As an old Electrical Engineer myself I like the idea of copper busbars but I wouldn't run them both in the same channel, the possibilities of moisture or even condensation inside the insulation on a boat is high and may lead to arcing ! 50kw is no joke even at 48v and must be given every consideration, if it was in a factory or distribution system it would have to have separate insulation and a good air gap ! I don't think you want the channel sealed either because you'll need to be able to inspect the connections so it may be necessary to leave some holes for drainage in case water gets in.

I‘m an EE since 40 years and I was working with bus bars. Please take the added contact resistance in account if you are using splices and especially on your stack‘s. We put always crease between the contacting areas. It’s not a yoke. Not to insulate but to enhance the conductivity between pressed conducting areas and not to get corrosion in between. Please look for specific literature . It is named conductiv grease

I love the respectful way so many have made suggestions. Speaks to the quality of the channel👍🏻👍🏻

Coming out of the power generation industry we used a hollow buss system because of the increased surface area and since curent flows on the surface of the buss there was less heat build up. Also, we used chilled air to remove the heat and keep the resistance from increasing. I sure hope this works well for you. Also I aggree that I would not run the + and - bus in the same channel since you could experience arcing when you start puching higher amount of current accross the buss. Good luck and God bless

Regarding the Busbars: many electricians already said their concerns: - putting them in same enclosure - not using conductivity grease between plate connections - not using copper rivets / using brass instead of pure copper screws - calculating dimensions only for standard ambient temp instead of critical temp (you are in the warm regions often so calculate for 40°+ celsius - using only adhesive to close the glassfibre enclosure BUT ALSO - there is also a mechanical point : Please check with your Naval engineer what the maximal deflection of your boat will be . Calculate the work hardening of your copper bus bars after some years of deflection cycles. I think it will be under the aluminum values, but i am not sure. Even small deflections over millions of cycles will harden the copper and it will at least crack, this will lead to high resistance and if big enough to a fiery ending. That is why in most applications even with small possibility of cable (busbar) movement one would use fine-core flexible cables instead of wire. Possible mitigation: Install measuring cables between all 3 endings of the busbars, use an automatic logging device which can log volts amperes and resistance. You could measure between +and - ends of the bus bars, but you then would not know which one is the problem. That is why you need separate measuring cables.

I love you guys, so this comes from the bottom of my heart. As an Electrical engineer within the offshore industry I watched the busbar installation with a high degree of concern. You need to consult a certified electrician/ engineer with specialty in marine installations and get professional advice. There are so many safety concerns, that you have not taken into account, that I do not know where to start 😅 Please stop and rethink this setup before continuing, as this could literally burn down your beautiful new catamaran/ home 🫶🏼 My warmest regards Jesper (Denmark)

Canadian Structural Engineer Here: Slicing additional area out of your support trusses absolutely does impact strength, and you've done it at the same spot all the way down the middle of the boat. It won't be a huge reduction, but it does create a weak plane right down the middle of the boat. I'd weld some stiffeners above and below each of the openings, where you have enlarged the openings, before the busway goes in.

I manage buildings that use busbars exclusively and you have to think of 3 things. The insulation between the busbars have to be extremely well made when you are running that high of a load. the connection points between 2 bars have to be milled as a bar will not be flat, and with that load you will have a lot of heat if you don't have a 100% good connection. And 3rd and last that i have not seen anyone talk about think of how much the bar will expand and shrink with heat. a long straight bar will expand much when it gets warm and that will compromise the connections.

You guys have many well educated loyal fans , the comments are excellent .

Looks awesome Brian. Are you worried about the chafing of the aluminum holes on the fiberglass channel? With all the movement that boat is gonna be doing, I'm worried about the aluminum chewing into that fiberglass and grounding that out. Food for thought.

Brian, everyone who has ever watched any of your content knows you’re an extremely intelligent and talented Man. I’m not an electrical engineer, but I’d definitely run each bus bar separately as a rookie electrician. AC and DC. You’re well versed on how bad salt conditions and exposure kills everything. Also PLEASE use a respirator anytime you grind, cut or drill metal. Each time it creates microscopic metal dust that small shards get in your lungs and creates scar tissue. Definitely a serious no no. Best of luck moving forward. Nothing but love and positive wishes for you, your Family and this legendary build. Just want you to be safe. ❤

Brian I am also a Master electrical engineer , I watch you from year and this is my first comment. What I wanted to inform you the buss bar are use in MCC room who do no move , MCC center on large boat are mounted on vibration support. also the bus bar should be separated and isolated by 12 inch’s or so. The fiber tray needs to be mounted solid with isolation for vibration . What fuse size and type do you use on this line? And what disconnect do you use ? Personally I will use rated cables for your application and will split the line in 2 different pass .Brian good lock .

As an electrician and a boater, the bus bars need to be installed with standoff insulators, and the bars should be in separate channels. I would also use coated bars, the danger of something conductive shorting them out is too great. Best of luck.

I was tapping away at the keys commenting to remind you to add threadlock. Lo and behold, perfectly done. Well done Brian! Proper.

A lot of really good comments here by electrical engineers - I'm sure Brian will take them seriously. I'm also a EE, also with ME & thermal experience. Might want to also consider that the fiberglass housing is a thermal insulator. If you have 3% loss in the bus bars and are transferring 50 kW, that means 1500W of heat being generated. With that inside a thermally isolated chamber things will get hot. Fortunately that's distributed over a long distance, but is it negligible?

Your electrical backbone using buswork in a sailboat is certainly daring. Mixing both polarities in the same fiberglass channel with nothing more than a fiberglass spacer is INSANE! This is a catastrophe waiting to happen! The buswork should be at least in totally separate channels. Using bus in an environment that will make it shrink, stretch, and bind is the daring part. Doing this next to each other is an accident waiting to happen. Buswork used in industry and switchgear is in a relatively stable environment. The temperature doesn’t change much, there is no movement, and there is little chance that it will come in contact with liquids or other hazardous materials. There is lots of clearance between bus bar members. But what you have is the opposite where it is entirely possible for this to be immersed in sea water. On top of that, wrecks happen, and there is certainly a chance that part of the assembly could fail and become an out of control 50KW welder! This is a situation where your boat should FAIL certification! Do yourself a favor and have both a marine surveyor and an electrical engineer who is fully familiar with buswork assemblies inspect your design and handywork. Certainly, do this before you enclose it with a deck.

This build is being done in Brisbane Australia. Does anyone know WHO might be best for Brian and the Delos team to consult? It seems clear from the comments an expert needs to be consulted and it seems that the quality and experience of the expert is going to be very very important. Also bear in mind that (I think) these videos are on delay so the build may actually be a fair bit ahead - which makes this even more urgent. Make Delos SAFE AGAIN!

It is amazing to watch you guys develop and build your custom new boat! While other channels are going to mainstream manufacturers and getting new catamarans or trimaran, and two of them are having serious issues, one caused by a runaway fishing boat that plowed into them at night at anchor at night, and then you have one channel that is taking their original small boat and completely gutting it and redoing it. It’s amazing that all this is happening in a relatively short period of time with so many different sailing channels. a lot of fun to watch you all, and very inspiring and uplifting to watch the story. Thank you so much for sharing your life with us!

I worked with bus bars in a power station.... suggest some kind of ventilation system to carry the heat away, consider temp monitoring so you know about possible heat build up, consider flex joints for heat expansion, consider bevel washers on the joints and the correct conductive grease...... consider stand off insulators..... agree with others on running pos and neg in seperate channels....... all the best !

Brian. Get some advice from a maritime electrical engineer, there are risks here (moisture ingress, shorting, method of jointing causing heat, movement, electrolysis). I’m an ex marine engineer and to be honest I’m not happy that this is a safe design for a marine environment, such high currents can be dangerous in the event of failure and your conduits are effectively inaccessible. I’m also not sure Insurers would accept this unless it was certified and tested.

I have read all the comments and there is so much truth in them. Buss bars are great for distribution equipment mounted on a concrete pad with minimal vibrations and where thermal fluctuations can be mitigated by short runs and stand-offs. Brian all these people obviously love you and your family very much as do I. A ground fault failure here could be catastrophic to the point it could compromise the hull of the boat. I would say sleeve the holes around the fiberglass channel to protect it and install the $9K worth of cables by snaking them in the channel. Prayers for you and yours for many blessings always Bob

Another engineer here, lots of colleagues already gave you lots of advice in every major area. Please, HEAR THEM AND TAKE ACTION. There are some very serious concerns regarding safety, 50 KW is a lot amps and is to be taken very seriously. Personally even if this assebmly just "works", I would be terrified of condensation inside the fiberglass channel. Another point I would worry about and would investigate to be very sure is corrosion by condensation, salty air and electrolisis between metals.

Brian is a pretty smart guy. While his plan is ingenious and him being an electrical engineer says a lot, I would have probably run separate channels for each busbar just to be safe. I suspect there will be flexing/movement on a boat so I prefer the separation of the two conductors.

😂 Brian has very subtly acknowledged all the helpful advice on his masterpiece. Love your work brother.

With all the constant churning of the ocean, and the slamming on the boat, you should run some rubber edging around those cut holes or they will act like knife blades. wherever a conduit/pipe goes through a cut hole put some rubber U trim/edging. Even that steering column will be slamming up and down with the waves.

Im not an electrician nor an engineer, but with that being said - Purely from a maintenance perspective I would have some concerns, the main one being that the bus bars are essentially hard-fixed into the hull, meaning: if something goes wrong you need to cut the hull wide open to get to the issue, and if the bus needs replacing you'll need a full refit. Cables can be fed in and fed out, like a wiring loom in a car, but when the wiring loom is part of the chassis that becomes almost impossible without taking the car apart. That being said, im interested to see how this turn out in the future!

another retired engineer. I calculated with CTE of 16.4 micron/meter/degree C for copper would yield an expansion of. .387 mm/degree C in a length of 23 meters, or about 15 mm with a delta C of 40 degrees. Need to have a flexible join somewhere.

A video in which you explain how the concept came about would be cool. We had 48V in the last boat and are currently working on a 400V system for the new boat! There are now HV systems for drives and HV hybrid inverters for AC/DC conversion. It would be interesting to know why you opted for low voltage and high currents? I am only a mechanical engineer and the high cable cross sections were the reason to develop the 400V high voltage system

Delos crew, likely won't read this but hopefully you do. I work with large diesel electric equipment and some alarm bells are going off for this idea. On the EE side, there is nothing I can tell you that you dont already know or could easily find. I think in a controlled environment that this would work great. I do not think the bus bar idea will work long term. You are playing with 4 very different materials (aluminum, copper, brass and frp) that are going to experience thermal expansion at different rates. Tapping m6 into copper is going to work fine, until it isnt. Then you have a lap joint in a marine environment thats going to corrode and get hot. And its very hidden. 48v @1000a is scary in an aluminum structure in the middle of the ocean thats habited. I also think that laying +/- in the same channel is unwise. Salt water IS going to get in the channel. Can it escape? If the bar is in compression and buckles up, is it contained or? Youve already done the hard work of laying thr conduit. Spend the 3 grand on running two pairs of 500 mcm DLO (2+, 2- runs of 50ft? @14 bucks a foot). Either way, good luck!

There is a reason why electric vehicles stack batteries to 400V-800V. This would result in much lower currents and therefore smaller conductors for the same power. Electric vehicles use special wires (and connectors) to handle high voltages and high currents. Brian, - maybe above is something to consider, and include good cell balancing electronics. Love your videos and ingenuity, but you may want to rethink this one and take the many comments from others here into consideration (if it is not too late). All the Best! This was my first time commenting on a video.

As i was watching this video and thinking this must be different for a boat (is it ?) but got more and more concerned. I was a construction manager in the US and built plenty of condo towers with bus ducts. We had one instance where the shaft the duct ran in got wet and the result was catastrophic. Pretty ugly actually. Concerned about this install in a boat hull environment being hot, maybe salty, humid and not to mention the movement issues also noted by others. Wouldn't hurt to get a third party expert second opinion on this design and install. I am sure you are a smart guy, i have been following your channel for years, recognize you are extremely clever. But with this being a life safety issue, you can never be too pragmatic. Great channel, awesome adventures and experiences. Love to the family and best regards 😊

Great idea on the copper bus bars. Might be a bit late to the party, but thermal expansion on those long buses is a thing and the fiberglass track allows the bars to expand freely as long as 1 end is free. Braided copper grounding straps exist and could be a good choice for this.

Loving watching the build. As an electrician I hate the serviceability of where you have put the bar. I have never worked in the marine industry but I would be stepping that voltage up alot. Running some double insulated underground cable in conduits to a sub board in the back then stepping it down. Yes there will be some extra losses in transformers. Easy to pull cables through again and replace transformers later if needed.

I agree also that placing both buss bars inside the same trough is only asking for trouble in a wet moveable environment! It's only a matter of WHEN water or condensation will fill your trough and completely melt down your buss bars and electrical system. Might want to reconsider or investigate a different way to independently insulate buss bars in a wet metallic environment.😢😢

I gotta be honest, I’m pretty nervous about this electrical system. I’m no engineer but do work in power production. Reading the comments of electrical engineers solidifies my feelings. Please be safe with this Brian, and please take in every one of these comments.

Brian take some time to watch arcflash videos. If copper sublimates as in an arcflash event. A 1 inch cube of copper expands 67,000 times and burns hotter than the surface of the sun. I dont want to scare you but this is scary stuff! I encourage you to consult a maritime EE. This is not the place to save money electrical safety is paramount.

I am so impressed with all the qualified remarks being given to Brian. It is really cool and very thoughtful and helpful information to take into consideration for the safety of his family, everyone.👍💯🤔🏆

Just watched the episode… and am also an EE … and was concerned about the bus bar bonding strategy. Agree with Brian’s approach of making the joints accessible but I think the bonding needs to be revisited before operation. Corrosion will occur between plates causing resistance to increase. First ideas that come to mind is a dialectic grease as a shortcut but would prefer to see them bonded via weld or solder or some other air tight bond. Also agree with running bus bars in separate channels as opposed to in same. Love you guys… have been watching since before nugget was born. Would love to do a meetup if you come to New England again.

Having worked with bus bar on the utility scale... That stack connection is probably fine, but you can bend bus bar. There is also braided copper bus bar jumpers that are flexible. That probably the way I would have gone. But I've seen both work great.

Fascinating how you converted all of that…much sleeker look less space used…well done Sir! Blessings to the family…

I would consider brazing the bars together to eliminate any risk of the bolts loosening over time and requiring service. With the bars on top of each other in a single channel you will never be able to get to the lower positive bus bar to service it if needed. Brazing them together will also help prevent corrosion.

There’s about five boat shows I watch like you guys and you guys are all amazing. Seems like engineers the way you can fix everything and just to figure out all that. Why did you just said my mind starts hurting but you love it because you understand it so wellyour boat’s coming along it’s gonna be amazing

E E here. You've got a low voltage Tesla here. They have extraordinary fault protection including pyrotechnic fuses that quench DARPA type metal dust explosions. This is very high level EE design.

Having dealt with many low voltage high current bus bar systems I applaud your choice for Delos 2. I'm curious about your choice of running positive power on the bottom bus bar & negative power on the top within the fiberglass channel. Assuming the motor/generator/battery system utilizes negative ground like most conveyance electrical systems, what happens if the aluminum spars grind through the fiberglass channel due to boat motion, temperature gradients or flexing of the hull? Is the possibility of breeching the fiberglass channel a non-issue or will the system be positive rather than negative ground? More ?? for the drive system video...

After thinking about the critical systems aspect of this.... I think i would run redundant lines to left and right engines. This would in theory half the amperage needed in each line, and might allow you to use cable rather than a bus bar. But even if you still use a bus bar, you could use a smaller one, that could be one continuous bar mounted vertically and bent to left and right, rather than needing a bolted/braised T-junction. And as a critical system, even if one bus shorted and failed, you would still have power to at least one engine.

Hi, it has taken me over a year since first watching you on KZbin much to my enjoyment. I so hope this new venture you are on bears glorious fruition. I spent a lot of time in the 1980’s whilst in the Royal Air Force and your sailing exploits rekindle fond memories, thank you.

8:17 I can see how this will work for insulating it electrically, but what about the magnetic field shielding? Even less than 1kA under your floor may end up messing up with the circuits or devices you will be running across the hull. Those weird issues will drive you mad and can potentially be hazardous when boat control gets impacted.

As others have mentioned would really suggest sepperate paths for neg and pos. also maintain access to any joints as thermal expansion can loosen the bolts resulting in arcing at best and fire/electrecution at worst. love the idea have wanted to do something similar myself for a long time!

I am guessing a stretch of 15m (x2) and find that the voltage drop is approximately 1.V (or 2%), and the power loss is approximately 1kW for a 50kw nomina load. As a ship electrification, i have never seen Cu bars encapsulated.. cresttive, but...questioning that it may be an idea to ensure airing of the 1kw of heat. (Ie. 2 separate trays installing the bars on isolators allowing air circulation). Edit: in operation you will need access to every screw and joint for maintenance purpose. / Amazing project, wish you success.

Dude if Brian's electrical idea works...... that'd be amazing!

From a mechanical perspective, i would also look at how much the hull is going to shrink in cold water versus how much the coper can expand and how much the fiberglass channel. Doing a quick calculation, if there is a 15 deg C difference in temp between the copper and the aluminum hull you will exceed the strength of the copper and it will bend or break. This is assuming rigid end connections with a 15 meter length.

bryan solving problems is just fun to see and how he explains it is just woww . learning a lot for sure .

I think you need to rethink your voltage. At 400v your whole system only needs 125 amps witch is much easier to deal with. No buss bar needed. This system you built will be impossible to inspect and repair. Since your new to electrical engineering using prebuilt parts will make the system much safer. Take a look at your blocks that you built to go from one tray to the other. Each connection you made adds resistance and a failure point, You just built a small heater, what you should have done is bent the buss bar to the shape you need. I am also very worried about the the bars being so close with no air gap. This is both a heat and an arc flash issue. If salt water ever gets in your going to have an instant 50kw welders until your fuses blow. Once that happens you have no way to repair it. A better option is to change voltage then put in regular water tight conduit and pull normal wires that have no junctions under your deck. The get wires rated for water and to be in a conduit together. I love your work and want you to be successful.

Brian, as an electrician, I am very impressed with your ability and ingenuity and skill to come up with this solution and set it up, amazing job buddy👍👍❤️❤️🇮🇪🇮🇪

The system also needs a way to break the current instantly in case of a short. This much power will turn your aluminum hull into molten metal and fire faster than you can react. Imo there is insufficient insulation around your buss bars and condensation will be a problem at some point. I do respect your right to do it any way you see fit though, it's your family and your boat. Best wishes.

This episode was so interesting. I love how you used a commercial application to solve a small boat problem. It looked like a very satisfying electrical project. I trust you did the math. My wife teaches math and it works:)

I'm not an engineer, but I work in industrial power supply. Orienting the bars face to face, even with insulation, presents an opportunity for arc flash. It's much safer to put the bars edge to edge. Check out UL standard 891 for some suggestions on using copper bus.

I am not an expert in any of this... My concern is stray current, seeing as how it appears that the Wynns boat seems to be eating itself in every area, due to stray current. Having such long runs with bus bars and having an aluminum boat I'm fearful of the same issues for you guys. This is such a beautiful project and I truly am hoping for the best for you. I don't know if my concern is an apples and oranges situation or a valid concern. Much love, and best wishes in your dream build.

I have built custom bus bars for a variety of applications and I only use c10100 copper which is the best copper for conductivity. I absolutely would not have bare copper bar running through a hull with limited to no accessibility. If water were to make it in the area you would have no way to access damage or make repairs. The bus bars should be fully encapsulated in electrical casting resin, the fiberglass trays would be perfect for casting if they were an inch wider than the bus bars. I do not use nuts and bolts to join sections of my custom bus bars, they are riveted together using the same grade copper before being cast in resin. Using 48vdc for electric propulsion is inefficient for many reasons. I am designing a hybrid propulsion system for my brothers boat and I am building a 400v system. The diy electric car conversions from the 90s were using 48vdc systems.

Hi Bryan, very creative and innovative design! I apologize if this is repeating something already asked below, I had a few thoughts when watching the video. I don't have the depth of electrical knowledge to appreciate that side of this design, so my comments are primarily from a mechanical/structural viewpoint. It must be super rewarding to be designing and building a new Delos, thanks for taking the time to share your work. Here are my questions: 1) how will you inspect the lower buss bar? how often do the mechanical joints need to be inspected? 2) how hot will the buss bar be during normal? high loading? how will the thermal expansion take place? will both bars be the same temperature? 3) If salt water got into the fiberglass conduit(channel) can it drain? would the salt residue create any issues? 4) is there a danger of arcing between the bars? 5) will the areas where the fiberglass rest on the hull stringers have differential movement when the hull flexes under load? if so, will this wear through the fiberglass over time? can this be inspected? if this were an issue is there a way to install a grommet in these areas? 6) is it possible that the buss bar can move of bounce up and down in a seaway? this motion could loosen the mechanical joints or damage the fiberglass conduit. I have followed and enjoyed watching the Delos adventures for many years and hope these comments are helpful.

Went to comments to make my point - but it’s been said so many times 😄 only thing I would add is that you could fill the channel with transformer oil - but you need to consider access and thermal expansion - your 3% volt drop will be 1.5kW of heat in those bars!

Not only building your own home from scratch is rewarding, but you guys will know every inch of it when it comes to toubleshooting in the future. Love the build videos!

Swedish sailing vloggers unite! Delos and Ran should do a little collaboration boat building if you can.

I just wanted to comment on the sponsor ZBiotics. They work. Me and my friends were turned on to ZBiotics by doctor friends and listen we party on them, South Louisiana drinking lol, and they have worked every time. For me it’s the no nausea part of the hangover that’s best but also no headache. Best if you can remember to take some ibuprofen at bed but man no hangover the next day. It doesn’t cure tiredness if you stay up late/alcohol sleep isn’t good sleep but you can function the next day.

Dirk here from Germany. Long time lurker, finally hit the notification bell. I hope, my English is good enough you can understand the concerns I have? Be very carefull!!!! I agree with Ian-C.01>>> I am electrician as well. 1000 Amp DC/ 48V ain't no joke. You running +/ - in the same duct only with an layer of 8 mm insulation??? I hope I get it correct, the 8mm insulation layer has no contact to the 2 side walls of the fiber glas duct, and will not be glued to them correct? So you still doesnt have a fully concealed Plus duct and fully concealed Minus duct, correct? You are underestimate the humidity and moisture,& the twist of the whole ship structre. I have seen Master electrical cabinets for big bank buildings here in Germany for 400V AC 1000A with even smaller copper busbars as those ones on your ship, The Bang I heard 2 level above the basement was enourmous during 1st time switch on the system. The cabinet cover had a hole 30x30 cm only because 1 copper busbar ( 1 phase of 3) hat not the correct air gap safety distance to the cabinet grounded sidewall on a foggy moisterus day decades ago. Dont get me wrong, I dont want to schoolmaster you or lecturing you,I am no ship builder electrician after all, but I would consult a electical engineer in Aussi Land, who's specialized in electric installation in ship/ vessel power distribution systems. Personally I would run them ( +/-) separate as long as I can,concealed from each other, and would only join them only in the Machine compartment. Run them ( +/-) together as short you can effort for safety. Have you thought about the master kill switch, which allows you to disconnect the battery power from the busbars in case of problems? This switch I would use remotly controlled, not entering the batterie compartment or the machine compartment for operation. A switch often used in transformer stations on land on medium- high voltage systems all above 1000V AC. Nevertheless, I love your channel. cant wait week by week on the new episode.

Hi Brian, as others have mentioned moisture in the channel could be a problem. I would consider drilling drain holes in the bottom and sealing between layers. An even better option would actually be to fill the sections between splices with epoxy. Lastly having worked with buss bar a lot, I'd say that the stack joint isn't ideal and will add a lot of resistance. Effectively each layer becomes a series joint adding compound losses to the circuit. Not a significant problem at 600v but at 48v it will be substantial. Bend up an offset. Keep the bends with a radius at least equal to the thickness preferably 1.5x if there's room and the buss bend up nicely.

Innovative design. I'm sure the team has considered this but, I hope the bus bar splices maintain their integrity in the dynamic environment of a vessel and moisture in the conduit is not a problem. Perhaps I missed when this was addressed.

Hi Brian , there is a lot of good advise in the comments. For my 10 cents look up voltage creepage distance, this is industry standard in High Voltage. also there is a HV powder coating which is well worth looking at. Lovin' your work

Sailing SV Lynx is doing a very similar thing with bus bars on his Cat build. He just moved his batteries a lot closer to the engines. You may not be able to do that for weight distribution. He’s having some issues with that.

I see you've got alot of feedback regarding the electrical system. I think it's a nice idea and that you should certainly take their advice into account. The only thing I would add as a major must have is a physical disconnection lever on both sides. You see them usually being used on big power packs, a physical lever that makes or breakes a connection. But besides that, great work! It sure as hell looks like a great project! Keep it up!

Double insulated wire with a cross section of 240mm2 has a price in the EU of approx. 25 USD/meter (type 1-YY 1x240 CR) 3x17 + 3x17 meters costs: 2550 USD. A ready-made solution with 100x less risk

Yes, fiberglass makes a good insulator, yet it is susceptible to moisture, I would suggest two insulators between positive and negative bars as well as paint the outside of the fiberglass with numerous coats of hard coat that is used on fiberglass boats to help cut down on blisters from moisture getting into the fiberglass. The more coats of hard coat the better, my rudder only had four coats on it and when pulled out had hundreds of blisters on it, so adjust as you see fit, it is your boat. Best of luck

As long as you have access to all the the splice for future maintenance and check outs the system is genius Man!

To monitor the resistance of each junction you should measure the temperature with an infrared thermometer. Low temp means low resistance which is what you want. By layering like you have, there is no way to measure the bottom buss bar. If the resistance of the bottom bar goes up it will warm up pretty quick in the confined space. Use conductive grease in the joints and around the screws reduce resistance and corrosion. Polish the copper junction before assembly. Torque each screw for minimum resistance. You'd be amazed how much better it conducts. Personally I would have installed them vertically for heat dissipation and servicing if you have the space. That is what we did in telephone exchanges where it is not uncommon to conduct 1000 amps at 48 VDC. Good luck.

Have you allowed for expansion, copper over that length will move quite a bit ..

My great grandfather was one of the original miners on Svalbard. Interesting to hear you mention it albeit I doubt he got there on an aluminium boat!

How can the entirty of the conductors be routinely inspected for chaffing against frames and eventual short circuiting on those frames? Bound to be chaffing due to sea states.

As others have alluded, I would prefer the batteries much closer to the motors, independent feed cables for each motor, a higher DC voltage (as much as possible) and thinner flexible cables. The 3% distance loss is not negligible for a solar application. Other heavy equipment (e.g. generator), storage or additional tanks can be installed forward to balance the boat.

Electrical engineer here too, my career was in semiconductors but a few years ago I designed a power system for my camper, 400 amps @ 12v is very serious. Minus seawater. 1,000 amps @ 48v is Impressive engineering.

Wow! What a job, Brian! Fingers-crossed that when you turn the power on sparks don't fly and things don't start to melt! May Poseidon, Amphitrite, ...and all of the rest of the sea gods be with you!

32:15 This is a very frightening admission. You absolutely need to throughly test this as soon as possible, and have some experts inspect it. I am by no means an engineer, let alone an electrical engineer, but I am a former architect with some structural engineering training, and I’m sensing some serious issues with this implementation. For one, the positive and negative bus bars seem very close to one another and in the environment of a marine watercraft, I feel like moisture and corrosion are going to be huge issues. Secondly, in the context of the huge metal cage in which this sits, I have questions about the way all of the metal in the boat will interact with this system. Third, in buildings we include things like expansion joints when making long spans out of rigid material when flexure is an issue. Boats are constantly in flexure, and I worry that these rigid bolt joints may be a problem. Lastly, and related to this, how hot is this thing going to get, and will its thermal expansion cause issues? And why brass bolts and not keeping it copper? Isn’t that going to affect how much power comes through it and attract corrosion? I have concerns this thing will not be insulated enough and the whole metal structure of the boat will be conducting current or arcing. Overall, this seems very dangerous and like kind of thing that should most definitely not be winged and DIY’d, but designed, inspected, and tested by someone with a high degree of experience with this. Also, cutting more holes in the structural elements of the boat definitely weakens them.

Incredible work on the bars Brian ... and Awesome to have people supporting you along the way even just to voice and motivate you !!! Well done Kaza also ... hope the Nugs gets through the sickness quick ! Thank you so much every week for the videos (to the whole team!) ... such an inspiration. xx

As long as it stays dry, it should be okay. Salt water ingress would be a disaster. Keep an eye on electrolysis and the gasses it will create.

sick!! i have a bus bar for my electric boat design as well... however i'm integrating the bus bars into the batteries, and actively cooling the bus bar to increase efficiency as well as cool the batteries.

Brian, I don't know how relevant this is, but might be worth checking in with 'Gone With The Wynns'. I think they have some kind of electric hybrid motor propulsion system also and their latest video on their YT channel showed a significant battery/energy management failure.

Master Electrician and sailor here... I share the concerns of others on having bare bus bars stacked in the f/g channels. One point I haven't seem mentioned is that the stack of bus bar-insulator-bus bar seems to me to be a huge capacitor. Maybe this is a problem, maybe not. Definitely worth looking into though. Others have mentioned heat issues, have you considered thermal expansion and contraction of the bus bars and allowed for that in the long runs? Also, bolted connections should be done with belleville washers. Do yourself a favour and hipot test the whole assembly before you energize it!

Dear Brian. Did you derated busbars for heating, closed space and non ventilation? Since you choose 80x6mm I think that you didn't. Your bus bar will be overheated. Also when bus bar is dimensioned properly, it heats up to 65C. Additionaly I think that it is better to use heat shrinkable tubing, halogen free, than custom made insulation. Please recheck your calculation for current carrying capacity of bus bar.

I like the idea of that huge copper bar One problem comes to mind when you start pulling the juice through that giant copper bar I think it would heat maybe enough to fry an egg off it 🔥

Great comments from EE engineers here However I think I would of just moved the battery bank to the aft nearer to the engines, I’m sure the weight could of been offset by moving other components to forward. Keep it simple.

So 2 bus bars with an isolator in the middle sounds like a great capacitor ! 😅

Bus bar is the only way to go! love to see this type of stuff! Also im in electrical sales and when you were talking about wires i was yelling bus bar! LOL

Hey Brian, In my old telecommunication office we had a battery plant that the positive and negative were far apart! Plus you should have a "shunt" built into the buss in case of overload condition. Lastly, the difference of elevation you have at the T connection, I'd recommend a "C" to connect which you have less points of failure and less resistance with the stack plate method.

Brian, why did you put the batteries so far forward? Moving the batteries closer to the engines would also reduce the voltage drop. Do they make a narrower fiber channel? I would add two channels, each in a different mouse hole, rather than trying to put both bus bars in one channel! How do you plan to cool and ventilate the bus bars? I think it's important to cool and reduce condensation on the bus bars and insulation in your 2 bars in one channel design. Please tell me you've planned a way to be able to service and replace those long stiff bus bars if they corroded over time, or need the separating insulation layer replaced.

I would recommend you use a thermal camera from time to time (once or twice a year) and check the screws and connections for hot spots. stuff move and thermal cycling will loosen bolts. Loose bolts will generate nasty surprises what are very unpleasant with the currents used here. This is what we do regularly and we always find some screws that have gotten loose somewhere at my work!

I'm not an EE, but I've got concerns about how close your bars are (even with insulation) and those splices. Without a very solid electrical connection between the bars, most of the current is going to be flowing through the screws holding things together. I definitely feel like, while the bus bar was a good idea to reduce weight and expense, probably should have been handled much earlier in planning, and involved an EE to ensure it was done properly.

You two are a HUGE inspiration for my retirement plans! Im an industrial medium and high voltage electrician. I would recommend investing in non-oxidizing conductive grease and a high quality torque wrench. Vibrations are going to be a big enemy for the rigidity in your system. It may be a good idea to add bushings or a sleeve to the holes that were widened with the die grinder. I know its not convenient, but the entire vessel will flex a little bit and stress all of the splices on the bus. I would make flexible splices using braided busbar (which might not be possible with the amperages you are needing) or bite the bullet and do it with crimped lugs and paralleled wire. Sea air + coppper = statue of liberty green. I would imagine anything you cant clean would need to be sealed from moisture ingress. It might be worth getting the input from a marine electrical engineer. I wish this project to have only success and fruitfulness. Its angry invisible pixies. Scary. Please be safe.

I am SO glad you broke down the electrical needs into microwaves, TVs, and MacBooks. Us Americans needed it 😆

Brian, you've always been quite the ingenious "fixer". Was cool watching you figure things out.

Did you consult with an electical engineer? From the comments and from my own experience with HV EV systems it seems as if you might have some serious safety problems. One major problem incountered in EV's is that the constant vibration is very hard on straight runs of solid wire/bus bars so there is always a flexible joint somewhere so that the bar can flex and also expand/contract with the heat generated by the current. Also when changes of direction were needed, instead of using layers of copper like you did, we would heat the bus bar and bend it to make the offset needed. Besides you're going to have to have the boat inspected for insurance reasons and hopefully you'll have some documentation on the electrical bus bars.

We use DC bus bar systems like this in the telecoms industry. It's a nice way of working when you're on dry, still land. My concern here (in addition to the other comments) is around the flex on the yacht's hull. You will work-harden the copper components causing micro-fractures, which can lead to arcing. This is really an instance where I would recommend running multiple stranded conductors in parallel. Enjoy the videos, so sorry to be a bit of a wet blanket.