EQUAL LENGTH tubular vs. LOG manifolds (headers) - SCAVENGING and EXHAUST BACK PRESSURE EXPLAINED

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www.weldspeed.com.au/
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In today's video we will be talking about exhaust manifolds or headers. First we will explain what exhaust manifolds do and then we will compare OEM short cast manifolds and equal length tubular welded aftermarket ones, like my awesome turbo manifold from Weldspeed right here, to see how different designs and materials influence the performance of your engine.
So as the name very obviously suggests the exhaust manifold has the very simple task of providing a pathway for exhaust gasses. They connect your cylinder head to the rest of your vehicle's exhaust system. An exhaust manifold is always bolted directly to the cylinder head of your engine and when the exhaust gasses exist from the exhaust port the exhaust manifold is the first thing they see. So obviously the exhaust manifold doesn't actually DO anything, it's a passive part, or a collection of pathways through which exhaust gasses flow, but despite it's passive nature, the design of the exhaust manifold can play a very important part in the p
Now exhaust manifolds will be very different on naturally aspirated and turbocharged engines. This is obviously due to the fact that a turbocharged engine will have a turbo bolted to the exhaust manifold and then the rest of the exhaust system will be bolted to the turbine housing of the turbocharger. On a naturally aspirated engine the exhaust manifold will be connected directly to the rest of the exhaust system, without a turbocharger in between.
Now the design of the exhaust manifold mainly influences 2 things: Scavenging and exhaust back pressure and these two things then influence the power, torque, responsiveness and efficiency of the engine.
So what is exhaust Scavenging? In the simplest possible terms exhaust Scavenging is using the exiting of the exhaust gasses to ease the entry of the intake air into the engine to improve performance.
But scavenging can not occur the entire time the engine is running. It's heavily dependent on the camshaft specs of your engine but most of all it is determined by your exhaust manifold.
Now the scavenging effect is obviously very important for naturally aspirated engines because they depend on the pressure of the atmosphere to get air into the chambers. On a well tuned engine the negative pressure wave can decrease the chamber pressure by as much as 7 psi at a relatively narrow rpm band. On the other hand turbocharged engines don't really depend on the scavenging effect because they can add one or two atmospheres of additional pressure to the intake air over a broad rpm range which greatly improves cylinder filling as soon as the intake valve starts to open resulting in dramatic power increase. Another factor is valve overlap. Although valve overlap isn't necessarily all bad for turbocharged engines having too much of it is counter-productive because you're essentially wasting the work of the turbocharger. By having the intake and exhaust valve open at the same time for too long you're actually sending valuable pressurized intake air into the exhaust which means that you're wasting boost.
Now let's look at our cast and our tubular turbo manifold to see exactly how this play out in practice. Probably the first thing you will notice is the difference in length of the runners. The cast manifold has much shorter runners and in addition to this the runners are of unequal length which increases back pressure.
To understand how runner length influences back pressure we must understand that pressure inside the manifold spikes every time an exhaust valve opens. By making the runner longer we are enabling a more free flowing form of the runner and by making all the runners of equal length we ensure that each exhaust pulse takes an equal amount of time to reach the turbocharger.
The final difference between the two manifolds is the material itself. OEM cast manifolds are usually cast using nodular iron and most will have trouble resisting temperatures beyond 850 degrees Celsius for prolonged periods of time. Tubular aftermarket manifolds usually employ stainless steel. 304 stainless steel is a good and common choice while 321 stainless steel is an even better choice.
Stainless steel welded manifolds also have much smoother internal surface compared to the rough surface of cast iron. This of course helps increase gas speed and reduce back pressure.
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#d4a #boostschool #exhaustmanifold

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7 июн 2024

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Комментарии : 881

@d4a 2 года назад

www.weldspeed.com.au/ Billet intake: www.weldspeed.com.au/product-page/4age-intake-manifold-big-small-port For fabricators: www.weldspeed.com.au/product-page/copy-of-321-stainless-straight-tube

@jimmywise4538 2 года назад

How about tri-y headers?

@jimmywise4538 2 года назад

How about tri-y headers?

@justinlizamor1541 2 года назад

Damn They dont actually sell the header, just the materials. :/

@mrt2this607 2 года назад

That's a tad faster than the speed of sound, 870mph. Mach 1 is around 750mph, maybe a bit faster but remembered that Mach was in the mid to high 7 hundreds of miles per. Dang it, now I've gotta look it up or it'll drive me crazy. Good stuff you putting out though, lots of interesting topics, thanx.

@buddyrojek9417 Год назад

Why don’t you show pressure in the operating engine and show the pulses of each runner , with dyno tests

@greg7886 2 года назад

Your vids don't require overclocking. I love that. The pace and info in a short amount of time are perfect. The animations go a long way in allowing viewers to keep up with the pace. I know it must be a lot of work to make them. Thanks for all the hard work.

@arcanondrum6543 2 года назад

I have to agree (and finally, a Comments section devoid of idiots that complain "finally got to the exhaust manifold" or even sillier comments). This Video is a Top Notch explanation.

@bigcazza5260 Год назад

if it can overclock it should be overclocked - PCMR gods

@4dirt2racer0 Год назад

yea it really is nice not havin to speed up a video n miss half the other shit that Does move at normal speed, vs some ppl talking speed, its like they got into the dope before recordin :p i get it tho theyre tryin to stretch the video every once in a while 2x isnt even quite enough

@chewchewtrain1841 Год назад

Lmao... overclocking.. I love it

@madjidben8240 2 года назад

This is, by far, the best education channel for petrolheads. I really appreciate the work and research you made in the making of this video, keep it up.

@jhuntosgarage 2 года назад

True story: Back in the 90s, I dyno'd the very first X-pipe originally made by Dr. Gas. This led to every Nascar team ordering them. 1994 Daytona 500 was won by Sterling Marlin in the 4 car. This was a huge story and had everyone curious as to why his car sounded like an Indy car. Thanks for sharing.

@kozatas 2 года назад

If you want to get an inside glimpse into the world of NASCAR strategy watch this. It's rare. ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-bG2OcW_Hwkg.html

@Twobarpsi 2 года назад

Cool 👍

@Prestiged_peck 2 года назад

... I know for a fact my father was building x pipes back in the late 70s on street cars, he still has the first one he built on his nova. He never sold them professionally but I know for a fact yours wasn't the first

@crxtodd16 2 года назад

@@Prestiged_peck I know for a fact that your dad's x-pipe wasn't not the x-pipe that didn't get dyno'd when they weren't dynoing x-pipes back when Indy cars were not dyno'd on the dyno with an x-pipe not being dyno'd.

@buildingracingvideos4714 2 года назад

X pipes were being used commercially since like 1980

@terjejohnsen3651 2 года назад

This was a good and interresting video. Nothing make a sunday better than learn more about our cars. Thank you for the video.

@NLBassist 2 года назад

I thought I knew quite a lot about engines but this is partly new to me! The Scavenging part. Thanks!

@robwhite3241 2 года назад

Me Too! I knew 2 strokes used scavenging but I never really thought of 4 strokes using it.

@tonypate9174 2 года назад

Some ones not been the Harry hole of rabbits have they....Weslake or Ricardo not bad place to start ....

@P71ScrewHead 2 года назад

Longtubes always win.. ;)

@ssvis2 Год назад

Such a simple explanation with exceptional illustrations. This also makes it abundantly clear why 2-stroke engines require such precise tuning of their exhaust systems to function.

@3dw3dw 2 года назад

On a naturally aspirated engine, the exhaust header and intake should both be tuned to the same rpm range for max gains. Today some intakes have variable length runners for a wider peak curve and variable cam timing helps capitalize on that. When the intake cam and exhaust work together you get a sweet spot to upshift into.

@3dw3dw 2 года назад

@Snowman88 damn straight! Reading your reply feels kinda like looking into a mirror.

@3dw3dw 2 года назад

@Snowman88 I've seen opposed piston engines where 2 pistons share the same bore. It was not something anyone would consider fast but it was unique. I like the cosworth that was made for Gordon Murray's T.50 and I love the Aston Martin Valkyrie engine. All I have now is a Yamaha R6, a supercharged 2zz-ge and whatever Tesla put in my wife's model y. They all move out pretty good. I'm not gonna lie, I could gap a countach with either of them. I've worked on motors that were so big they have their own 5 story buildings to live in. I came to work one one engine that had a plug wire arcing and it developed a gas leak (it was a natural gas engine out by st. Joseph's bayou in a place called east bay) well it blew the roof off the building and melted all the window frames. It was frightening to see the carnage. So glad no one was in there when it lit off. I worked on some cooper b250s. A man can fit in the cylinder sleeve. Max rpm maybe 500 if one were being foolish. It's a LOT of power at 350 rpm though. You want it to turn slow because it is also a gas compressor. A really big gas compressor.

@Prestiged_peck 2 года назад

@Snowman88 alright, hear me out, variable length headers, like telescoping tubes. Alongside telescoping ITBs, Ti-VCT, and a VTEC system. (Or even better, just go freevalve with the adjustable intake/exhaust manifolds

@fastinradfordable 2 года назад

You guys are looking in the wrong place for gains until you have experienced your own variable-nozzle turbo

@ArneChristianRosenfeldt 2 года назад

Today people just use turbo

@alanmumford8806 2 года назад

Somewhat simplified, for obvious reasons, but this was a really good overview not overlooking the 'horses for courses' aspects. Well done!

@jiyushugi1085 2 года назад

Back in the 80's Yamaha introduced the EXUP system on their 4-cylinder high-performance bikes. It used a butterfly valve at the collector to change the timing of the negative pulse in response to changes in rpm. Later they also introduced variable length intake runners. To improve low-rpm intake velocity on single cylinder bikes they fitted two carburetors, one with a small bore, one large. The larger bore carb would only open at larger throttle openings.

@d4a 2 года назад

All very very relevant examples!

@vasilisgreen 2 года назад

is that used in any other bikes of other manufacturers?

@JAVTROOPER 2 года назад

@@vasilisgreen yeahh but yamaha the true genius who create the brilliant system later then copied by other manufacturer

@lordjaashin 2 года назад

@@d4a can you make video on this Yamaha exup system?

@chrisdeli7547 2 года назад

@@JAVTROOPER the "genius" who copied Walter Kaadens work at MZ disc valves

@802Garage 2 года назад

Well video came out 15 seconds ago so you could say this is the most on time I've ever been. 😌 D4A video means good day.

@toliver.99 Год назад

Every time I watch your videos I'm blown away by your knowledge, and the clear and simple ways in which you describe these fundamentals. THANK YOU 🙂 An inspiration for young and old engineers alike and a great tool for all. I wish you every success

@youtube-is-trash-2277 11 месяцев назад

dude, your the best at explaining the most technical things so we can all understand complicated concepts well done !!!

@wilbur9416 2 года назад

Another part of the Scavenging is helping Evacuate the exhaust from an adjacent cylinder with pressure and back pressure. More so in a multiple y collector header situation. That typically pertains to NA engines. You did a great job considering you could make an entire movie just about headers and exhaust. Keep up the good work and keeping the masses educated.

@codydillenbeck4443 2 года назад

I had a kid claim that I messed up my exhaust scavenging by switching from a dual exit exhaust to a single exit 🤣 its a turbo v6 and split to a y section at the back of the car, but I switched to a single exit.

@ovalwingnut 2 года назад

Well said WILburr. "Scavenging Sucks".... thank goodness. Cheers!

@ovalwingnut 2 года назад

One of [if not] the best descriptions of "the process" (and in under 18 mins) I've ever heard, bar none. It was like having my GF talk dirty to me again but before she gained the weight. So, Yes, I APPROVED THIS VIDEO :O) The rumors are true. You "are" the Gear-Head Whisperer. Cheers!

@patmygroin 2 года назад

This comment has me straight f***ing rolling 🤣😂🤣 Let’s go Brandon!

@the_hate_inside1085 2 года назад

What does talking dirty have to do with weight? You can successfully talk dirty to someone, without ever seeing them in person, so their weigh should have very little bearing.

@ovalwingnut 2 года назад

@@the_hate_inside1085 I hear you T.H.I. But once you've seen Ms. Muffy trodding down the hall in a towel (that will always be to small).. well, you just can't un-see that. This has a direct impact on future Remote Oral Stimulation (ROS), for me at least. Just saying. Anyway, that's the skinny on the subject. You RoCk! Cheers.

@TheRealTomLauda 2 года назад

The knowledge on this channel never cease to amaze me.

@davidbones8947 Год назад

Greetings from oregon brother i am a gearhead! There ive said it you are by far well educated gearhead i really enjoy the way you explain the mechanical world we live in thanks great channel

@ILKOSTFU 2 года назад

Such a good content! I am honoured to be able to watch something like this for free🙏

@etype-dad 2 года назад

I thoroughly enjoy the depth you go into topics. You are an excellent presenter!

@livingon2wheels Год назад

I am amazed at the quality of his videos. Such deep knowledge of engines and he is an excellent educator. The illustrations are very helpful. I feel like I owe him something for everything he has taught me.

@faddiehakim531 11 месяцев назад

your video is very good, all the important things you explain in easy to understand terms. it makes it very easy for people or lay mechanics to digest the concept you want to explain. I just saw the first few parts of this video, I was immediately interested & automatically subscribed. I really appreciate your work

@fredericrike5974 2 года назад

Awesome as usual! Less than 20 minutes, covered and explained cam overlap, exhaust gas flow theory, effects on NA and boosted intake and a few other "incidentals"- all in one very large single breath! And it was intelligible! And you are sure you are not a home brewed motorhead from Philly? Awesome ! FR

@cjpowers2637 Год назад

Thank you sooo much for this great video. The best video I've watched in three weeks. So amazing, so educational, my subscription is very much deserved. Please keep the good content coming.

@qzammit89 2 года назад

You are amazing bud, simple, very detailed, well drawn diagrams! Great stuff!

@wouldyoudomeakindnes 2 года назад

I keep watching your videos, not a car enthusiast but you make a great learning experience with the way you explain the mechanical intricacies and details.

@jeffhurckes190 2 года назад

Another thing to mention with turbocharged engines, short circuiting (excessive valve overlap) of charge air into the exhaust usually results in melted turbine wheels and exhaust valves, as the raw fuel and fresh air usually ignites as it blows past the red hot exhaust valves

@ifixeuros Год назад

Antilag. Yuck

@yr6sport418 2 года назад

Long time ago hear about exhaust scavenging, then today you make it clear. Great Job

@PC-iv5so Год назад

Learned more about turbo manifolds than ever 10 min. into this vid. Good stuff 👏 👍

@onurakatlar3126 Год назад

one of the very best youtube channel I enjoy to watch!!! thanks alot

@Ali-uf1sq 2 года назад

i fucking love watching your videos, i am a mechanical eng on last year and although your explaining style is similar to lectures at uni but the only difference is that i understand wtf you are saying :) keep it up

@360-Speed 2 года назад

I enjoy watching your videos, your explanation on everything is very well thought out and I learned a lot in this video as I am busy looking to upgrade my car's exhaust 😁

@Minitonnar1 2 года назад

Nice video! Cast manifolds aren't always bad. I have dynoed volvo 5cylinder engines with oem s60r cast manifold. It is quite short and equal leng. Sturdy af, hot exhaust gasses makes fast spooling turbos.

@el_kuks 2 года назад

Long manifolds gives higher peak power but sacrifice a lot of spooling time. Probably slightly oversized turbo with realatively short manifold should be optimal for track use

@tomaszrazik2991 Год назад

After watching your videos i feel like I can build my own engine. Great job

@dominichayes9808 Год назад

Your explanations are very clear and understandable. Great work.

@dennisal1481 2 года назад

I'm learning so much from this channel. Thanks for the education.

@dooby1445 2 года назад

This is such an amazing explanation. Thanks man. I’m going to apply this new knowledge to my project car

@gothicpagan.666 2 года назад

There are so many variables on a N/A that the easiest way to determine the optimum configuration and dimension is to mount the engine on a test bench and make a modular telescopic manifolds with at least 8in of adjustability. Starting from a ball park dimension in the first place. Turbo manifolds seem more subceptible to pipe diameter, not pipe length, unless you are compeating and have cam shafts that allow the engine to rev. as high as a competition NA motor, as in the video. Well explained theory on a subject that has sent many a good man mad

@gazzafloss 2 года назад

Very well explained, I've always thought of an exhaust system as simply a "drain pipe" that is or isn't restricted by mufflers etc.

@torque350hp 2 года назад

Very fascinating topic. One can get a sense how designing the exhaust system effects how an engine can run and feel and cost to operate. It really is an art.

@ronsmith7739 2 года назад

You spent a lot of time and effort on the video, graphics and mathematics, thank you !!!

@lucasmari8643 2 года назад

thank's for this video ....!!!! im not a car driver, but a motorbike driver ... and all this of the "back pressure" has helped me to understand many things about "changing the exhaust line to improve the bike's performance" (sacrificing other things, obviously...)

@scubbarookie Год назад

Great explanation of the two manifold Vs. Headers! This is why I've subscribed! Thanks

@theondebray 2 года назад

Excellent ! That has to be the best explanation of manifolds that I've ever seen. (Another one of my automotive heroes is David 'the wizard' Vizard who goes into great detail, based on a very scientific approach.) The only thing I would add is exhaust gas momentum - at higher rpm the exhaust gases have a fast moving mass which pulls out the following charges from each cylinder. Again, as you mentioned, the manifold design and optimum pipe diameter are important, all depending on the engine and the spec you want. 👍 (PS: I can only comment on normally aspirated engines.)

@clutchkicker392ison5 Год назад

Awesome vid well explained, i love it when i can understand what techs are talkin about. Well done , Cheers

@Dane33781 2 года назад

Thanks for being accurate and well informed. I haven't found a single instance of inaccuracy or misinformation in any of your videos. That can't be said for many channels, even some of the so called experts.

@TonyRule 2 года назад

The only thing I can fault him on is the use of "bars" for pressure. It's just "bar", regardless of how many there are. Just like you don't say PSIs.

@deciplesteve 2 года назад

Favorite part of Sundays.

@TestingPyros Год назад

Very clear, very well stated. I understood most of this, but you clarified some questions that I have had. Thanks!

@SerbanCMusca-ut8ny 2 года назад

Once again, interesting stuff and very well explained! Thank you.

@OldManRoo 2 года назад

That was an excellent and well put together article. I learned a lot, thank you!

@MadelnOahu 2 года назад

This is a great informative video. Best one I've seen

@LooseNut099 2 года назад

Very informative video as usual; thanks for that and for demonstrating that gorgeous aftermarket exhaust header.

@dominicrichardson5546 2 года назад

Wow i never knew exhaust gases hit the speed of sound in the manifold, that's super cool

@igornoga5362 2 года назад

The gases don't, pressure waves do. Presure waves always travel at the speed of sound.

@makantahi3731 2 года назад

@@igornoga5362 do not turn sew upside down, , speed of sound is equal to 20.1 times second root of termodinamical temperature of gas, , so if gas flows faster than 2582km/h with temperature of 1000c deg, i flows faster than sound

@igornoga5362 2 года назад

@@makantahi3731 Gas can travel faster than the speed of sound, for example in rocket nozzles. Here we are talking about internal combustion engine exhaust, which is never even close to Mach 1 to avoid backpressure.

@makantahi3731 2 года назад

@@igornoga5362 one lesson from aerodynamic, if you have ad tunel with smaller diametre,in middle and after expands,(venturi tube) and forces some gas(air) to flows , as raises pressure , speed raises , until pressure reachs 1 bar , in smaller diametre, speed reaches 1Ma, if pressure raises more, speed in smaller diametre is still 1 Ma, but in part of tunel where diametre expands, speed starts to raise over 1 Ma, so you have supersonic speed, same is in exh primar tubes, gasses from cylindre are under pressure and when exh valve opens it expands into primar tube or collector with supersonic speed, with no muffler you will hear bangs-what is supersonic expansion

@makantahi3731 2 года назад

@Snowman88 not density, speed of sound of air/gas is in direct relation with termodinamic temperature

@villiamo3861 2 года назад

Brilliant & informative vid conveying many points concisely, clearly. Thanks.

@vladdutz20 2 года назад

Good topic, headers are so important on natural aspirated engines , i switched from a stock 41 narrow tube to a wider 421 and the gain is noticeable on a K24

@Denonavr1907 2 года назад

especially with reflash :)

@stefan.2833 2 года назад

Waiting for your video on this subject ;)

@P71ScrewHead 2 года назад

Same with my Panther, made it faster n seems lighter..lol

@vhssociety 2 года назад

I can agree with this 100 percent. I put in carless headers on my tsx with the ktuner reflash and it is very noticable.

@vladdutz20 2 года назад

@@vhssociety just got a clutch overhaul and it shifts smoother, 20s 100 200kmh

@BucketWheat Год назад

I usually listen to your videos twice...so the first time is like "basic Math" and I get the ideas and concepts... and the 2nd time aroind, I pick up more of the details, and also get a better understanding of some of the things mentioned earlier in the video.

@aaronwalcott513 2 года назад

I've found this enjoyable, useful and informative. 🎯💯

@olspanner 2 года назад

Brilliantly explained as per usual ! 😀

@1cnfour349 2 года назад

I’ve always been a little under the bar when it comes to this topic, excellent explanation

@tomciancitto7328 Год назад

Excellent explanation and presentation!

@KeepinItReal890 Год назад

bro. wow. just wow. you literally make this stuff so easy to understand. help it up brother

@Tim.1113 2 года назад

About 20 years ago I had a truck and installed 3” dual exhaust, a programmer and an intake system. It made a small difference but once I installed headers, it made such a big difference. Now I’m old with a kid so my fun days are over.

@Adok24 2 года назад

Great video mate! Well explained 👏🏼

@kieranstephenson3187 Год назад

So much to learn here, excellent video!

@andik.4235 2 года назад

The next well put together lecture on how to consider different design choises making an internal combustion engine. Thanks for the effort and I hope you cover the intake side and valve timing and duration too.

@Slaktrax 2 года назад

One of your best videos, thank you :-)

@memra777 Год назад

As usual, great video!

@billymania11 2 года назад

With turbo motors, it's all about the temperature of the exhaust gases. That heat energy goes to power the turbo so cast iron log manifolds are good in that application. My BMW M2 has a simple exhaust log manifold and I'm happy with the overall performance.

@ThatGratefulGuy 2 года назад

Great video. You understand your concepts well.

@natanaelonate5193 2 года назад

No way!!! Posted right when im in the market for headers for my subie😮‍💨

@iBackshift 2 года назад

its because "they're" listening to you on your phone, and voila....you get "header information" in your feed.

@jaenvanderwalt4472 2 года назад

Thanks for your explanation it was very informative and you explain it very well.

@FX1977 2 года назад

Great Video. I learned something today. Thank you!

@flyonbyya 2 года назад

No better RU-vid channel !

@ramadhanisme7 2 года назад

As always very informative video

@timocallaghan4408 2 года назад

You did miss one trick where cast manifolds are superior. Yes, stainless steel can handle higher temps, but the wall thinness makes it very likely to expand when heated, which often leads to cracking at the welded points where each tube tries to expand but is locked in place. In addition, each weld acts as a stress riser, meaning the force of holding the turbo and absorbing driveline vibration is concentrated in a small area unlike in a uniform cast material where load is distributed quite evenly. This uniformity and thicker overall wall thickness of a cast manifold makes it much more durable under repeated heat cycles, despite having a lower rating. I am also curious how the plenum effect, where exhaust gases collect before entering the turbo, might lead to improved balance of backpressure vs keeping each cylinder so separate. ITB's are much harder to balance for individual cylinders than an enclosed airbox for pressure and flow reasons

@makantahi3731 2 года назад

i would not agree with you , i saw many cast iron manifold cracked , and cast iron manifold has ticker walls that is not good because difference in temperature that causes stress in material. i had long tube header and because i floored it is burnt and melted but not cracked on welds

@d4a 2 года назад

I get what you're trying to say but it's a bit misleading. Assuming good welding technique, proper purging procedures and materials a weld's role as a stress riser is negligible. The same goes for each tube expanding separately, this really doesn't happen and the manifold expands and retracts as a whole under normal operation. The final point is the uniform structure of casting. I'm afraid castings most often have the worst and most irregular grain structure and exhibit porosity due to the nature of the manufacturing process. When it comes to wall thickness this definitely makes sense and with enough thickness a cast manifold can indeed be extremely durable but you need so much thickness that weight and bracing really becomes an issue. But this is why you see very thick manifolds on trucks where they are expected to last for a very long time. As to ITBs and balancing I'm afraid we're taking apples and oranges. ITBs will always yield superior power and responsiveness compared to a plenum due to somewhat obvious reasons (more air faster and more directly - all other factors being equal). Their balance is only really relevant at engine idle and has next to zero effect at WOT. An equal length manifold will always be superior to a log in terms of power due to reasons explained in the video. There really is no need to complicate the analysis by trying to include things that really aren't a factor in this.

@makantahi3731 2 года назад

@@d4a that is right except one thing wall ticknes is problem , more tick, makes stress when heats up, because inner part is warmer , outside is colder, can not be heated up simultaneously, but if is thin , it heats up imediately

@d4a 2 года назад

I don't see the logic. Blocks are very thick and they never crack because of their thickness? I don't see how heating up of a thick material increases stress vs a thin one. I think that this debate is overall a moot point honestly. Neither casting nor welding guarantees durability and longevity. Both types are used by OEMs and there are extremely durable as well as very poor examples of both cast and welded manifolds. I believe what's far more important for durability is design, quality and vibration minimization.

@makantahi3731 2 года назад

@@d4a mostly, people with stock car does not races, but i saw many cast iron collectors cracked, maybe because there are plenty, if you try to weld cast iron you have to preheat it slowly, to avoid big differences in temperatures in material, and big collector on truck is not loaded by temperature as on petrol engine, because it has lower ex temperature because diesels work with plenty of air, more than 20:1

@OdamaKamayuka Год назад

Very interesting and high-quality video as always! I was thinking about how the pipes of an exhaust system join together. Like on a 4 cylinder you merge pipes together 2 by 2, sometimes all 4 merge together at the same time. I know it affects scavenging and back pressure as well. Would do a nice video subject to follow this one in my opinion.

@philippepanayotov9632 Год назад

You truly are a living legend!

@scootergem Год назад

So much info. Thanks for explaining all this.

@quinn7174 2 года назад

I just put long tube ISR headers on my 370z, this video helps explain alot!

@joopterwijn 2 года назад

Very informative, great vid!

@pacolicious 2 года назад

Thanks man. I was thinking about this topic. Kind regards from the Netherlands

@aergaetrhethaergertha2099 2 года назад

that manifold is gorgeous

@brettmarshall5895 2 года назад

You make great videos!

@BoostedNDMiata Год назад

I love watching these. Hard to find a “Turbos for Dummies” cliff notes!

@Rogerdin13 2 года назад

thanks for the knowledge ^^ awesome video man!

@StephanSchmali 2 года назад

Thank you for your content 🙏🏼

@George.Andrews. 2 года назад

Very good explanation again.

@aarc2010 2 года назад

Awesome staff. Thanks for the video.

@sevenmax7777 2 года назад

magnificent explanations, thanks!!

@mstrshkbrnnn1999 2 года назад

You are a treasure to humanity

@matiaschaied6369 2 года назад

Excellent explanation! thank you very much!!

@ericjernagin7902 2 года назад

Just started viewing your content very informative and I appreciate your in-depth discussion or explanation of material you present I have been a gear head all my life grew up around the ice of all shapes and sizes and your content has taught me things I’ve learned wrong all my life or I thought was one way and you proved it to be different My question is if I decide to go ev and build it myself will a 5 spd trans be beneficial I’d like to try it if nothing else but I watch your video on ice vs ev and it got my brain turning instead of running the electric motor at max rpm mount it to a stick tranny and use gears just like a ice reduce rpm while maintaining speed what are your thoughts

@panza. 2 года назад

Thank you very much! You just got a new subscriber.

@ronaldjensen2948 2 года назад

3:38 The intake air coming into the intake valve is almost always below atmospheric pressure. The air cleaner and throttle plate cause reductions below ambient atmospheric pressure. This is an important distinction when considering part-throttle operation.