Re: SMIM Showdown! Lets figure this out once and for all!
 

If you are seeing 445 cfm per port that would equal 1780cfm. So I ran this calculation CFM = (L x RPM x VE x Pr)/ 5660
So my numbers are assuming 100% VE.
(2 x 10000 x 100 x 4.2)/5660 = 1484.1 cfm
assuming 90% VE = 1335.7 cfm
assuming 110% VE =1632.5 cfm

Unless I am missing something.

~John

Re: SMIM Showdown! Lets figure this out once and for all!
 

OK, I showed my boss the replies, so I could better answer these issues.

The Heimholtz resistance is in no way relative when testing a forced induction intake manifold. I got a crash course in what Heimholtz resistance is and how it is determined. Not only is it not relative, but even if it were, would differ depending on the individuals COMPLETE setup.

As far as the restrictions further down the line. Yes, those would effect the efficieancy of each individual cylinder. However, each cylinder has 2 equally sized valves, equally sized ports, cumbustion chambers, into the exhaust manifold and finally meet in the turbo. So arguing that these restrictions would change the balance of the intake manifold is not correct.
And yes, a exhaust manifold that is uneven could easily impact the power and afr balance of each cylinder. If you are going to ask a imbalanced exhaust manifold to counteract a imbalanced intake, then you have far more problems with your setup than most either of these parts are going to help.
Simply put, the intake manifold is the first part that divides the engines air charge. If it is imbalanced, then the rest of the parts don't have a chance at staying balanced.

If the flowbench is showing a 10% difference when comparing runners, that 10% is going to carry wether it was at X amount of vaccum, or Y amount of boost. So, if at 400 cfm it is 40 cfm short (10%), then at 1200 CFM, it will be 120cfm short. The more boost you run, the worse it gets. The percentage stays the same, but the difference in the volume of air will grow.

The suggestion of using a 2g maf and wideband per cylinder would be a different way to determine the imbalance per runner. You could also math out the airfolw per cylinder. By looking at the total airflow divided by the amount of runners, then adding or subtracting the different percentages seen with the wbo2's. However, I don't know anybody who is setup to do that, and it would be much more time consuming to get the same information, with much more chance for error. A flow bench can't lie, and there are no extra components to add to a percentage of error.
Infact, there was a period of time that GM and some of the larger race shops tested there intakes by dry spinning the engine to redline, and measuring the total airflow with either a cfm stack or a MAF sensor. This was quickly abandoned though, because of the added time and cost, as well as it did not give the ability to track individual cylinder changes. They all went back to the flow bench beacuse it was considered to be more accurate and much simpler.

Looking at the "whole picture" like the real world has to is the problem that we have been dealing with. The real world (I assume you mean end users, us DSMers) isn't setup to test these either the way I have, or the way that you suggest. If they did, I doubt there would be such a discrepency in these parts. And this is the way the racing world and industrial world tests their parts.

Finally, to the comment that these results don't represent real life at all. That is flat out wrong. Simply put, The auto manufactures, race teams, and industrial research and development departments all use a flow bench for all of their airflow design needs. That is its purpose, and the industry accepted way to do things. I have been told by two intake manufactures featured in this test, that the reason they have not provided any flow information, or even done that sort of testing, is because they feel that the average user will not know what to do with the information. The reason that Beyond Redline sent me a manifold was they wanted to know for themselves how their part does, because they had not yet flow tested it.

My boss (the guy that has been helping me in all of this) has been heavily involved in the development of intake manifolds and cylinder heads for champion nextel cup teams, forced induction race teams, and industrial companys like Catapiller and Daewoo. That is why I consider him to be an expert. He obviously knows what he is doing if these billion dollar companies are asking him to design, test, or fix their parts. I am very fortunate to have him be so willing to help me on things like this. Most of us do not have this type of resource.

Re: SMIM Showdown! Lets figure this out once and for all!
 

FYI:

Stock 1st gen and Beyond Redline test results are now on the page. I haven't included pictures yet, because my camera died. Appareantly, you have to charge these things!

Re: SMIM Showdown! Lets figure this out once and for all!
 

I'm not saying that I don't trust him. I'd like a little more education. Why does helmholtz vibration not take place? Or why is resonating such vibrations not important or possible with a boosted application?

I can see it differing based on cam intake close angle. Of course, this is what affects helmholtz resonance in a non boost application. Do you remember why? Can you pick his brain a little more about this?

Re: SMIM Showdown! Lets figure this out once and for all!
 

I seem to remember one of worlds worst cars (from some list) not getting the helmholtz resonance right in the intake manifold. it was on car talk or something.

If i remember right, it made the gas in the carb bowl foam... not good

Thought this would be a good laugh

Re: SMIM Showdown! Lets figure this out once and for all!
 

The Heimholtz resonance does not vary with the complete setup, it relies only on the taper of the runners, distance from the back wall of the intake manifold, speed of the air and the time the valve closes and reopens. It is true that it isn't as big of an issue in a boosted application, but it is still a factor. The only thing that will change the resonance is cam timing for a specific application like this. It is true that the resonance can only be tuned for specific RPM range.

For others: the heimholtz resonance is the shock wave that is reflected from the valve closing, bouncing off the back wall of the manifold and shooting back in to the head. If this is timed correctly it can force extra air into the cylinder.

This is not exactly correct, especially the part about it flowing 10% at any volume of air. This does not take in to account the efficiency of the air going past a restriction. The valves have a choke point and the closer you get to the choke point, the more restriction the air has. The 10% greater volume of air is just a measurement of the forces that are acting. As the air further downstream becomes less efficient it will take greater and greater force to get the air through the restriction. This will mean the runner with less flow is more efficient than the runner with higher flow, thus helping to equalize the difference between cylinders.

Then there is all of the forces that happen during valve overlap, but I am too tired to get in to that :p

What I said is the extent of the cylinder variances is not going to be equal on the flow bench as compared to what is seen in a real engine. Will there still be a difference? Yes. Will it be the exact differences you have shown in the flow bench testing? No. I agree that it is optimal to have all of the cylinders equal, I just worry people are going to start changing their mixtures 11.7% for one cylinder because your testing showed that it flowed 11.7% more air on a flow bench when this will not be the case in their engine.

I know we have a few engineers on here that have studied heavily in fluid dynamics, I would like to hear their take on this (floppy head and Jakey specifically) as well as anyone else that is well versed on the subject.

Re: SMIM Showdown! Lets figure this out once and for all!
 

Merry Christmas everybody! Hopefully, santa brought you all some go fast parts!

Got a few more emails from people over the holiday with good feedback.

Jet: Hopefully the conversations you had with my boss helped to explain this a little further to you. I wish I was well enough versed to have helped you myself, but im still learning. I guess we never stop though!

Pushit2.0 dropped off his next manifold to me, that has a slightly larger plenum, and a nicer overall appearance. I will get this manifold flowed on monday, and update the site as well as hopefully get the pics up im missing. Eventually, ill find the camera charger!!!


Hope you all have a good new years.

Re: SMIM Showdown! Lets figure this out once and for all!
 

Can you dumb down the results when you are done for common folk like me?

Re: SMIM Showdown! Lets figure this out once and for all!
 

+1! lol

Re: SMIM Showdown! Lets figure this out once and for all!
 

I've seen bad cam grinds throw off airflow and therefore fueling requirements per cylinder over 25%. An improper flowing manifold could also have very similar effects.

Re: SMIM Showdown! Lets figure this out once and for all!
 

But that always introduces opinion. Just push a little further. You'll be happy with what you learn.

Re: SMIM Showdown! Lets figure this out once and for all!
 

After talking with him it seems like we are in agreement with most things. I didn't get a response to my PM though, but I am sure he isn't on here often. I am curios to see what he says about the valve restriction helping to even out airflow. The biggest concern I have is someone getting this information and not understanding it correctly. It definitely can be useful for people that understand it though.

Re: SMIM Showdown! Lets figure this out once and for all!
 

it was explained to me well the other day. I also will be having you flow test my exhaust mani with this "heinz 51" theory ;)


Still, good info, and thanks again for running the test. glad to see people can be motivated enough to do something rather then sit around a DnB parking lot, and just talk about it for two hours ;)
-A. Swift

Re: SMIM Showdown! Lets figure this out once and for all!
 

ANY information for anything can be mis-interpereted.What has been presented is in it's most basic form.You need to draw your own conclusions.
Heimholtz calculations can be a useful design tool,but they are irrelevant to this simple test as we have not identified a specific engine combination and are merely doing comparative analysis of parts at hand.
Old Guy

Re: SMIM Showdown! Lets figure this out once and for all!
 

I had a conversation with Tim from Beyond Redline. It sounds like they want to host a dyno test with a few of these manifolds in the relatively near future. I believe he will be posting the information here in the near future.

I got pushit's next mani tested today. I will get the updates made to the site tonight. Still no pics of the last few yet. I might just take them with my iPhone and resize them to get it done. Its a hassle, but I can't find the charger for my camera anywhere.

Re: SMIM Showdown! Lets figure this out once and for all!
 

Hmmm, dyno test would be awesome.

Re: SMIM Showdown! Lets figure this out once and for all!
 

Cool, dyno numbers would be cool, but having a vendor of one of the manifolds in question worries me. The way some people are, I wouldn't be suprised if the numbers got skewed. It'd be nice if it were a more neutral party dyno testing them.

Re: SMIM Showdown! Lets figure this out once and for all!
 

If they are merely a host and were supervised by a neutral party I see no reason why Beyond Redine can't hold a fair dyno competition. I doubt any non-manufactuer would be willing to donate the time needed to swap so many different manifolds and dyno test them all.

Re: SMIM Showdown! Lets figure this out once and for all!
 

The plan we have been discussing is to use their facility and dyno, but somebody's car that they do not know, or have any association with. The manifolds would be tested back to back.

Also, we plan to tune the car with each manifold. Obviously, if one manifold allows the engine to breathe better, it will require more fuel. As a rough plan, tune each car to a set AFR, and set timing as high as possible without knock.

Re: SMIM Showdown! Lets figure this out once and for all!
 

Hasn't exactly that been done a few years back?

Where are these guys located?