... If it were, tuner communities would have already done this beyond what we have seen in the Kinetix, APS & Cosworth examples - which by forum consensus have mixed results - certainly nothing worth the $1200 that Cosworth wants.
I could continue to argue my point and cite almost every modern high performance V6 (excepting the VQ35DE), V8, V10, and V12 engine that has a symmetrical intake plenum but it's obviously doing no good. All I can say is that I disagree.
VQ has been around for a long time and an intake plenum is no simple geometry. You're making a lot of assumptions as to why the plenum was designed a certain way (I certainly don't know why it's designed like that) and thinking a front feed would be "better" based on what - notional theory?
First, I'm only modifying the upper plenum. The complicated parts of it are not the important parts. The simple fact that a plenum spacer improves overall performance proves this.
Also, the front feed idea is a secondary goal to symmetry. Technically the main chamber is going to be fed from the top anyway. Actually, I may rotate the upper feed tube now that I think about it... See, this is a perfect example of the benefit of constructive criticism.
The push-back you feel might just be the community saying, "been there, tried that, fell back on what is out there because it's still better than OEM, watching yet another attempt and are hopeful you'll come up with something ground breaking but not holding our breath".
I wish the feedback were that positive and direct...
As an engineer, I'd be interested in what tools you would be using to calculate flow. Some sort of finite element analysis would be the way to go - or software specific to engine development applications. If you don't have specialized tools or software and are using artistic intuition with no real objective calculations, I find it difficult to know where to start, "helping". Your concept looks cool but how anybody could improve on it without working with a prototype and a flow bench is where I lose touch with this thread.
I'm a tiny little bit insulted by your baseless assumptions. You could just ask me about my software, tools, or qualifications directly. In fact I have stated in this very thread which software I am using. All that aside...
As a Certified Solidworks Expert with over 8 years experience in structural and mechanical engineering I will be using Solidworks 2008 for the 3D modeling and FEA, and Floworks (a Solidworks add-in) for the fluid analysis. Considering this was sufficient for my 4+ years of work as a subcontractor for Lockheed-Martin (contracted by the Department of Defense) on several multi-million dollar projects on multiple SLC sites at Vandenburg AFB and CCAFS, I think it should be ok for this project. I also own a hammer.
I really value your opinions and ideas Jumbo, more than most in fact. But with all due respect, I'm not begging for your input. If you don't have anything positive to contribute or don't know where to begin helping, then by all means wait until you do. No harm done. We can still be cyber-friends in the meantime.

If it makes you feel any better, this forum is not my only source of information pertaining to this project. Perhaps the fact that I only pose my vehicle-specific questions here is somewhat misleading.
It's late and I just got home from a kick-ass rock and roll show. Forgive me if any of that sounds abrupt or insulting; I don't mean it that way.
---------- Post added at 02:04 AM ---------- Previous post was at 01:56 AM ----------
I always wondered if you could stick a maxima or 3.5 altima manifold in our engines. that would give you a different angle for sure.
the other problems I see relocating the TB is all the cables and wiring that needs to be moved.
I think the maxima plenum would probably fit considering it has the VQ35DE, but it's not just the angle I'm looking to improve. I don't know about the 3.5 Altima...
Very true. I haven't even addressed the TB relocation yet, though it is definitely going to have to happen. That part seems pretty straight forward though, hopefully it won't be too painful.
---------- Post added at 02:07 AM ---------- Previous post was at 02:04 AM ----------
Have you thought about upgrading the plenum to the Kinetix SSV maybe? I dunno if its worth the money (I think about $600) but everyone says its really good for FI setups and gives around a 20+hp gain. More than anything else its defenently an engine dresser w/ the custom carbon engine cover. I dunno just though i'd throw it out there lol
---------- Post added at 08:15 PM ---------- Previous post was at 08:12 PM ----------
EDIT: It says it adds 30.5hp and its closer to $700
---------- Post added at 08:16 PM ---------- Previous post was at 08:15 PM ----------
http://www.kinetixracing.com/enginecoverforthessv-350zg35.aspx
http://www.kinetixracing.com/new-ssvextremeflowkinetixmanifold350zg3503-06.aspx
I'm pretty set on making my own upper plenum. If it ends up not working, I'll probably end up doing the HR manifold swap with dual TB's.
---------- Post added at 02:14 AM ---------- Previous post was at 02:07 AM ----------
Reply added below...
---------- Post added at 11:14 AM ---------- Previous post was at 02:14 AM ----------
theres more to tuning an intake manifold than just airflow. there are also pulse waves & pressure waves that really come into play, both negative & positive. these pulse waves are caused by valve overlap & the velocity of the stack of air in the runners moving at a high rate of speed & then sudenly crashing into a dead end when the valve closes...
. it's not just about airflow. well in the end it is just about air flow, but it takes more than just airflow to calculate airflow...
I think we have some of the same books...
I know about the pulses, but from what I read addressing them is done mainly at the manifold (as you said) and somewhat by altering the overall length of the intake tube. I will not be touching the intake manifold, but will be creating an upper plenum with the same internal volume as the stock plenum with a 3/8" spacer. Speaking of the spacer, doesn't the fact that the addition of a spacer can have a positive effect on performance pretty well prove my theory? As a logical person, think about the "ideal" intake. Regardless of specific dimensions, the manifold runners would be equal length, straight as an arrow, the plenum would provide perfectly equal flow to all cylinders, the intake tube after the TB would be straight, and the filter would be large enough to provide unrestricted airflow into the system. Now think about why the OEM DE plenum strays from this philosophy. It's because the whole system had to fit under the hood of a 350z. In regard to the Hemholtz resonators ("resonant cavities"), most of them in this application are for sound mitigation and are removed by the use of the "z-tube". There is also a large one under the stock air box, which I'm sure most people remove when they install any kind of aftermarket intake.
you can be sure that the manifold just the way it is is tuned to a level that is just not readily achievable without the amount of resources that Nissan can throw at it, Nissan can throw a ton of tuning into the mix because they are sharing the cost across many many vehicles, the cost of doing all this for one or even a few would never ever be worth it, & just winging it without doing all the computer modeling & flow bench work & mock-ups & testing can never get as good results, & you can also be sure that the whole upper plenum as it is is part of there overall tuning
I'm ok with the fact that I may need a tune afterward, I am doing computer modeling, and I am using top notch fluid dynamics software. At this point I agree that it seems like I'm winging it, but I assure you that I am very familiar with the product development process. As far as the prototypes and real world testing; When I build it, they will come.
there are a lot of hotrodders & enthusiasts & yes, even "pro's" that may not fully realize all of the science involved, & there are many cases of "pro's" building there own manifold & having worse results than even the factory manifold. when you just think about it as airflow you think you can see the obvious improvements, but it is so much more than just airflow too, joe hotrodder can get the flow really nice but joe hotrodder canot harness the pulses & resonating frequencies & use them to there advantage like nissan can for the most part. theres a reason why today they can extract more power from a tiny little 4 cylinder than the old big block v8's of yesteryear & it is in the science & precision of design. unless you fully understand the design you can not have any Hope of improving upon it.
I think you are overestimating the value and necessity of the intake pulses. Removing the stock intake and air box virtually destroys the "tuning" with respect to the pulses. After all, that is where all the Hemholtz resonators are in the first place. The only other areas that have a huge impact on the effect of the pulses (on the intake side at least) are the intake manifold runners and the overall length of the intake tube, from heads to open air, which is also drastically altered by most aftermarket intake systems.
There are many other reasons engines are more efficient now than they were back in the day. Compared to direct injection, variable timing, overhead cams, lightweight pistons, and tighter tolerances, tuned intakes are relatively minor.
in the end I think your attacking something that is not a real bottleneck for you, you want more power there are better ways to go about it than building a Frankenstein manifold. now everything before the manifold & TB I'll agree that I think you yourself can make an improvement over even what the aftermarket has done, but the manifold itself, the only way I think you can improve it yourself would be to replace it, & even then it can be a bit questionable weather it really is an improvement or not because it not only has to be better in flow but also better in a match to the VE of the engine as it exists... I think there is so much room elsewere before you should even have to worry about the intake manifold itself.
I think my goals are pretty reasonable and are not strictly performance oriented. I agree (as does my wife

) that my time could be better spent elsewhere but I enjoy the challenge and I'd like to see if I can create something new. At this point, it had better work because I've dug myself a pretty sweet hole in this forum.
To recap; These are my goals and criteria for the upper plenum:
1. Must attach to existing lower plenum.
2. maintain existing internal volume +3/8" spacer.
3. Provide equal flow to all cylinders.
4. Reduce flow restrictions.
5. Avoid using a hood scoop.