Put the boost controller at C and be my hero >:)
And yeah, this is a very concise explanation that should help lots of noobs. |
I love simple solutions. Why the hell did it take this long for someone to figure this out! (or steal it from someone else who figured it out ;-) )
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4 Attachment(s)
To clarify a tad, I've re-drawn the two charts above to show what's happening both at the compressor outlet (blue line) and after the intercooler (red line), just in case anybody is having trouble visualizing it.
In the first case, we are taking our reference from point A. So even though it appears that boost is dropping off (as we perceive it from the perspective of the manifold) the MBC is in fact doing its job. https://www.miataturbo.net/attachmen...1&d=1346793540 Having moved the MBC pickup to point B, we merely change which point in the system is stable. https://www.miataturbo.net/attachmen...1&d=1346793540 In both cases, there is a point in the system at which equilibrium is reached. But in the first case, that point is one that we don't particularly care about. |
Originally Posted by wayne_curr
(Post 574737)
I swear you could make literally thousands of dollars as a professional technical writer.
Originally Posted by JayL
(Post 574750)
When will this be available on video?
Originally Posted by cueball1
(Post 574783)
I love simple solutions. Why the hell did it take this long for someone to figure this out!
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Originally Posted by Joe Perez
(Post 574757)
Well, I think that may be a myth.
Or at least, a half-truth. |
Originally Posted by Joe Perez
(Post 574792)
This is old, old knowledge
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Originally Posted by Joe Perez
(Post 574792)
This is old, old knowledge, and just basic fluid dynamics, really. Seems like it's just one of those things that isn't obvious until somebody points it out. Hell, even I needed reminding (by Abe) a few years ago.
That's the problem with old knowledge like this, everyone assumes everyone else already knows it. I haven't seen this topic brought up here in a long time but there have been a number of people with droop complaints. Now if there was a simple and cheap a solution for over-boosting we'd really have something! |
Originally Posted by JKav
(Post 574798)
Indeed. Kinda surprised to see it actually. I thought this was common knowledge by now?
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Sorry for my stupidity, don't mean to muck up a good thread... but what kind of stress (if any) does this put on the turbo? Especially for the guys running 18-20psi. I can imagine that the difference in pressure between the TB and the compressor is pretty large at that amount of boost. Wouldn't the cfm required to keep some peoples max boost push the turbo pretty far out of it's efficiency range?
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Originally Posted by FRT_Fun
(Post 574812)
Sorry for my stupidity, don't mean to muck up a good thread... but what kind of stress (if any) does this put on the turbo? Especially for the guys running 18-20psi. I can imagine that the difference in pressure between the TB and the compressor is pretty large at that amount of boost. Wouldn't the cfm required to keep some peoples max boost push the turbo pretty far out of it's efficiency range?
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FRT, If you have a large enough intercooler you won't experience as much pressure drop across it at higher flow rates and your turbo won't be as likely to be out of its efficiency range. One of the problems I see is that people often use intercoolers that are sized for little peashooter turbos and 5 to 8psi factory turbo setups instead of the flow rates they actually aspire to run. One should aim for both great IATs and low pressure drop by going large if you really are trying to maximize your efforts. Ideally the air coming out of your intercooler should be as close to ambient temperature as possible. It is hard to do that with a tiny intercooler.
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+1 for a video release.
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I really think Joe is thinking of a way to direct his next video...."hmmm, what would be the appropriate beer for this......"
Fantastic writing as usual |
I think this video should have a snuff film kinda vibe. Its time to break out the gimp mask Joe
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1 Attachment(s)
There's a log of mine with the source right before the TB
2-3kpa difference all the way though Attachment 197465 |
Does this same theory apply to external wastegates as well as internal? If i'm not having such problem of boost falling off before the redline should I change? I simply have my MBC spliced in the middle of the boost signal from the compressor to the bottom wastegate nipple.
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<Noob question>
"Using all-silicone tube? (fag.) Well, just drill a hole in the colid-side end tank of the IC itself. Anywhere is fine so long as it's after the IC core, and before the throttle body." Why a different place for silicone? Should one use Vac line another type instead? </Noob Question> |
Originally Posted by Oni
(Post 576154)
<Noob question>
"Using all-silicone tube? (fag.) Well, just drill a hole in the colid-side end tank of the IC itself. Anywhere is fine so long as it's after the IC core, and before the throttle body." Why a different place for silicone? Should one use Vac line another type instead? </Noob Question> |
Thanks for clearing that up, im a retard, i was thinking of the actual signal line :).
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Excellent write-up, love the pics too. I would have gone with more of a Barney and friends theme though. Since this site is all about sharing the Love.:bowrofl:
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