Benefits Of Individual Throttle Bodies

Advantages to ITB's: they look awesome, sound awesome, are awesome

The biggest reason to go ITB is to get rid of the effect a plenum has on the positive pressure waves that pulse back into the plenum when the intake valve shuts. These waves can affect adjacent cylinders because they share that plenum. If the plenum is eliminated, the pulse waves go into ambient pressure and cannot affect the adjacent runners. Tuning the stack length helps when you tune for high, medium, or low RPM power gains because you can actually "time" the pulse to be exiting or nearing the exit of the stack when the valves open on the next cycle. Doing this can create a positive pulse wave INTO the engine. I am measuring 0.05psi of positive pressure, not vaccum, above 5500 RPM on my 2.0 Zetec with ITBs because of this phenomenon.
I've been told this is the biggest reason ITBs can be beneficial. I did notice big gains up top when I built mine. And the car doesn't run out of breath up top, it just keeps pulling, which is great when I want to leave it in 2nd due to an upcoming turn at the track and don't want to waste time shifting up then down again. Before, I would kind of run out of steam and it was a draw whether I upshifted to 3rd or rode it out. Now, it's definitely better to leave it at WOT from 7200 to 7700 where it would fall on its face before.

As a Honda fanatic (particularly a F series fanatic,) I have seen f and h series motors with itbs, and they are so freaking aggressive. The VTEC just roars away.

Throttle response for me! I need my car to react when I say so!

Great Video, great explanation. I will tell you from experience, I've worked on some of the old Weber Carbs that had separate throttle, as well as some aftermarket Fuel Injection systems built to replicate those old carburetors, and have a separate throttle bodies at each cylinder. The worst part about them is they are SUPER sensitive to the throttle plates being adjusted perfectly to have identical airflow through each of the throttle plates when the linkage is adjusted to have all the slack taken out of every point. If you have them out of balance, or the linkage is off and opens some before others, you'll end up with running problems or issues on acceleration as you have different amounts of air flowing into each cylinder. It's a great system in theory, I just have not seen where we have the details worked out well enough for widespread implementation.

That could actually be a really great technology to implement on forklifts and other propane engines because they have a massive amount of lag associated with throttle responses.

Just like older 4cylinders Motorcycles having 4 carburators insted of one giant carburator.

@engineeringexplained just watched an old video from 2011 about horsepower vs torque, such a difference in your confidence! You have come a long way.. great stuff and keep up the very interesting and informative videos :)

Once again a great, to the point, informative video. I'm installing individual throttle bodies on my Toyota RXI today, I just needed YOUR reassurance that I'm not wasting money, and the technicians aren't setting a unreasonable expectation, just to make a quick buck

Your explanation is great , and each system has its advantages , The IR system is great for road racing where crisp throttle response is needed and great midrange power , but it will never make the top end power if a plenum system . This is because of how restrictive it is . When you have say a single 4bbl on a plenum each cylinder has access to all 4 throttle bores , not just 1 as in the IR system , so hi RPM power is always better .
An example , I have done a lot of dyno development on a 4 cylinder Olds Q4 engine . From running the stock factory fuel injection w single throttle body w plenum to hand built intake w 2 throttle bodies on a plenum , and then 2 Weber 48mm carbs on a hand built IR intake and then to a single Holley 780 cfm 4bbl on a plenum intake . Each had its own power curve and different driving feel , The Webers have instant throttle response , but are down on peak TQ and HP to the plenum system , not much different in drive ability but very crisp off idle .
On the Dyno the weber carbs were down 10 lb ft of Tq and 13 Hp over the Holley carb set up , which made 289 Lb Ft Tq @ 5200 rpm and 305 Hp @ 7200 rpm .

nice one! you might expand this to turbo itb setups as well. those are even more complicated and interesting!

I have ITB's in my E30, and now i'm a very happy guy!

your videos are by far the most useful. keep it up 👍

Idk if your channel is still up and running and you will see this but If so I appreciate how detailed and well explained your videos are....They have been very helpful as I am kind of new to the tuning world and without alot of mechanical background..But I'm learning thanks to your videos and again they are much appreciated...😎

I love you!
I am a trainee auto mechanic and I recently got an engine with ITBs and was asking my teacher about them only Monday and you made this video today!
I always watch your videos but this was cosmic! Thank you!

Finally did it. Liked and subscribed. Thank you!

Great video! This is the best explanation I have ever heard. Thanks!

great video jack keep it up

you are awesome , presence of you alone and how you explain it makes videos very good and helpful , thanks my friend

ITB's are often tuned using throttle position vs RPM, with corrections for intake air temperature and barometric pressure

Love my GTiR, came standard with quad throttle bodies

do a video abaut stright pipes, like the difrences , and diesel vs gas

Nice, very informative, I realize this morning seeing the tittle of the your video that I didn't really knew the pro and cons of these, so thanks.

Awesome video!

My AE92 Corolla is fitted with a 4AGE 20v silvertop with ITB's from factory. It's super fun to drive and sounds amazing even though I'm using a single cone filter.

Always wondered about this. Thanks!

Nice use of the whiteboard! Much easier to follow than lots of CGI stuff! Would it be possible for you to do a vid on turbochargers vs superchargers (if you haven't already!)? The differences, advantages and disadvantages. Are they better suited to certain types of engines (no. of cylinders, capacity etc). Would be cool to hear your thoughts.

You got the best videos for a guy like me who has to know how everything works, at least when it comes to cars :D

Great Video!

The reason why I am here is I am building a 1/25th scale car model of the 66 Buick Wildcat. It has options for motor. One being dual quad carbs. vs
8- Velocity stacks. I didn't know anything about which has the advantages. Now I do. Thanks !

Great vid!

EE rockin' the smedium t-shirt today.

It never matters what the subject is. The way this guy explains everything makes me enjoy watching it.

NO MORE POWER , ... I THOUGHT SO YES !!! ! !!! Just a better response in the mid revs . Thanks for the video .

The 1st drawing reminds me of an ABF intake :)

I'm now planning on Harrop Hurricane ITB on my LS7 'style' build for my for Chevy SS. So much for my Plazmaman Race intake with a 102mm TB.

Great explanation! I've Always wonder why my Yamaha XJ6 Bike haves 4 throttle bodies instead of simple and small, specially when talking about bikes where space is reduced.
Another downside that I can notice on my bike is that is heavier to pump the throttle when we are talking about 4 butterflies instead of 1. The spring to hold the butterflies is much stronger.

i run itbs with alpha n. i loved it to bits for the throttle response

Wow, really nice informative, even watched twice, (maybe even third will be soon) but two questions I have about this system:
Will it be better than stock manifold (intake runners same diameter), and all other stuff?
Will you do it on your S2K?

Great stuff

I know you did a video on intake before but could you get more into induction wave pulses vs restriction because of length Is it better to have the full length to get it to hit one of the 3 first waves or is it "better" to have a straight runner as long as the surrounding allows you ? (For HP That is )>5252rpm

On carburetored cars and bike it allows for per cylinder adjustment of the air fuel ratio. This allows for higher cylinder pressures, because you do not have to provide margin for fuel mixture variation from cylinder to cylinder.

+Engineering Explained
Thanks. What I am wondering about, is why you have less pumping losses with either of those systems. Aren't pumping losses determined by the partial vacuum on top of the piston?

I didn’t realize how cool these were! XD
I want one, I need one!!

Just started watching this video, but beforehand I'd like to tell you that your videos are always awesome. I hope you continue using your excellent brain to produce this awesome content and never leave the internet to go caveman mode and instead work on a TV show like some of your friends. Just sayin'

I used to own an Alfa Romeo Giulietta 1.8 with the "Alfanord" twincam engine that used to power Alfas a few decades ago with displacement from 1.3 to 2 liters (also, Alfetta, Alfetta GT/GTV, and, before, Giulia & Giulia GT). Those Alfa engines were all ITB and actually very reactive, although it was difficult to sync the 4 TBs, to avoid some disappointing power gaps. Not so many mechanics were able to do the job properly and was also expensive. The 2 liter engine was the first to switch from two 2-barrel carburetors to electronic injection, unfortunately losing the ITB feature

Thanks a lot teacher love your explanation ^___^

Can you please do a video on velocity stacks? Explain exactly what they do and how to maximize the benefits. Also various applications. I am currently experimenting with them hahaha

Hi! I love yours videos and becouse I am also Engineer I love your approach to some problems. I have one question. Usually we can see ITB on specyfic tuned N/A racing engines becouse reasons you mentioned in video. What about forced induction? I saw pictures of such setups. Does the lag from building pressure in the system (lets do not take into consideration inertia of a turbo becouse you can use mechanical charger), the volume of air in intercoolers and so on. Do it has any sense if you do not use antilag system in turbo?

The sibilance is a bit harsh / distracting in this video (more so than usual). Even still, I learned something new, so keep em' coming. Thanks Engineering Explained!

Love the shirt

Miss my 70 Honda 750-4 itb’s and single baffle 2-1 pipes oh my the pull and the sound.

The true benefit of independent throttle bodies is the stereo warble you get from open velocity stacks when they're installed on a V8, flat 6, or flat 4, and the engine bay is behind you. There is nothing like that sound. It's glorious.

great video

All of the car systems that feed off a constant vacuum would have to be rerouted - two off the top of my head are the PCV valve and the brake booster. But I can definitely see this setup being better for performance cars.

I've Learnt Alot From Engineering explained..😎

Have you ever measured PMEP using ITB versus STB on the same engine? I just think that saying that ITBs have any benefit on PMEP is a big simplification. Nice video btw.

This is nice. I hate it when I step on the gas and there isn't immediate acceleration.

ITBs add serious cool points to any vehicle lucky enough to have em. Even if they didn't have any performance benefits, they looks and sound incredible. I'd love to find some clear resin intake plenums to show off the ITBs on my M5, but I just don't see that happening.

ITB's

Is this compatible with forced induction? I mean I don't see the MAP working very well in that scenarion. Or can you put a MAF before the throttle bodies?

Can you please explain how ITBs would reduce pumping loss? I understand how they help combat manifold filling times to improve throttle response, however in the steady-state part-load conditions, how would pumping work change? Pumping loss is a function only of the gas flow rate and the pressure loss across the restriction (W = m(p1v1 - p2v2)). Therefore, for the same engine load (MAP) and volumetric efficiency + engine speed (flow rate), I would expect the throttle loss to be independent of the size and shape of any manifold volume in the system, before or after the throttle(s).

Engineered explained you should make a video in the future of what the causes may be for a exploding engine or nitrous , I've seen many videos of them exploding but I don't know how exactly or what may have caused it to explode

Hey EE, performance oriented ITB cars are tuned Alpha-N or TPS vs. rpm. N/A cars can be tuned without a intake manifold in this case. Turbo cars still need a manifold for fueling adjustments while in boost.

Link me the MAP sensor video... I have a questions regarding making a map sensor work in conjunction with a turbo setup that is after market. Do I simply need a check valve?

Back in the day I owned an '93 Alfa Romeo 33 with 1.7L 16v boxer engine. This engine had ITB and was super enthusiastic on the throttle input. Loved that. I hate to say, but the NC Miata is driven by a ship diesel in comparison in this particular respect. BUT; The Alfa Romeo 33 with the 1.7L 8v boxer engine had even quicker throttle response then the 16v variant. Well, at least from idle. This 8v had a single throttle body. Never fully understood this. Perhaps due to having two camshafts an 8 valves less it had lower inertia?

Hi, You should make video about ITB and turbo vs single throlle and turbo. Lots of opinions is abouts those 2 systems...

Doing this on my BMW M52tuB28 engine, can’t wait to hear it roar😮‍💨

You still have the same pumping losses at partial throttle. Torque output is all about MASS flow. Mass flow for a given torque output is the same regardless if you have individual runners or a manifold.
He’s talking about pumping losses in a transient environment, IE manifold filling, which matters not at wide open throttle or steady state cruise. Reduced pumping loss from ITB is so tiny that it doesn’t matter.
IF you could control each throttle individually, and completely close off some of the runners so NO air flows, you could drastically reduce pumping work, but you would essentially have created a variable displacement engine.
Throttle response is the only real advantage. You can gain some width in the power band by running slightly different runner lengths, and ITB’s would make it easier to match if you had a carb, but that’s about it.

Yup ITB’s are going on the 1UZ
Thank you

I have one golf 3 gti with itb and its insane the sound

Can you compare this 2 with the FIAT throttles type - valve air flow control?

Video idea: take a look back at some of the most legendary engines and what makes them so great

That is the best explanation I have seen for ITBs. Thank you.

Please I need an explanation about the runners length regarding ITB, how it effects low rpm to high rpm

Hey EE do transmissions have break-in periods just like engines thanks for the help and keep up the awesome videos

Hey man love your videos, can you explain why some air filters add more horsepower than others, besides they're just filtering air right?(Like k and n adds 15 more horsepower than stock, is it true)

Question:
Why do ITBs sound so good? Can a „normal“ intake manifold sound similar?

Can you do a video on dos, don'ts, and benefits on vehicles with an electronic shifter. Thanks

Itbs sound awesome as well.

It's funny I was just watching a 2 yr old RCR video of the 96 Ford F150 which curiously did have 2 throttle bodies i always wondered about. Then I watch this one clearing up the reasons (allowing me at least to contemplate).

off topic: could you look into and make a video about start stop systems? Maybe some calculations to compare a car with and without it, with same chassis but with weight differences and also try to include a purchase price. So to give a answer: is it worth it?

Question,,, on 04:23 --- the power / RPM relation and the shorter and longer runners issue, is there a video talking about this in details ??? I kinda lost you there :)

Nice vid! But ditch the MAP and go for tps and wideband on ITB's

Would you be able to do a video on 2017 F1 cars compared with last year's?

Can you reduce engine vibrations by giving each cylinder a different amount of air?

pls make a video on brake oil temperature change when using brakes.....I have searched online and there is no video on this topic..pls make one...thanks

From what I have seen already from the ITB , this is the different length of the trumpet resulting to more power or more torque !

Can you show me using the whiteboard which gets more chicks? I swear up & down that the ladies love ITBs, but I have a friend, let's call him Sherman Klump, who is adamant that a single TB is what really drives the ladies wild. Hahahaha. JK. Great video as always!!!

Buying Itb’s tomorrow

Great video! Now I understand why so many AE86's look like they have trumpets on their engine head haha

The itb's also allow for equal distribution of the air/fuel ratio and each cylinder can be tuned individually

So which one is better for high rpm motors, just like the S2000? Thanks. I know the ITB system is expensive and comes in different diameter too. Thanks.

@Engineering Explained , is there an instance where ppl would use individual throttle body systems with power adders like tubos? Is that possible/ practical and would there be any benefits

really good info, didnt really cover the torque benefits that bodies. they have a much wider torque curve. obviously this is relative to velocity stacks or plenum being correctly matched for the set up, but that instant throttle response is relative the the torque increase much lower down in the revs

Usually if you're running ITB you'd move to a speed density / alpha-N model rather than a vacuum tree. Also the engine response is important with a dog engagement gearbox, where you need a blip to unload the flanks and the more reactive the engine the faster the shift.

can you make a valve before those throttle bodies, to clog one or more of the cylinder for better fuel consumption during low power situation?
such as on bumper to bumper traffic or highway cruise where it's just maintaining constant speed at moderate rpm.

I live in Colorado at 6,000 ft+ . I have a 1994 Miata 1.8 NA without boost. Will ITBs give me more and better power? Does altitude cancel out IT B effectiveness? Can I run I ITBs with forced induction? Should I run a methanol injection cooling system with forced induction at this altitude? Thanks in adavance for clearing this up the way that only you can. Cheers!

only suggestion is to give us a few examples of cars that have each- job well done- really enjoy your channel.

removing the inlet manifold as suggested would lead to massive induction roar and pulling hot air in from around the engine would decrease power. Also the long run of the 1st example can offers a mild supercharge effect as each inlet valves open at different times.