Thank you. I have twin gt15 turbos I want to setup. But I have real work to do unfortunately. Or fortunately.

Now you should do variable turbos. There’s a guy on Tdi club who took a stock 1.9 vw Tdi. Used the stock variable turbo as one of a compound system and had very good results.

But I still love you my brother man for whatever you choose to teach us. You are a tremendously amazing friend/teacher. Thank you ❤❤❤❤❤

Excellent , well researched Video . As Usual . You're quite good at this stuff Young Man .

@@fastinradfordable sweet what do you plan on putting them on

and the way he express his ideas are simply profecient, how i would love to go to school once again if the teachers would be same as him

Really? So it’s the heat energy from the manifold that spins the turbo, not the air flow/pressure? Hmm, interesting!

@@shane888davies6 "even I know heat has nothing to do with it" where do you think the pressure comes from? It's heat. The explosion in the engine primarily generates HEAT, which is deposited primarily in the exhaust gases, which exit the engine at high pressure CAUSED BY the heat. Heat makes stuff move more, which is what generates pressure in matter. You get more pressure with less molecules if the heat is higher. If you reduce the exhaust gases to like 100 degrees celsius, they'll be at a very much lower pressure than when the exact same number of molecules exit the engine. An explosion generates neither matter nor energy - it transforms chemical energy into thermal energy, causing the resulting gas mixture to expand rapidly and violently, pressing on the piston, then exiting the engine in a still compressed and scorching hot pressure wave. In short, the heat is the cause of the actual pressure of the gas. If you ran an intercooler on the exhaust gases of the engine, then into a turbo, you'd lose all the turbo pressure, even in a magical reality where the impedance of flow created by the cooler caused no reduction in gas weight outflow from the engine.

@Shane888 Davies ooh look, its one of those "tell me you don't understand thermodynamics without..." kinda moments 🗿

Ever wondered who the creator of this is universe is? I present to you, my God and my Father The Lord God, and my Lord and Saviour Jesus. My life changed forever because of him. God wants to have a relationship with you. He loves you so he didn't spare his own Son Jesus Christ for that reason(John 3:16) that died for your sins. He is not religious. He isn't about religion. He wants a relationship. *Even though you sinned awfully against him and he would have to send you to hell, but he is A God of love as the Bible says.* He wants to be your friend. If you'll accept him. I learnt it that way. We all have our own beliefs and that's why we have to trust the only usable source: the Bible, the Word of God . He didn't put a bunch of rules you have to follow, It was people that did. Those are false. Only way you can come to God is you coming to his Son, Jesus. His only Son died on the cross of Calvary, For YOU. So you may come to God and go to heaven, to be with him. God *focuses on the individual* ,and you are that one today. He loves you so much, He created you, He shaped you, He formed you. Why don't you accept his love today? All you have to do is to come to the cross Ask Jesus for forgiveness by saying you're sorry for your sins. That's where the journey of passing from death to life begins! *He loves us enough to give us a choice: we can ask him to be part of our lives now, and so avoid hell and look forward to enjoying his perfect eternal kingdom, or not.* We Christains need to speak out. If you're a Christian let's speak up for our faith already. We know what is going on in this world is sin, abortion, homosexuality, prosperity gospel... Let's do it brethren already. If you reject Jesus, I am telling you, you will face the biggest amount of punishment in hell, more than murderers, adulterers, liars constantly gossiping, the proud and the wicked. If you reject Christ God cant forgive you of it until you come truly to Christ. Take it seriously, Amen. 10 at the name of Jesus every knee should bow, of those in heaven, and of those on earth, and of those under the earth, and that every tongue should confess that Jesus Christ is Lord, 11 to the glory of God the Father. Philippians 2:10-‬11 NKJV Watch: kzbin.infoRCANXQjDCm8?feature=share

looking to youtube from professional shit makes no sense. youtubers arent pioneering anything

@@nomercyinc6783 they are pioneering how we get information. I learned a lot of stuff about engines, guns, and you name it, easier than I did reading it out of a book. So yes, they are pioneering how we get information, not the information itself.

@@nomercyinc6783 everyone in the automotive world knows that REAL insightful information comes from experience. It’s also common knowledge that wherever you go for information you’ll have to wade through bullshit before you find what you’re looking for. KZbin is nothing more than documented experience in an easy-to-find format. I’d say you’re the one behind by not using every resource and reference tool that you have. Hanes manual open in front of me, I still KZbin almost everything just for that one piece of insightful information that makes the entire job less of a headache.

@@nomercyinc6783 You don´t know 2stroke stuffing

I'll do a video on something like that, because the same thing applies to bigger brakes too.

Your explanation is totally incorrect. For pneumatic rubber tyres, friction is absolutely 100% dependent on the size of the contact patch. For very complicated reasons, as the shear stress acting on a tyre increases, the coefficient of friction drops. Increasing the tyre size reduces the amount of shear stress a tyre expriences and therefore increases grip. For the exact same reason this occurs, a heavier car will have less performance than a slower car given equal tyre sizes. It is also the basis of many aspects of chassis tuning (e.g. making the rear suspension stiffer will increase the grip on the front and vice versa). There are a bunch of free resources online for you to learn about this phenomenon but I recommend watching this video (kzbin.info/www/bejne/mIrTY6msisx4p6c) on general vehicle dynamics. The information you're looking for is at 52:55 or so, but I highly, highly recommend watching the whole thing if you're the least bit interested in this sort of thing. It's super dense and well explained, and while it's not 100% correct, it'll give you a rough idea on what to look out for if you wanna do some further reading on your own.

u r right, friction indeed only depends upon weight and coeff. Of friction and not on contact area however key here is there must be direct contact between surface and tyre which is not always possible. sand, debris and other things present on the road could easily break the contact and so does the friction. wider tyres increases the probability of a direct contact over broad spectrum compare to skinner tyres.

You are oversimpilying one of the most complicated aspects of vehicle dynamics. Whole books have been written about tyres.

@@petrolheadJJ Dude I know friction of a tire definetly depends on its width and I didn't simplify anything about tires,read my comment again.What was in my mind was a solid block sliding across a surface.Anyways all I want is to understand how this complex phenomenon works

how are you big into physics ts is too hard

@Matt Morison Ever wondered who the creator of this is universe is? I present to you, my God and my Father The Lord God, and my Lord and Saviour Jesus. My life changed forever because of him. God wants to have a relationship with you. He loves you so he didn't spare his own Son Jesus Christ for that reason(John 3:16) that died for your sins. He is not religious. He isn't about religion. He wants a relationship. *Even though you sinned awfully against him and he would have to send you to hell, but he is A God of love as the Bible says.* He wants to be your friend. If you'll accept him. I learnt it that way. We all have our own beliefs and that's why we have to trust the only usable source: the Bible, the Word of God . He didn't put a bunch of rules you have to follow, It was people that did. Those are false. Only way you can come to God is you coming to his Son, Jesus. His only Son died on the cross of Calvary, For YOU. So you may come to God and go to heaven, to be with him. God *focuses on the individual* ,and you are that one today. He loves you so much, He created you, He shaped you, He formed you. Why don't you accept his love today? All you have to do is to come to the cross Ask Jesus for forgiveness by saying you're sorry for your sins. That's where the journey of passing from death to life begins! *He loves us enough to give us a choice: we can ask him to be part of our lives now, and so avoid hell and look forward to enjoying his perfect eternal kingdom, or not.* We Christains need to speak out. If you're a Christian let's speak up for our faith already. We know what is going on in this world is sin, abortion, homosexuality, prosperity gospel... Let's do it brethren already. If you reject Jesus, I am telling you, you will face the biggest amount of punishment in hell, more than murderers, adulterers, liars constantly gossiping, the proud and the wicked. If you reject Christ God cant forgive you of it until you come truly to Christ. Take it seriously, Amen. 10 at the name of Jesus every knee should bow, of those in heaven, and of those on earth, and of those under the earth, and that every tongue should confess that Jesus Christ is Lord, 11 to the glory of God the Father. Philippians 2:10-‬11 NKJV Watch: kzbin.infoRCANXQjDCm8?feature=share

Would be good to see the twinscroll/single scroll differences highlighted. As far as setups go, it's an interesting middle ground.

@@jonowichert787 We've seen reducing cylinder to cylinder mixing (more pronounced with longer duration/overlap camshafts) being one of the larger factors in why a divided setup acts like a larger engine in the earlier rpm range, and also interestingly, a parallel turbo inline 6 with the front 3 to one single scroll turbo and rear 3 to another single scroll turbo has the same beneficial effect of reducing cylinder mixing as a divided setup. Probably better from the engine's view since there isn't any possibility of cross talk across the divider in the turbine housing, and have seen that it doesn't take much of a path (like a single wastegate divided setup that isn't divided all the way up to the wastegate valve face) in order to make a divided setup act more like an open setup and lose much of the spool/response/VE gains

But why? Isn't compounding good since it gives much more boost pressure?

@@niklas5855 Likely due to not wanting lag they are using the high pressure turbo to create the exhaust volume to spool the primary or low pressure charge and it alone makes enough air flow for the power they need. They then open the wategate on the high pressure and dump all the drive pressure off it so its barely compounding. This will make then the power they want and also spool up is much faster. Yes though it is missing out on the compounding that could happen if they kept the high pressure turbo up. I played with these things years ago with diesel trucks when i used to race them. So in doing it as they are this will at different elevation and load make the engine still make the power where and how much they want it easier then a single. Performance applications very different story.

Interesting!!!

Yup, cuz best sizing is to low boost turbo is twice size of high boost turbo....

I know a guy with a triple turbo Cummins. It’s fucking rowdy.

in case of an L6 can you have each turbo fed by two cylinders?

@@Jacob-W-5570 too complicated for parrallel and not efficient for sequentials or compund

Time well spent

That's the idea that being able to relate an idea to a layperson is the final step of fully understanding it yourself. I love it. This guy has a particular talent for it.

I actually said all that in the video

@@d4a Sorry, got called away before the end. Great video as always!

His description was good, but his definitions... need work. His compound turbo is sequential, not compound as compound turbos are tied directly to the crank shaft, otherwise it was well done.

@@w8stral You are thinking about the turbo compound engine, not the compound turbo. This was a series of radial aircraft engines built by Curtis-Wright called the R-3350 which featured "blow down turbines", which added power to the crank via a fluid coupling. They were tricky to operate, and I'm pretty sure this was the only production engine of this type. A compound turbo the way I've always understood it is more than one turbo mounted in series so that one blows into the other. The turbos are different sizes so that one spools quickly, while the other handles the large amounts of air necessary at high rpm. They supercharge the engine, not directly add power to the crankshaft. Yes, his verbiage is sometimes odd. To his credit, English isn't his first language so he gets a little bit of a pass...

You're partially right, it got the name tri-flux because it's frontal silhouette looked kinda like a Y. It had 3 areas for intake/exhaust, 2 for exhaust (sides) and 1 for intake (on top).

@@tbkriley yes i worded it wrong. By intake being on both sides i meant it being on each side of the head due to the radial/cross valve setup. The intake manifold itself feeds from the top as you said. Which is pretty close to a v engine with top intake manifold and exhaust manifolds on each sides

@driving4answer @TELEGRAM TO CLAIM PRIZE fucking scammers

....... but I like dumb jokes, and he makes them from time to time.

Thank you so much, I'm honored

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Behrooz- Well done my friend and greetings from the US. I had to draw out your plan so I can grasp it but it sure sounds like it checks all the boxes. I've often had similar thoughts but wondered about using maybe a very small electrically powered micro turbo to produce the boost for the larger turbo just as you described. I always wished I had the money to have a small shop and work with someone like yourself to test these ideas. I could work for hours on ideas like that.. Oh well, until then.. Take care my friend.

you're missing one important piece, this setup doesn't actually add any extra energy to the exhaust stream to spool the second turbo. You need to burn fuel for that to happen, and inside the engine is generally the best place for that. Which turns the idea back into a regular compound turbo setup. :)

@@giggiddy thanks man. It makes me happy to see people like you, curious and dedicated to their ideas. I'm poor, here in Iran I only make 150 USD per month. I can't afford to test any of my ideas. Currently I'm applying for University in Canada for Neuroscience Masters. If I make it, I plan to become a Neuroscientist, make money and then attack automotive world with free hand and mind. Wish me luck. You too stay safe and curious.

You would need full control of the valves/gates, perhaps you could use a fancy electronic wastegate like the new turbo smart one to control the transition.

@@AlexanderBurgers I don't intend to add any more energy to the system. This is a solution to reduce lag for big turbo engines.

Ghost your not alone bud. I used to work on jet engines and was right with you on that compound thought I thought smaller woke up quick and fed the larger already compressed air waking it's ass up with fury but then I would think the smaller being the only thing the larger has to breath through it would choke as it woke up and although I kinda see his point I'm still confused on the compound theory and have so many more goddam questions lol.

@@chriss6154 I think it's easy to envision these things as "blowing" air (hence the supercharger nickname of "blower") but really what they're doing is compressing it. In other words, it's not like a bathroom exhaust fan that just pushes air along a pipe, these things are actually grabbing air and squeezing it into a smaller space in order to create boost. That's why they create so much heat. The exhaust fan might have some difference in pressure between the intake and exhaust but if you try to actually run it fast enough to create boost it'll stall and choke itself and won't move much air at all. I think jet engines are actually a good example of compound boost. Most of them have two stages with the first one having larger diameter compressor blades that lead to a second stage with smaller blades and an increasingly smaller throat for the air to flow through. Gotta admit, I thought I had a decent understanding of these things but it wasn't until watching this vid and reading your comment that it all clicked. I think part of the problem of being a petrolhead is you don't get exposed to diesel stuff, and diesel and jet fuel are pretty much the same stuff so it's pretty much the same concept, it's just one's purely axial while the other has a reciprocating engine in between all the boost-creating devices lol. Kinda reminds me of people making jet engines out of old turbochargers haha. Also for some reason reminds me of Scott Manley's vid on supersonic wind tunnels and how they work. /watch?v=v0Z_4VyuzcA

This is why i love this channel, he just made the idea much clearer than i had thought

Same. I realized that my D5 Volvo doesn't have a normal sequential turbo, but a compound turbo.

@@chriss6154 The trick is to remember that air has mass, and that mass is what we're actually worried about. Only the outermost point in the system can actually bring MORE mass to the system, so the outermost has to be the big one in order to bring more mass in. Once we're inside the system, we cannot grab more mass, only cram it closer together, so we must get smaller as we go deeper into the system.

It's a scam

This is a scam

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Both the P-47 and the P-38 used superchargers and turbosuperchargers in a sequential set up.

That's not really a compound turbo setup, that's generally referred to as twincharging.

I think I remember Car and Driver magazine talking about Porsche using those in the 911 a few years ago too. Interesting stuff.

a 1994 TDi with 110hp has this. Nothing new

@nthgth ya, Porsche designed them and it changed a lot of the engineering behind them. But they are expensive, complex and are designed for a specific engine. And can't really be modified out of spec

I can sleep now, thank you

I believe these 54 degree V engines used very low boost. Low boost turbocharged engines actually gain fuel efficiency due to the increased compression. It's funny you brought that car up because I was just thinking of these when I read your comment.

@@Flies2FLL wasn’t SAAB one of the first manufacturers that turbocharged their cars for fuel efficiency instead of power?

@J M when i eventually get my hands on a 240z i'll drop an i5 turbo engine and awd drivetrain. just about every manufacturer that made a sporty i5 engine made them REALLY good.

@@devandrasimanjuntak1646 I think it was for power. The V6 cars used an Opel engine.

@J M The SAAB four cylinder engine was actually a British design from Triumph. SAAB made it reliable by redesigning the cylinder head. The GM 3.8 liter V6 was not a Chevy engine, it was a Buick engine that actually started life as a 3.5 liter V8, was bought by Rover, and then repurchased by GM and cut down into a V6. But I agree with you on SAAB longevity; If you keep oil in them they run forever.

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This is a scam

🤣🤣

This also solves emissions since a particle with no energy cannot move. Genius!

@@d4a I wrote a big long reply and lost it RIP. But I was basically saying that jet engines are like turbos but with a lot of compound stages which makes them way more efficient. I'm thinking 5 turbos would be a good starting point to experiment with. Primary turbo would be normal size to match the engine, second would be 12% larger, third would be 24% larger, fourth would be 50% larger, and the final one would be 100% larger than the primary, just like the normal final stage compound turbo size. I want to find some CFD software to model this and see how well it might work. The plumbing would be a nightmare, it's too bad they don't make axial flow turbos, but at that point it's pretty much a jet engine eh? I mean honestly, with 5 turbos and a straight through turbo style muffler and resonator I think the car would be pretty quiet, and theoretically should be much more efficient than just 1 turbo (or turbine stage).

@@igornoga5362 Actually you just gave me another genius idea! Make the hot side turbine blades out of cat material so you actually get 5 stages of CAT turbos that would probably make a decent improvement on the emissions. It might be tough though to make a blade out of cat material that is still strong enough to be a hot side turbine.

The turbo on the back engine in the front stuff is honestly a bit of a stupid trend..very little benefits and many downsides on that one.

There are automotive examples of it. The Lancia Delta S4 used a series configuration (turbo to supercharger) with an intercooler after each stage.

@@leoa4c "...no matter what combination of chargers are used in cars, in almost all cases, the cooling of the air only happens behind the last compression stage before entering the inlet valves of the piston engine." Plus, the Delta S4 as one of the most powerful Group B vehicles can hardly be called a regular car - or have you seen a Champcar cruising along the streets lately? ;)

@@RageDavis I wasn't negatively criticizing your input. Simply adding to it. You are correct. Terms like "intercooling" and "aftercooling" are often misused. In regards to the Delta S4, what is your opinion on its configuration? Could've Lancia done better with turbochargers alone? Or, could've a centrifugal supercharger been a better option than the roots?

The Delta S4 used twin-charging to have anti-lag before anti lag was really a thing.

Screw practicality that would be dope to see you build a twin charged car

Pretty sure this is where the term intercooler came from since technically most setups are an "aftercooler"

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Nothing can make an engine ‘spend more time at tdc

A med/large centrifugal supercharger blowing into a small/medium turbo in a compound setup would give a unique dynamic. You may have to put a wastegate on the supercharger's output to limit boost during higher rpm throttle/load transients to limit boost spikes and potential surge on the supercharger.

@@johnnymac1976 I like that idea

👆👆👆

Thanks for your post. I was beginning to doubt myself and wonder what I had missed all these years when I heard these constant references to the turbocharger utilising exhaust heat energy rather than gas velocity.

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