Weather Guard Lightning Tech
New Insurance Group, EDPR Enters Australia, IRA Costs Surge
We discuss an offshore renewable insurance consortium launched by SCOR and Acrisure Re and EDPR’s acquisition of Australian renewables firm ITPD to expand in the Asia Pacific. Plus, a look at the rising budget costs for clean energy tax credits in the U.S. Inflation Reduction Act and what it could mean for the growth of wind, solar and electric vehicles.
Allen Hall: I’m Allen Hall, president of Weather Guard Lightning Tech, and I’m here with the founder and CEO of IntelStor, Phil Totaro, and the chief commercial officer of Weather Guard, Joel Saxum. And this is your News Flash. News Flash is brought to you by our friends at IntelStor. If you need actionable information about renewable projects or technologies, check out IntelStor at IntelStor.com.
Reinsurer SCOR has launched a new offshore renewable energy insurance consortium with partner Acrisure Re. The consortium increases SCOR’s total deployable capacity to over 180 million dollars. SCOR says. Its technical expertise and understanding of client needs positions it as a leader in providing insurance. To the growing offshore wind industry.
So Phil, another insurance company hopping into the offshore market, there seems to be a lot of people putting their toes in the water at this point on offshore. 180 million is not a lot of money in that marketplace, but it does seem like people are testing the waters.
Philip Totaro: It’s an interesting thing.
Certainly good to do with a partner. The challenge with offshore is obviously with the scale, like you’re saying, 180 million and deployable. Capital is not going to really make that much of a dent in the overall global market, which is, well over, a trillion dollars in investment even at this point.
The reality is that, insurers have seen a lot of losses onshore and offshore. It’s good that you’re getting, new companies involved. It’s, score is increasing the scope of their. What they’re able to address. The challenge is that, I think these kind of partnerships.
Are going to be necessary moving forward because insurers and in particular reinsurers have had a really rough go of it. With some of the catastrophic losses that they faced, particularly in offshore over the years where, entire projects have had to have, the main shaft bearings replaced on the turbine or.
You’ve had other kind of significant fleet wide issues in, in some cases. Overall, it’s a good thing. It’s a good deal. But it’s a market that’s getting tougher and tougher to get into.
Joel Saxum: Yeah, the important thing to understand about the insurance market in any industrial capacity, specifically, we’re talking about onshore, offshore wind here, is that you don’t have an insurance company and that’s your insurance.
You may have an insurance company, the broker, whatever that runs the thing, but you may have 20, In an offshore win, you could have 20, 30 companies in here. So if SCOR comes in on a project, say there’s, right now we talked earlier today about Dogger Bank A. Dogger Bank A is going to have two, two policies there.
One for construction, one’s when they turn into operations. There’s going to be a turn off, turn on date there. That, say, we’re going to go to the policy when it is in operation, that policy may be written by, who knows, I don’t know, Aeon, that’s the broker, but the Aeon will have 20 different, 30 different companies behind them, each one of them taking 2%, 3%, 5 percent of that risk, there may be one lead on there, and that lead on something like an offshore wind project may only be 7.
5 percent or 10 percent or 15 percent as opposed to onshore where it may sometimes be 25, 30, 40 percent because, that asset, that wind farm may be worth 100 million or 200 million where you go to an offshore wind farm, it’s worth a billion. Nobody has that kind of capital. So a lot of times the lead is someone who really knows offshore stuff Njord, they put that thing out because, the big pro, Case in the North Sea a couple of years ago, where it was almost a billion dollar claim for all of the export cables or interarray cables on an Ørsted wind farm.
A lot of people took a huge hit on that one. So having more players come in and be able to spread that risk out. They’re gonna, they’re good possibility of making some money. That’s what insurance companies do. They, say people say banks run the world. Insurance companies are the ones who run the world.
You can’t get a loan unless you get it insured. So that’s how you can look at that. But yeah 180 million for that segment, not that much, but they’ll get a couple percentage points on a wind farm and be able to learn a little bit more from that consortium that they’re working with outside of even Acrisure.
Good move on their part, and it’s going to be, we’re going to need more capacity as we, as the world changes and we get more offshore wind as well.
Philip Totaro: A lot of the insurance companies have also said that insuring bigger turbines is an even bigger risk than it was with, upwards of the 10 megawatt, offshore turbines that we have in the market today.
So when you start talking about 15, offshore wind turbines that’s gonna necessitate more risk diversification.
Allen Hall: Portuguese energy giant EDPR has acquired Australian renewables firm ITP Development, adding one and a half gigawatts of renewable energy capacity. EDPR secured ITPD to significantly expand its presence across Asia Pacific markets.
The deal provides EDPR with an entire project pipeline, plus an operational team to support rapid growth in Australia. Now, Phil, Australia is becoming a really hot market for renewable energy. It has been for the last 20 years, but I think the world is awakening to the fact that there’s a lot of opportunity there.
What is the IntelStor research point to for Australia?
Philip Totaro: There’s 4. 3 gigawatts under construction right now. With another, close to eight gigawatts of consented projects that are, haven’t started construction yet, but they’re in the pipeline and in, a later stage of development.
But they also have something upwards of 90 gigawatts of proposed projects in Australia. Now, a lot of that’s not actually going to get built. But even if a fraction of it does, let’s say 25 percent of it that’s still a rather substantial amount. Getting in on, a company that’s got a pipeline already is a great thing.
And bringing a brand name like EDPR to the Australian market is a fantastic idea where You know, there’s ample opportunity there. There’s likely to be factories built in the market. Again, if some of those projects, that 90 gigawatt pipeline that I talked about, some of that actually transpires.
There, Vestas will definitely do a factory in Australia. That’s going to make life easier for a company like EDPR if they want to be able to source turbines. The bottom line is there’s a huge opportunity. The challenge for Australia is they don’t quite have the transmission infrastructure that they need to be able to accommodate that much capacity.
Or, Any kind of an export market. They’ve talked about taking the electricity, converting it into hydrogen, maybe doing export that way, or building cables to Indonesia or other New Guinea, et cetera places around even talking about doing an export cable between, a new export cable between Australia, New Zealand the bottom line is there’s, opportunity there for them to be able to be a net electricity exporter.
Or hydrogen exporter, but the reality is, it’s a good thing to, to get into a hot market and Australia is definitely one of the top five markets.
Joel Saxum: I would say that one of the big things about the changing market in Australia, we have heard. Through the grapevine that some of the developers and operators are starting to push back on FSAs.
So that is going to turn into a little bit more of a market where there is going to be some place for some ISPs and some other people in there. So it’s a rapidly evolving, growing, changing
Allen Hall: marketplace.
In the United States, the Congressional Budget Office has significantly raised expected costs for the IRA Bill’s energy and climate policy provisions.
A greater investment and participation is seen in climate friendly technologies like electric vehicles, batteries, wind, and solar power. The CBO now projects 428 billion more in costs related to the law’s clean energy tax credits and other measures. above original estimates. Now, Phil, I think the original estimate was about 370 billion over 10 years when they passed that law.
And now they’re talking about more than doubling the amount of expenditure for the IRA bill wind and solar being big drivers, obviously, and then electric vehicles and some of the EPA regulations and some of the states are forcing electric vehicle uptake faster, so that ends up being more credits going out to, to, to buyers of that.
This is causing some instability, and I know it’s just getting talked about now, but what, what happens here as we go forward and those costs continue to rise?
Philip Totaro: Keep in mind as well, you’ve got, as of 2024, 52. 7 gigawatts of wind that is at least 10 years old or older. And I forget precisely what the number is for solar, but they’re also going to start seeing over the next, 5 to 7 years a ramp up in the amount of capacity that they could potentially repower.
Certainly, wind repowering is going to be a huge driver to this cost increase. And it’s because companies are starting to get wise to what, NextEra, Invenergy, and MidAmerican and Berkshire Hathaway have been doing for the last, five or so years, six years. You know everyone else is starting to jump on that bandwagon and say hey my power purchase agreement is only like 22, but I can also get an extra 26 or whatever the indexed Prices for the PTC this year.
I forget what the CPI number is But let’s call it around 26 a megawatt hour that the PTC is more than what you’re getting from your PPA that definitely makes it lucrative to want to repower your project with that much capacity, again, 52. 7 gigawatts of wind, that’s 10 years old or older and would qualify for a PTC requalification with a refurbishment or a full repowering.
That’s something that’s gonna cause that number to potentially increase even more.
Allen Hall: They’re talking about trillions of this, Joel. They’re talking about this reaching one or two trillion dollars. And a short amount of time.
Joel Saxum: I see it happening. I think that there’s going to be more people to take advantage of it.
The, when you get the mass consumer in there, proposed changeover in just passenger vehicles, that’s 7, 500 a crack. Now that’s a lot of money. So that’s just that’s one thing and that’s, of course, a drop in the bucket compared to what some of these PTC credits are, but you also have 45X and 45C and 45 this and 45Y and there’s the hydrogen and there’s so many parts of this pill.
And some of them are capped, right? There’s sections of that thing. And we talked with David Burton from Norton Rose Fulbright. He said, this one’s capped. There’s only so much and it’s competitive to get, but this one is uncapped and the ones that are uncapped. Are the ones that are just going to they’re just going to run wild.
And if we really plan on getting this energy transition done the way we think we can those costs are going to grow and grow. And you have big ones, right? Some of these 30, instead of taking PTC on some of these offshore wind projects, the developers are taking the 30 percent ITC credit.
And at 30 percent of one of these big offshore wind farms could be 300 million.
As shown here, there are (formerly credible) people who are telling us that Trump is restoring Americans’ trust in government.
Do they truly believe this?
One of the casualties of the post-truth era is that the statements of our “leaders” no longer are required to have any basis in fact. What Jim Jordan says here is a fine example.
When he says “better” here, is he referring to runaway inflation? Trump’s purposeless and illegal war with no end in sight? His blatant corruption and criminality? His having, quite successfully, divided the American people into groups that hate each other? The enrichment of billionaires at the expense of the working class? The carefully engineered collapse of the environment so as to favor his donors in fossil fuels? The demise of the U.S. educational system?
Please be clear.
Weather Guard Lightning Tech
CNC Onsite Cuts Repair Costs With Uptower Machining
Søren Kellenberger, CEO of CNC Onsite, joins to discuss uptower yaw gear repairs, flat tower flanges, and replacing 1,000 blade root bushings across 26 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!
Allen Hall 2025: Soren, welcome back to the podcast.
Søren Kellenberger: Thank you, Allen, and, uh, nice doing it, uh, face-to-face- Yes, it’s great … and not as a team, uh, call. Right. That’s
Allen Hall 2025: true. Yeah. You’ve been doing a good bit of traveling, and you’re the new head of CNC Onsite.
Søren Kellenberger: I am, yes.
Allen Hall 2025: So congratulations on that.
Søren Kellenberger: Thank you very much.
Allen Hall 2025: And all the exciting new things that CNC Onsite [00:01:00] is doing, plus all the things you have developed and are now out in the field implementing, the, the list goes on and on and on.
I’m alwa- every time I talk to you, “Oh, we got a new-” Yeah … “machine to do something uptower.” So it’s all uptower, which is the, the beauty of CNC Onsite. You’re thinking about the operator and the cost to pull the blades off and do lifting the cell off and all those things. If we can do it uptower, we can save 30, 40, 50% of the cost of a repair.
Søren Kellenberger: Yeah.
Allen Hall 2025: That’s where CNC Onsite is just really killing it. You guys are doing great. Thank
Søren Kellenberger: you. Of course, we like what we do, but, uh, thank you.
Allen Hall 2025: Yeah. Yeah. Yeah, yeah. No, it’s good, it’s good. And, and so w- let’s talk about the things that I know about, and we’ll start there, and then we’ll go to all the new things you’re doing.
So the one that I see a lot of operators asking about is yaw tooth. Yeah.
Søren Kellenberger: Uh,
Allen Hall 2025: deformations, broken teeth on the yaw gear. That’s a big problem. And when I talk to [00:02:00] technicians, and I have them texting me about this, like, “Oh, well, I just weld on the gear back on, weld the tooth back on.” That’s a short-term solution.
That’s not gonna be long-term. The long-term solution is the CNC Onsite. Can you explain what you do to permanently fix these yaw gear problems?
Søren Kellenberger: Yeah. So what we do is actually we start by getting information about the, uh, original yaw ring, so the dimension of the teeth, and we get some load data. And, uh, then we start designing a replacement segment.
Uh, so what we ac- the process is actually that we bring a CNC controlled machine uptower, mount it on the yaw ring, and then we mill away that worn area, uh, creating a small pocket. And then those, uh, segments that we have designed, they are prefabricated. We bring them up and mount them in, in that, uh, pocket and bring the- The yaw ring back to where it’s, you can say, original design, uh, [00:03:00] that way.
Yeah
Allen Hall 2025: It’s better than the original design, ’cause you’re actually putting in better teeth than the, the manufacturer did originally.
Søren Kellenberger: True. Yeah, yeah.
Allen Hall 2025: So that happens, so you’re, you’re machining out those old teeth, broken teeth, putting the new set of teeth in th- and that all bolts in, and that’s it. That’s it.
But the, the difficulty is getting the machinery uptower to do that. That’s where a lot of your, your technology comes from, is getting this very accurate, uh, well-defined machine uptower and doing very controlled grinding and milling. Yes. So can you explain what that system looks like? If I’m gonna grind off those yaw, broken yaw teeth, how big is that kit?
Søren Kellenberger: It… Obviously, it depends a little bit on the turbine size. Sure, okay. Yeah. So, uh, it, so the, the newer five, six, uh, 10 megawatt turbines have larger teeth, so yeah, there you need a, a larger machine.
Allen Hall 2025: Okay.
Søren Kellenberger: But let’s say for, uh, Vestas three megawatt, the, the [00:04:00] complete machine weighs about 250 kilos. That’s it? So yeah.
So it, it comes up in smaller components. We just use, uh, the, the internal crane in, in the nacelle, and, uh, then we can lift the components to the yaw ring, assemble the machine, and then we are basically good to go. So it take, takes less than a day to get everything up and, uh, get set and be ready to, to machine.
Allen Hall 2025: So if you wanna fix a yaw gear problem, how long does it take from start to finish to get that done?
Søren Kellenberger: It typically, it takes one day to get everything up and get ready, and then per six teeth, which is a typical segment, it takes about a day to machine that. Okay. So, uh, let’s say you have, uh, somewhere between 10 and 15 teeth, it’s, uh, two to three segments.
So we do that in a week. Um-
Allen Hall 2025: Wow … and- ‘Cause the alternative is call a crane, have them lifting the cell off.
Søren Kellenberger: Yeah.
Allen Hall 2025: Take the yaw gear off, put a yaw gear on, if you can find a yaw gear. Yes. Put the nacelle back on. [00:05:00] Well, and I guess obviously the rotors are coming down too, so- Yeah. You’re talking about- Yes
hundreds of thousands of dollars in downtime. Yeah. It’s a big ordeal. The CNC Onsite method is so much easier.
Søren Kellenberger: We will just put our equipment in the back of our truck- … and then, uh, we’ll, we are ready to mobilize in a few days. So yeah, we can significantly, uh, bring down the downtime and, and as you said, the crane cost is of course extremely high.
And then you can add all the project management. You know, con- do I actually have my access roads, uh, still available? Right. Is the crane pad intact? And all of that stuff you need to organize. You can just forget about that and, uh- And
Allen Hall 2025: get it done …
Søren Kellenberger: get it done. Yeah.
Allen Hall 2025: Yeah. There’s, there’s a lot of owners, we, everybody knows who the machines are that have the, the, the yaw tooth problem.
Søren Kellenberger: Yeah.
Allen Hall 2025: So if you’re one of those owner operators, you better get ahold of CNC Onsite. Now, flanges on tower sections. It’s become a, a really critical issue. You hear a lot of, of [00:06:00] operators, OEMs talking about, “I’m putting together these tower sections and those flanges don’t really meet up quite right.”
Søren Kellenberger: Yep.
Allen Hall 2025: “I’m creating uneven torque patterns, bolt pat- my bolt tightening is not quite right.”
Søren Kellenberger: Yeah.
Allen Hall 2025: And it never really seats right, so you have this mechanical, built-in mechanical problem. CNC Onsite is now fixing that so those flanges are actually really flat. Really flat, yes. ‘Cause that’s what you need.
Søren Kellenberger: Yeah.
Allen Hall 2025: Yeah. They’re highly loaded.
Søren Kellenberger: If, if you want, uh… If you want your joints to be, uh, basically maintenance free, uh, we can, uh, achieve that with machining the flanges. And then, of course, you need to be in control with your bolt tightening process. Sure. But if you do those two things, you can have maintenance free bolted connections, and there’s so much money to be saved in the operations.
Um, and of course, when you have these bolts that end up fatiguing, some of them don’t get caught in time and you end up ha- having a catastrophic failure on the turbine. Uh- We’ve [00:07:00] seen that … because you have that zipper effect. Once a bolt starts breaking, the neighboring ones take that extra load and it accelerates really quickly.
Uh, yeah. Sure does.
Allen Hall 2025: Yeah. It’s a very serious situation, but it starts with this very simple solution which is just make the flange flat.
Søren Kellenberger: Yeah. But I think it’s some… a part of the issue is that those buying the towers aren’t necessarily responsible for the operational cost of maintaining that bolted connection.
So they might save a little bit of money when they buy the tower sections with rougher tolerances, but you will spend the money 10 times in the operations. Uh, and, and that’s, I think that’s where some of the operations, uh, re- the, the, those responsible for operational costs should, uh, get a little bit more CapEx spend, uh- Oh, sure.
Yeah. And, and then, uh, actually save a lot of money and, and reduce risk. Uh, it’s a huge, huge risk
Allen Hall 2025: It’s, it’s one of those lessons learned. You [00:08:00] don’t know that they should be flat. You shouldn’t know… You don’t know your flanges should be flat until you experience the problems, and then you want all your flanges flat from here on out.
Søren Kellenberger: Yeah.
Allen Hall 2025: But there’s only one way to do that really, and that’s to call CNC Onsite to come in and to make them flat.
Søren Kellenberger: Yeah.
Allen Hall 2025: Because it’s a difficult thing to do. You really need to have the machining prowess and the tight tolerances that CNC Onsite’s gonna deliver in a tool that can actually be adapted to that tower ring and make those surfaces flat.
It’s complicated. Exactly.
Søren Kellenberger: It is. Uh, but that is what we do every day, so, uh- Yes, I’ve noticed … yeah, so
Allen Hall 2025: so- You take on those challenges
Søren Kellenberger: So we are optimizing our machines to be not only fit for one-offs, but actually to go into a manufacturing, uh, process. So we have op- optimized our machines a lot with, uh, automatic alignment and, uh, stuff like that to, to really make that process, uh, easier.
Because it has been considered that when you had to machine a flange, you weren’t in [00:09:00] control with your production, uh, processes. But I think that is, um, a bit of a misinterpretation. It’s, it’s a little bit like saying when I have a casted component, I cannot get a bearing fit, uh, in my cast process. That’s not because your cast process is wrong, there’s just some limitations to what you can do.
Sure. And it’s basically the same here. Yes. And, and if you apply that con- uh, planned machining, you can gain some real benefits, uh, later on and the cost will, of course, drop dra- dramatically if you plan it, rather than call for one, uh, every time you have one that is out of tolerances and, and you can even narrow those tolerances down and get the benefits from maintenance-free bowler connections.
Allen Hall 2025: Right.
Søren Kellenberger: Uh-
Allen Hall 2025: Right, ’cause you’re gonna pay for it for the next 20, 30 years. Yeah. Yeah. That’s absolutely right. Now, you’re getting involved in some of the safety aspects of operating a turbine. Uh, some of the pins and the lockouts on the low-speed gearboxes get a little worn over time, so the hole [00:10:00] you put the pin in gets worn.
There’s a lot of loads on that and- Yeah … it starts to oblong out and eventually, if you’re trying to work on that gearbox, you’re trying to keep that and your technicians safe, which is what you’re doing- Yeah … that lockout pin doesn’t quite fit in the hole and it creates a little bit of a safety risk.
Yeah. So now CNC on-site’s coming in and saying, “Hey, wait a minute. We can realign that, clean that hole up, make that safe again.”
Søren Kellenberger: Yes.
Allen Hall 2025: Explain what that looks like and what that process is to do that.
Søren Kellenberger: Yeah. So again, it’s the same thought like with the, with the O-ring, uh, that instead of bringing a component down and trying to fix it, we have designed some machinery we can bring uptower and then make that repair.
So basically what we do is that, that we mill that hole a little bit larger and then we bring a bushing, uh, that we, uh, freeze into that hole- Okay … and to recreate that tight fit again with a, with a locking pin. Uh, so it’s, it’s not that [00:11:00] complicated, but you still need to know, of course, what you are doing.
So finding the center of the original hole is one of the critical things because you want the center of the new ring to be in that same position- Sure … to make sure it fits with the pin
Allen Hall 2025: right. So- Right. You can’t just take a drill up there and try to clean out that hole. No, no. That is not the way to do that
That,
Søren Kellenberger: that
Allen Hall 2025: won’t work. No, no . I’m sure it’s been tried, but- Yeah … no, you wanna have accurate mach- actual, uh, tight tolerance machinery up there to, to align that hole, drill it properly, put that insert back into that spot- Yeah … which is gonna be a hardened insert so it’ll last longer, right?
Søren Kellenberger: Yeah, yeah.
Allen Hall 2025: So once you do that, y- it’s a permanent fix to a otherwise nagging problem.
That’s wonderful.
Søren Kellenberger: Yeah.
Allen Hall 2025: So, th- again, that kit just goes right uptower, right up the, the lift, right up the cl- crane- Exactly … and bang, you’re done. Yeah. Okay.
Søren Kellenberger: So all our machines are designed to be able to be lifted with the internal crane-
Allen Hall 2025: Yeah …
Søren Kellenberger: of that specific nacelle.
Allen Hall 2025: Okay.
Søren Kellenberger: So obviously as the cells go bigger, they have more load cap- uh- Me too
load capacity. Yeah. So for the smaller [00:12:00] turbines, the machines come in, in a bit smaller parts- Okay … so that we are sure we stay within that 250 or 500 kilogram or even whatever the limit is of, of that- Yeah, yeah, yeah … crane. And then we can, uh, reassemble everything uptower and still do tolerances within a few hundredths of a millimeter.
And, and I think that is, that is really the core of, of what we do that, that we can achieve those workshop tolerances on site, um-
Allen Hall 2025: It’s crazy when I tell people that. I say, “Well, you know, CNC on-site, they can’t… I mean, those, those tolerances can’t be that tight.” And I say, “No, no, no, no. They’re talking about, you know, fractions of a millimeter,” which in, in American terms means fractions of a mil.
Yeah. That’s 1/1000th of an inch. That’s the tolerance you’re doing.
Søren Kellenberger: Yeah.
Allen Hall 2025: Uh, and that means quality at the end of the day. If you can machine things that tight, that means what you’re getting is gonna be right for that job. Yeah. It’s gonna fix that, fix that problem permanently, which is the goal. Yes. Don’t recreate the problem.
Just fix it once and be done. Now, blade root [00:13:00] inserts, huge issue. CNC on-site has been developing tooling to drill out those existing inserts and, and put in new inserts, and you’re having success with that.
Søren Kellenberger: Yeah.
Allen Hall 2025: That’s a… it seems like a complicated process, but you have owned that quite well. Talk about what that machinery looks like today, how you’re doing that process, and what have you learned from doing some, uh, field work.
Søren Kellenberger: It’s, uh… we actually, we’ve, we’ve developed two different machines now. Okay. So we, we have, we have one that is, uh, fully CNC controlled, uh, when you need to do a lot of bushings. Yeah. Um, that one takes a bit more, uh, time to set up, but, but, uh, each drilling process is, is really fast. Uh, and then we have developed a semi-automatic machine as well, uh, which is a little bit easier to mount, mounts directly on the blade.
And it’s, uh, really perfect when you only have smaller areas of the, the blade root where you don’t need to replace all bushings- But maybe typically it’s, it’s in the high load [00:14:00] area, which is 15 to 20 bushings maybe. Right. Something like that, right? Yes.
Allen Hall 2025: Yeah.
Søren Kellenberger: So, so there we can just mount it directly on the blade and, and then drill from, uh, from there.
Um, and it works really well. We completed, uh, the first large scale, uh, commercial, uh, project, uh, together with our good friends from, uh, We4C. Uh- Right.
Allen Hall 2025: Yes.
Søren Kellenberger: And, uh, and now we are producing, uh, two more drilling machines- Oh … uh, for, for new upcoming, uh, projects also together with, uh, the guys from, from We4C.
Allen Hall 2025: Wow.
Søren Kellenberger: So now it’s, it’s starting to, uh, to pick up. Um, it’s been a relatively long process, and I guess no one really wants to be the first mover on, uh, on new technology, right? Right. So we’ve had a lot of questions. Oh, that… And that looks interesting, but how many, uh, turbines, uh, or how many blades have you repaired?
And it’s been up until now, well, it’s only tested in the lab. Uh, but now we have the first, uh, large scale commercial, uh, project with, uh, 26, uh, turbines, [00:15:00] uh, repaired and, uh, and 1,000 bushings, uh, that were replaced, uh, across those, uh, 26 turbines. So-
Allen Hall 2025: Wow …
Søren Kellenberger: so I guess that is now large scale. Uh-
Allen Hall 2025: That’s large scale.
Yeah. Yeah. I would consider 1,000 a large scale test. Yeah. Yeah. Yes. And that brings all those turbines back to life.
Søren Kellenberger: Absolutely. They are up running, uh, full power again, so, uh, that is, uh-
Allen Hall 2025: That’s huge …
Søren Kellenberger: really nice.
Allen Hall 2025: For the operator, I’m sure they love that.
Søren Kellenberger: Yeah. And, and of course, uh, there’s, there’s been a lot of discussions about blades and, uh, bla- the, the waste, uh, issue you have on, on worn- Oh
out blades. Sure. So by being able to fix them instead of replacing them, not only is the, the cost for fixing a blade a lot lower than buying new ones, uh, but, but also from a, an environmental perspective. The not having to scrap them and create that waste is, uh, is also a nice, uh,
Allen Hall 2025: thing. Yeah, it’s one of the things that pops up more recently about replacing blades, and I think the [00:16:00] industry and the operators are pushing back on that.
Uh, because a lot of times the OEM wants to replace a blade, it’s just easier for them to do.
Søren Kellenberger: Yeah.
Allen Hall 2025: But the reality is, is that yeah, you’re creating this additional problem. What are you gonna do with the disposal of this blade? Do we really need to do that? Is it so far gone that I can’t recover it? I think a lot of times, especially with fiberglass blades- Yeah
you can bring them back to life.
Søren Kellenberger: Yeah.
Allen Hall 2025: Just with a little bit of engineering, uh, prowess and some good machinery- Yeah. You can, you can make magic happen, and that’s what CNC OnSite is doing. So that, that’s really amazing that, uh, you’re starting to get more adoption of that on, on the blade root inserts. I know across the United States there’s all kinds of issues, and you’re proving it out.
I think the adoption rate in America and all over is gonna really step up. Now, uh, you always have some cool new project, sort of top secret. What are you working on that the world needs to know about?
Søren Kellenberger: Yeah. W- I mean, we are constantly, uh, [00:17:00]expanding our, our line of services. Uh, so- Sure … so we are just out there trying to listen to what kind of issues do we see in, in the industry-
Allen Hall 2025: Yeah
Søren Kellenberger: and how can that be fixed, uh, uptower. So, so some of the, the latest, uh, innovations we’ve been doing is a, a new machine on, um… to, to do shaft milling. Uh, so that c- that can be on generator shafts, uh, for instance. There are some machines out there, but we’ve decided to go, uh, against CNC control- Okay
because it gives us a lot of, uh, opportunities both on, on speed, uh, of the process. It’s a more safe, uh, way to, uh, to do it.
Allen Hall 2025: Sure.
Søren Kellenberger: And we can actually also do different, uh, shapes on the shaft, so, so we can do more advanced, uh, repairs. Okay. We, we don’t need to stick to a certain diameter all the way. Now we can, we can mo- make grooves, and we can do, uh- Really?
all sort of sorts of stuff, uh- Oh … along that process because it’s CNC controlled.
Allen Hall 2025: Oh, sure. Okay. Um, and- Boy, okay. That makes a lot of sense. So you can actually take a, a, a basic, [00:18:00] basic, basic design of a shaft and make modifications to it- Yeah … to extend the lifetime and make it work better.
Søren Kellenberger: Yes. So typically we would mill down, uh, the shaft and- Sure
install a sleeve- Sure … to recreate a, a bearing fit, for instance.
Allen Hall 2025: Right. Yeah.
Søren Kellenberger: But we have possibilities to, uh, to create, um, grooves or anything that would do a stress relief or whatever you need, lubrication, or if you, if you want to do something, uh, afterwards, we, we can do that with, uh, with our machines.
Uh- Yeah. So yeah, we, we have some new machines for, for hollow shaft, uh, machining, so we can do stuff, uh, inside the main shaft, for instance. We can do stuff on the, the outside, as I mentioned on, on the generator shaft, but that could be on the gearbox as well. So- Sure … sometimes we see issues on the main shaft to, to gearbox, uh, connection.
Allen Hall 2025: Yeah.
Søren Kellenberger: We are able to, to fix, uh, those, uh, things uptower. Wow. And, uh, so yeah, lot of new, uh, stuff being, uh, developed.
Allen Hall 2025: That’s, that’s awesome.
Søren Kellenberger: [00:19:00] Yeah.
Allen Hall 2025: And I, I know you guys are busy, but- If somebody wants to get ahold of CNC Onsite and get work done this year, they better be making phone calls to you- … quickly. So I, I know your order book is filling up and you’re, you’re having to devote crews and machinery and time.
Yeah. How do people get ahold of you and get on that contact list and can start working the process?
Søren Kellenberger: I would say go into, uh, cnconsite.dk and, uh, there we have all our, our contacts. Uh, so just reach out. There’s a, yeah, formula you can, uh, fill in, uh, or you can find our direct contacts in our webpage, and, uh, then we can start looking at it.
So we are quite busy, but we are always- Yeah … open for, uh, discussions and, uh, yeah. That,
Allen Hall 2025: that’s a problem with being successful, is you’re just always busy running around trying to take care of problems, and that’s the thing, is that everybody I talk to that’s used CNC Onsite loves it-
Søren Kellenberger: Yeah …
Allen Hall 2025: and loves the process and loves the work you do.
So there’s gonna be a lot more phone calls and a lot more orders coming your way, and that’s- Yeah … that’s awesome. [00:20:00] Soren- Yeah … it’s so good to see you again and it’s so good to see you in person. Yeah. And congratulations on the promotion and everything that’s happening at CNC Onsite.
Søren Kellenberger: Thank you, Allen. It’s a pleasure.
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