Powering An Old Mill - 1.5 Kw Lake District Overshot Waterwheel Project Part 3

Kris do not be too harsh on yourself! the whole wheel looks absolutely amazing.

I’m a 71 year old electrical engineer. One thing I learned (eventually) is that critical path items must be tested before being installed. It’s time consuming and costly to do so, but there really is no reasonable option.

Kris, You measured a single wire. That is a three phase generator so there are at least 3 wires being used to carry the total 2KW power. You would need to cut open the splices inside where all the wires come together to connect to the outgoing feeds. There could be several parallel windings in the stator. Your cover to keep water off the gearbox and generator is also acting as a "hot box" holding all the heat inside. Louvers, vents and a fan might just be what you need.

Your 3 amp calculation is really per phase and you have 3 phases, so 9 amps seems realistic to me. You should also find out if the windings are star or delta connected. Resistance of wire varies and you won't get a good value by just considering the diameter. A better approach would be to measure the resistance of each phase then use P = V^2 / R

You are an eloquent testament to the theory that progress is made through an iterative process of failures leading to eventual success. Your consistent positive attitude and wonderful sense of humility are amazing. Keep going!

Hi Kris,
I watched your video last night and I've been following your project. A few thoughts: First, if I was in your situation now, with the added pressure of this being a customer installation a couple of hundred miles up the M6, I'd be exploring the simplest solution first - and for me this would mean getting a PMG/motor manufacturer on board (I have a company in mind) that could help with either a new unit, or a rewind of one of those chinese units with a different winding configuration and possibly a replacement lamination stack. From my experience in PMG design, it looks like (and this is just based on how it appears on screen) that unit/design/size should be able to manage 2kW at ~90-95% efficiency if wound correctly. If you want to try going down this route, I can help you talk to these guys from a PMG design point of view, the first thing they'd need would be a whole host of measurements such as lamination stack depth, slot depth/width, airgap size, target RPM, etc. and with these numbers plugged into their software you should be able to get a quick answer on whether or not a rewind would be feasible.
Regarding using an induction motor as a generator - whilst this can work, it's not as simple as a PMG because it needs an excitation voltage to generate, and if you do this with capacitors you will have to size everything for a single operating point/power point and then you have the problem of it being difficult to regulate, and possibly losing excitation and free-spinning. If I were going down this route, I'd be fearing 'opening up a can of worms' and I'd want to be fully testing and proving this in the workshop first, over the full operating range (using a motor-generator rig) before taking it on site. I've been involved in product developments in the past where the R&D spilled out onto a customers site, and for several weeks I was driving backwards and forwards to London every week trying to solve a motor control/stability problem that could've been solved at the lab, so I understand the stress involved.
I don't know how to contact you other than this comment section, and after a couple of tries my comment seems to not exist if I leave any hint of my details. Cheers, Andy

Kris, what a fantastic piece of engineering! Well done and meticulous executed.
Before you start redesigning your generator setup however, please consider that this motor can actually do it, based on 3 phase and 0.7mm wire (as several people pointed out in the comments). However, when generating 2KW electricity and 80% efficiency it produces approx 500W of heat. This is the case regardless of the generator configuration. A redesign might improve the efficiency a bit but the heat still has to go somewhere.
There are two ways to get rid of this heat: Convection and conduction. Convection transfers heat to the air around it and will require forced air flow. Conduction transfers the heat to the mounting bracket and the frame, from where convection will take over. Water cooling of the frame will reduce the convection needs, making this less dependent on the ambient temperature.
A very rough estimate of convection cooling: If the maximum motor housing temperature is 60C and the ambient air is 40C (consider the summer) then there is a 20 degree max temp difference. Newtons law of cooling states that the rate of cooling is directly proportional to the temperature difference. If the surface area of the motor is fixed and the temp difference is fixed then your variable is the air flow. The heat transfer is calculated as: heat transferred (500 Watt) = hc (transfer coefficient) * A (surface area) * dT (20 degrees temp difference).
'A' is the motor surface area (which is enlarged by the ribs). hc depends on air flow speed and surface radiance. For air flow this is roughly 30 W/m^2*K for an air flow of 5m/sec and 40W for 20m/sec (so not linear!). If we ballpark the surface area at 1/10sqm then an air flow of 5m/s will transfer: 30 * 1/10 * 20 = 60 watt. You will need nearly 0.5M^2 surface area with 20m/s air flow to make this work for 20C temp difference.
Disclaimer: this has some huge simplifications and should be properly calculated by a professional. Its been over 30 years since I last looked at this so no guarantees on the above.
How to improve the air flow? Perhaps a fan blade on the generate pulley will do. It needs an opening in the housing where the fan can draw air inside. A big round hole in the cover in front of the fan would do nicely. This assumes that the air exit through the bottom isn't too obstructed.
Probably best to combine this with conductive cooling using some of that water. Summers are getting hot and water stays cooler providing a greater temperature difference to work with. Conductive cooling has its own formulas based on transference of heat through a solid but this post is already long enough. I'd be happy to help bouncing off ideas if you like.
Last, you can test this on your work bench by putting a 500W heating element in the motor cover and put a cowl over it. Then cut a hole and blow some air through and see the temp drop.
Good luck and I hope your resolve it without too much headache.

These videos lower my blood pressure. Not joking. Awesome and purposeful engineering plus the great outdoors. Love it!

Chris take it to a local motor repair company they will rewind it to what you want. You will have confidence it will work.😊

Live and learn. The work you've done is amazing. Don't kick yourself for the decision regarding the motor. Reasonable decision. Things happen. You've learned so much from the incident. You admitting the flaws makes you an honest man and sets you apart from the vast majority of people. Good on you! Keep it up Kris 💪

Kris you are a one man business, developing an engineering product from scratch. .Don't lose heart, like you said you know how to fix this. You have created an amazing system and you have uncovered a product shortcoming very early in the process really.

Kris, have a rewind done on that motor in thicker wire to give you the 2.5 3kw that your needing. Sure it can be done by a rewind company in the UK and be cheaper then the cost of your time and materials on reworking the mounts.

Your work is typically so well engineered and thought through; I can see how incredibly frustrating it would be to have faulty (lying) suppliers. Press on young man!

Sorry you have to deal with all that crap, but life is a learning experience. You do absolutely amazing work. ☮️

Really valuable information . You help so many people with sharing this lesson. I would of made this the same mistake.

I think you have to take a step back and just admire the whole projekt. This is absolutely stunning! Also huge props to the gully builder, that's looking really good!

Nothing worse than having to explain to a customer that you’ve done everything to the best of your knowledge, and then to look like a fool because you’ve been lied to by a supplier. I really hope your customer understands and isn’t holding back on “too much” cash. This is what kills small business’, when all you want to do is have a happy customer who will spread your name, but go into the red because of nonsense like this. Head up mate! You’re doing a great job!

Not only is this totally fascinating to follow, but your positive approach that learning is learning (& not 'failure') is really encouraging and inspiring.

I have learned a lot from this video of yours! Thank you very much! Keep it up!

Forget the heater to slow it, just make a governor made with a car disk or drum brake, when it spins fast the centrifugal force pulls the brake cable. The same as what they used to use on old steam engines. This will work even in a flood and you have a milling machine, 2 weights attached to the main shaft, when they spin they fly out and pull a colar up the shaft which is attached to the handbrake part of a car disk drum brake.
Get an Induction generator with a proper drive for it, the type used for CNC machines can do the braking and control acceleration/ de-acceleration, forget using the solar charger to control the generator. Attaching a heater to an electric generator to stop over-speed when you are dealing with the chance of flood waters sounds like you want to come home with your house burnt to the ground and flooded :) but seriously a flood will mean the chance of a burnt out generator. Use an old steam engine style governor with brass balls that fly out and a big brake drum on your wheel, it will look awesome.

Hey Kris, the wheel is looking fantastic! some input for the electronics, if its of any addition to what you already know.
The difference here is that they specify 2KW but this will be the short term Peak rating not the continuous rating. This is not that unusual to state peak rather than continuous, Chinese or otherwise. Motors, inverter, speaker, power amps always tend to use peak because people love big numbers. It also not just the wire, it is the power density/efficiency the wire you measured will be one of at least two for just one of the phases so current capability is ok (especially as the rating is KWpeak).
Running a higher voltage from the motor for the same amount of power (lower current) will reduce the temperature rise in the wires/motor. Double the voltage/half the current but 1/4 the temperature rise of the Alternator. This is also more efficient to run at a higher VDC down the cable to your controller (of course short distance 30M or so this doesn't matter so much but every bit is a hit in over all system efficiency). If you get the output of the alternator to be in the top 1/3 or 1/4 of the operating voltage rating of the Solis DC input for peak RPM of the wheel.
Also take advantage of some of the shaft rpm to shift air around inside that enclosure.
Hope this helps.

34:47 The label alone provides for mistrust in the alternator's ability.
Otherwise, your work on the wheel, all things mechanical and your commitment to a job well done is inspirational!

Mistakes are a very normal part of any engineering project, don't be hard of yourself and keep innovating, the next iteration will be much better!
P.S absolutely loving this series!

Keep learning kid, and your tenacity is admired. Lots of help around from the old school for those willing to ask.

As. Classic race car engineer, I’m really addicted to this channel it’s great to hear a guy with this amount of knowledge on the case

You have inspired me to leave London after 18 years and return to the valleys of Wales to get involved in forestry projects. Just need to find a job and a house now!

Yes, the Chinese cannot be trusted to be truthful in their advertising. I believe this is because of the fear that workers have of projecting facts which management doesn’t want to hear that would make the item more expensive to build. Management has an unrealistic expectation of an output, but the worker/engineer cannot this accomplish due to the reality of the science/physics behind it. It’s an insane system, which is why they have the reputation that they have. Another lesson learned, so now you move on to accommodating the materials that will make your project work.
Love your work on everything you do!👍👍👍

Super impressed with the change from the new nozzle/flu. Great job

Kris, kudos to you for exposing the lies as you did. I can only imagine your frustration, but everyone who watches this channel knows you will more than make everything right in the end for your client. That water wheel is a work of art. And once done, I am certain it will run for years.

I can totally understand the frustration. But you are very thorough and smart enough to find a solution, which is why I love watching the channel. Good luck on this one Kris !👍👍

I know it's frustrating Kris, but we are learning from you. Your equipment is fine, but now we know what to look out for from the other manufactures. I expect next week we will learn even more. Thank you for handling it so well. I hope this next week is better for you.

it is so good that someone that knows what he is talking about . keep it up.

Wow! No one could have anticipated this kind of fraud. I'm floored. Chris, you are doing the entire community a real service!

You're like an industrial detective. Sherlock Harbour. Love it!

Great video, I used to work for a world renowned hydroelectric turbine company from the lakes, and travelled all over the world doing installs and the number of times we would come across projects with Chinese hardware and the customer would tell us that it wouldn t produce what they stated was crazy, also kit would fail very quickly due to inferior materials used.
Take it as a lesson learnt and carry on with your great projects, your doing great

You're such an inspiration Kris....on so many levels. Your creativity combined with engineering reminds me of Leonardo De Vinci on a smaller scale. I bet he never had to deal with a bunch of patent stealing, peasants that can't spell the word quality! Time for a beer, hot bath, good nights kip then soldier on with the revision to the original design. As Robert Pirsig so wisely observed in Zen and the Art of Motorcycle Maintenance, if you don't overcome the "gumption trap" that this has created for you, you'll just engineer your bad mood into the next phase. Keep on old son, you're soooooo on the right track.

Quick tip; When modifying the generator guard, add some strategically placed venting holes. These generators, and especially synchronous motors rely on open air to properly cool. That might fix the overheating issue.

Very frustrating 🙁
Fair play to you for having the skills and knowledge to work it out 👍🏻
Good luck with rectifying all the issues 🍀

Very talented engineering here, great to see. You will get it working fine and then the alternators can be used for another project. Great to watch!

Brilliant just Brilliant. Well done that man

You may already have experienced this: every redo always turns out better. The school of doing is one hell of a teacher! Clear your mind and go at this anew, as if it is new … because it is new, again and so is the day.! 👍 You are mastering this as you go; just don’t be dangerous.

A good honest episode. A lesson learnt. If you find a suitable replacement, you could use the lathe as a test bed, having made a fixture for it.

The old saying Buy cheap buy twice comes to mind ! Hope you get it sorted Kris

Kris, great work, bummer about the alternator windings being under sized.
One quick note, for 3 phase calculations, the formula for wattage is: P(W) = √3 × PF × I(A) × VL-L(V). P=power (in Watts), PF=Power Factor (you can assume 1 here), I=current (in Amps), VL-L=Volt, line to line (in Volts) this would be the voltage between phases.
To "solve" for Current, the formula is I = P / √3 PF x VL-L
Since the output is labeled as 220V, putting that into the formula gives you a current of 5.25A for an output of 2kW. Still more then that winding wire can handle.
Hope that is able to help some of your calculations for wires sizes in the future.

All is not lost. Thank you for putting in the time on this. The world is a better place for it! Cheers! Keep on keeping on.🥃

"Look at that angle.... perfect" I know too well the pride that comes from something that goes as you hope, but that has generated so much anxiety... Really top work!!

Problems arise now and then, but you persevere so good on you. I have enjoyed this series, thanks for filming it Kris

Troubleshooting and tweaking are great skills!

If the ampacity of the winding is ~3A, that is 3A per phase, which should give you ~9A combined. It would be interesting to see if the wire is in fact copper. I would guess that somewhere along the line the copper specified in the design has been substituted for copper-coated-aluminium which has a much lower ampacity as well as a lower service temperature. It might make sense to explore re-winding it yourself. Best of luck.

Your work is brilliant Kris, and this issue relates directly to basic dishonesty on the supplier's behalf, a problem I have run into time after time with Chinese suppliers unfortunately.

I loved the detective work of the wire etc.

I admire your tenacity. Keep at it, document your lessons learned, and carry on!

You are helping a lot of people avoiding frustrations with this video! Think about it, I bet you will feel a bit better! One solution could be to rise the rpm (Higher voltage means lower currents). For this you have to make sure the wire isolation is rated for the higher voltage and also the maximum input voltage of the inverter. (The inverter input voltage could be fixed with an transformator before the rectifier, its another thing you have to add but maybe worth if you have to change the whole design instead...). Hope the ideas help!

WOW! I'M SUPER IMPRESSED WITH THE SHOOT SPLASH IMPROVEMENT! AMAZING ENGINEERING!

At least you got good footage, love the project.

thanks for all your work and information

Well done my friend you have a great knowledge so don't beat yourself up you have done a excellent job in your work and your diagnosis take care and well done regards Alan and Ella.

Looking around the UK for alternators, they are expensive (compared to Chinese) but the rating will be 100% guaranteed. I found one called the "stamford" in single or 3 phase outputs. They are also pretty heavy...like 75kg!

Not your fault, the time and effort that you put into your progects is always worth the reward.

I do enjoy your updates on this project. I’ll be waiting for your next updates.❤

I know how frustrating this has been for you - but seeing you dismantle their BS so succinctly was immensely satisfying and I'm glad they've been outed - these types of things drive me MAD and I love it when they get their comeuppance

I think it can do 2kw when run at double or even triple the speed you were running it at before. A modified car alternator will do 2-3 kw continuous with less copper than this one. Forget what the tag says about rated rpm and what not, you just need to make sure the voltage doesnt exceed whatever that grid inverter is capable of. You already kinda hinted at this in the last video where the water wheel was spinning too fast but the alternator wasnt overheating.

Look how far you’ve come, this is a tiny blip on your amazing journey of experience! You’re fantastic and inspiring as always, cheers Rob.

A wonderful reminder of yesteryear and the grain mills that changed the world. Your work is beautiful and practical. Looking forward to the improved model.

Kris, problem solving is what you do - I have every confidence that you’ll sort it! Also lots of great advice from the electromotive geeks and engineers in the comments. There’s some gems in there I’m sure.

Would be great if a UK-based alternator manufacturer might see this and get involved! I guess on the "bright" side you have a spare 600w alternator and a heater that might work on future projects. Thanks for doing the hard, painful work to inform us all of such pitfalls. And, despite a setback here and there, I continue to have: No. Doubt. In my mind.

Fascinating video. Brilliant.

I wish this guy would admit he's winging it!

thanks for the video, I was talking with someone about this process of power generation 2 days ago, and you have just taught me so much in a single 40 minute video. Lots of food for thought here.

Kris, it takes a man to show humility, and its what you've done in this video. Love watching your videos, and we're all human, things happen.

Keep your head up Kris, I’m sure it will all come good. You’ve put a lot of hard work in so far, tackled many teething issues, made improvements, and so one day soon you will have everything running as planned and will have learned many valuable lessons along the way, which is what life is all about. Further, your product will be better refined for the next customer. Looking forward to your next video!

You win some, you learn some.

It's cool to see how your skills and shop/homestead have progressed over the years, I've been binge watching your Playlist over the last month. Thanks for all the inspiration and great vids.

That's some pretty amazing troubleshooting skills you've got there. Clearly, they don't expect people to figure out they've been cheated. I bet you could make one of those alternators put it on the market and give those lying cheats a run for their money. That was a costly lesson. Yikes. I have faith you'll get it all sorted out.

Lessons learned are always the biggest expense of any job. Really enjoy your videos Kris thanks for sharing

Ah man, what a pain! These things are sent to test us sometimes! Great job mate! Stick with it! All the best.

That is horrible. I have no doubt that you have proven to your customers your effort, reliability and quality are not to blame for this issue. Really really sucks to think that you're almost done and then have it get screwed up like this. Super proud of the work you do even if you aren't always. :)

Excellent work and video! Might I suggest, your shafts and hardware need nickel-anti-seize paste when assembling. It will make assembly and future maintenance much easier, especially in a wet environment.

It's not your fault fella. It just shows you what the manufacturing base in this country is competing with - substandard products covered in lies. You've got to be proud of yourself for working through the issues. Great job in my book.

Very rare- an extremely intelligent guy with an extremely practical grasp on things. Possibly a wee bit jealous!

Great video Kris. Too bad that you had this issue but it is totally inspiring that you keep going and do whatever it takes to get it right. I cannot wait for the next video. And furthermore I think these videos should be shown in schools because you are one hell of a guy who is prepared to have a go at anything and do it really well.

You are my genius mentor, and as careful as you are, you have shown that challenges will always occur with third-party equipment! The fun in all of this is found in your creative solutions!

Just a thought on the dump load / heater. The problem isn't the power wattage, you need the 2 kW in the end to burn off the power of the water wheel. The problem is the instant torque difference at the moment of switching from grid to the heater. You could solve this with an additional 500W heater and a timer relay. The first, let say 5 seconds of grid down, the power goes only to the 500W heater. Because it's smaller you don't get that torque shock. After 5 seconds, the timer relay adds the original 2000W heater to the load, making it 2500W. Great project, I keep following it. 👍

You’re a proper inspiration Kris. There’s so much in your videos that should be shown, particularly to young men. Not exclusively, but to those boys that school isn’t really working for. You’ve got a great skill set, and your get it done, and properly, attitude is nothing short of exceptional. The modern world needs more of you mate. Great work. If I had a son, I’d be sending him to you to turn into a man!

Absolutely amazing, wish I was involved in a project like this! One slight little improvement on the “Grid down” circuit is to add an indicator light.

I feel like in the grid outage scenario, you'd be better off with some form of solenoid released trapdoor in the channel which just releases causing all the water to be discharged before the water wheel, stopping the wheel. I feel like trying to use the dump resistor is just a real risk on many levels - if any component fails (which is quite probable in a rarely used emergency system), then there are quite a few different failure modes, some more spectacular than others. But above all else, assuming that dump resistor goes straight across the generator output, you're likely to get very low voltage and high current, potentially leading to the generator overheating issues you've already seen. The other option would a brake that brings the wheel to a controlled stop, but a trap door in the channel feels like the easiest solution, even if it requires a manual reset afterwards.

Most online sales are not to be trusted, and I really hope you get it all sorted out. I really like the whole waterwheel power projects, so it would be very nice to see it fully working at max power without getting too hot or break.

I love this series and particularly that you name and shame the charlatans who are mis-selling wares. They need exposing for the liars that they are. After being sold crap like this myself, I'll never again buy from Aliexpress. They would not accept a return from me even though it was not the goods i had ordered.
Otherwise... this series is absolute gold Kris. I'm inspired by your work and I've started building a wind turbine to supplement my solar.

Hi kris have watched you for a very long time and have found you to be a very honest person working very hard to please your customers 100💯

3 amps in that size wire is a pretty conservative rating, you can get very high temperature enamel (>200C) and the insulation cooking is the real limiting factor. The chart you flashed up is talking about domestic wiring in PVC, totally different kettle of fish (melts at ~80C)

Kris you are a perfectionist and a good engineer who will never give up it may take time. China never tell the truth.

Stereotypes exist for a reason. No matter how bad they sound, trust them. You still make an amazing machine and I know you will make it work.

That's why critical electrical components must be either from reputable sources or tested prior to installation.
I'm so sorry I couldn't see the finished water wheel generator but, I'm delighted that you are going in such depth to inform everybody to all the inner works of such interesting and realistic projects.

No worries. You are learning valuable lessons. As an engineer and system integrator we always bench test components to verify function.

So love the methodical testing. Really nice to watch and learn!

Hi,Kris. I had a lot of involvement with a water wheel/alternator installation at an old mill building. My part in the project was making many mechanical parts to get the pulleys ,shafts,pillow blocks and all the belt tension adjusters etc for the toothed belts. The installation I worked on used wind turbine 'pancake' style alternators with the wind turbine blades removed and a custom taper lock hub fitted to mount toothed pulleys instead of the wind blades. This system is 3 phase with 3 alternators all being driven by the same countershaft and each alternator being switchable for in or out of the system depending on how much water flow is available at the time. You might have some joy by looking at what 'pancake' wind turbine alternators may fit into your limited space at the drive end.

I like this waterwheel content. I saw your channel years ago and saw you in a wood branch roof workshop, but you have come so far since then with your designs and waterwheel durability. I encourage you to go with the best parts for the money and raise your prices. Your craftmansship is worth it. Just consider this instalation and working out the bugs and suppliers as your final proof of concept before you make a webstore and showcase what you can do. (p.s.) you should shave down that keyhole part that was sticking out a tiny bit. Always take care of potential problems in the shop and eliminate any future things that "could" happen Its just better peace of mind to machine that down a millimeter. Doing all these little things will warrant your increase in prices. Its looks fabulous.

Hi Chris , I enjoy all of your videos.
On this actual video, you are frustrated because of the poor performance.
As a retired elctrical ingeneer from Denmark,I could suggest you to contact a electro mechanic and ask Them if it is possible to get rid of the poor windings and put in new coils with insulation that are rated for very High temperatures. Class F is rated for 130˚C if I recall it right.
It is possible to apply new windings in the original motor with a vacuum resin treatment that gives extra improved cooling.
You could consider applying a kind of external cooling (I mean you have coolingwater at hand😎)
God luck and best wishes.

Not to take anything way from this project, being a water power user myself (Pelton turbine, 147' of head, 840 watts) but I'm going to go out and give my PV array a big hug. So simple and maintenance free, giving me an excess of grid tied power for years now, along with the grid tied Pelton, so why do I keep watching water wheel videos?!

For 3 phase generators and motors the current per winding is not Power/voltage; it is (power/voltage)/( square root of 3). The square root of 3 is 1.732, so your 9 amps is actually 5.2 amps. Also you will find there are many windings of the small wire connected to the 3 main wires so the current is divided between these wires. When many wires are crammed into a tight space the current carrying capacity (due to temperature) is greatly reduced. I have found that the ratings of electrical products that are made in China are usually exaggerated. Best of luck with your great project.