Become Reefs

    Invenergy Drops Four Offshore Leases, Turbines Become Reefs
    Jun 22 2026
    Allen covers Invenergy returning four offshore wind leases for $765 million, a Block Island study finding turbines became reefs, RES’s Smart Pilot drone inspections, RWE’s three new French wind farms, and a $12 billion Japan-UK floating wind compact. 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 everyone. There is a deal being made in Washington today … and the ocean is watching. Invenergy, the largest privately held power developer in North America, has agreed to hand back four offshore wind leases to the federal government. The price tag … seven hundred sixty-five million dollars. Those leases covered waters off New York, the Gulf of Maine, and Morro Bay off central California. One of those projects … Leading Light Wind … a two-point-four gigawatt development in the New York Bight … had already been canceled last November due to economic and regulatory pressure. The remaining three lease areas represented another four-point-eight gigawatts of potential capacity. All of it … gone. In exchange, Invenergy will redirect that capital into natural gas plants in Indiana, Wisconsin, Iowa, Kansas, and Missouri … and into geothermal projects across the Western United States. This is now the eighth offshore wind lease the Trump administration has bought out. Total cost to the federal government across all eight deals … more than two-point-five billion dollars. Seven state attorneys general are already suing over an earlier buyout with another developer, arguing the administration lacks legal authority to use federal funds this way. Invenergy is already pivoting toward geothermal. Just last week, the company acquired a five thousand-acre geothermal parcel in New Mexico through a federal lease sale. That brings its total federal geothermal footprint to forty-five parcels … one hundred forty-four thousand acres … across five western states. While Invenergy’s offshore leases are being canceled … the ocean beneath those kinds of projects may be quietly thriving. Scientists have spent seven years studying the Block Island Wind Farm off the coast of Rhode Island … America’s first offshore wind installation. They tracked nearly a million marine animals across seventy-one species. What they expected to find was damage. What they found instead … was astounding. Black sea bass abandoned their old wandering patterns and began clustering around the turbine foundations to feed. Blue mussels colonized the steel pylons. Macroalgae spread across the submerged surfaces. Cod, lobster, and reef fish moved into the rock piled around the bases. The turbines became reefs. Accidental … but unmistakable. Researchers at the University of St. Andrews strapped GPS trackers to harbor seals expecting them to flee offshore wind farms. Instead … the seals swam straight lines through the turbine rows … stopping to forage at each foundation … like a delivery driver working a route. One seal traced the turbine layout so precisely that researchers said you could have mapped every foundation from that single animal’s trail alone. Researchers are finding a sobering conclusion: whether a turbine helps the ocean or hurts it depends almost entirely on how old it is … and where it stands. New foundations going in … disruptive. Old foundations with fifteen years of growth on them … something closer to a reef. The science is finally precise enough to say which is which. The seals figured it out years ago. They just went where the food was … in very straight lines. Meanwhile, on dry land … RES, the global renewable energy company, has launched a new tool called Smart Pilot that automates wind turbine blade inspections using drones. RES says it will take twenty-five percent less time. And it runs on standard DJI consumer drone hardware … no proprietary equipment required. RES currently supports approximately forty-five gigawatts of installed renewable capacity worldwide. And over in France … RWE has officially opened three new wind farms in northern France. Combined capacity: sixty-eight-point-eight megawatts. Together, they will power approximately thirty-eight thousand French households with electricity from the wind. The projects took a decade from development to inauguration. The turbines are spinning now. And over in the UK, Japan and the United Kingdom have signed an Offshore Wind Compact committing Japan to facilitate up to nine billion British pounds … roughly twelve billion dollars … in investment for five-point-nine gigawatts of floating offshore wind in British waters. Three projects ...
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    3 min
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