Burnin4
Well-Known Member
- Joined
- Apr 6, 2015
- Threads
- 20
- Messages
- 860
- Reaction score
- 326
- Location
- Mooresville
- Vehicle(s)
- 17 GT350
^blah blah blah, I don't mean any offense or disrespect, and I applaud your commitment to the community but it's time for all these 700whp/pump gas whipple setups to post up some results/slips, with mph (&DA/wheel setups). I'm not saying the results aren't there, but there's a lot of hype claiming how much better the whipple is over everything else and nothing to back it up aside from dyno sheets.We have real world comparison's, IAT2 is SIGNIFICANTLY different. And while some can post 1 dyno graph of something they are working on. The fact is, it's already available LOL, it comes with every one of our kits. Nearly 150hp more! A year later, other's have to regroup to try and compete.
But, how are they going to compare with IAT's on these phases 2, 3, 4... Maybe just run it closer to the edge of failure to try and make the same power? There will always be supporters of both, but anyone doing the research will realize:
1. Bigger, more efficient supercharger.
2. Front feed minimizes restrictions, allowing higher VE's.
3. Bigger intercooler trumps the undersized GT500 based core.
4. Far greater flowing intake manifold minimizes pressure losses. As flow goes up, restrictions increase in the smaller manifolds.
5. As power goes up, belt issues can arise. Having a custom tensioner, enclosed in a casting is much more troublesome then having a HD tensioner with an adjustable idler that allows the variance of nearly 1" in pulley changes.
6. Optional 10-rib kit, carbon fiber components, dual 11" spal fans and flash tool with wheel/axle ratio changes (IDS doesn't change that).
7. Calibration light years ahead, better drivability, better safety, better manners and greater power.
8. Massive heat exchanger. No need to upgrade, already included. Research the size difference. Better temp control, quicker cool downs, less power loss and more consistent power. A dyno pull doesn't show all the real world temps. Poor heat exchanger and manifold design shows its ugly head more on the road then a chassis dyno.
To be accurate, the only time a TVS makes more torque is when it can't keep up at the higher compressor speeds to continue making power. Just look at the graph of the "maybe" available, falls off on the top. It would be easy to duplicate this, in fact we have in the past, we just cut the throttle a little on the top and we can make all the torque and lack HP. One of our old systems had a poor intake design (my bad :dohand it had similar curves, acted as it had "boost" control to some degree because the kit efficiency would fall off on top, but would make great torque. The difference here, there are no restrictions, therefore you are maximizing both torque and HP. Look at the curves of the two.....
We've tested both manifolds and intercooler setups. Back to back with our supercharger, 65hp at the same boost level (12.5psi). As flow goes up, the greater the difference. Since we had to use that manifold on previous applications, we have a tremendous amount of testing data. Therefore, when we built ours, we already knew of all the issues of that setup.
The fact is, you can be a leader or you can be a follower. While some may be scratching at the drawing board trying to compete, were already working on the next level of upgrades that will further separate us from the pack.
My lil ol TVS traps 130+ on pump gas rolling on 20's, with catalytic converters in mid 80's/2200ft DA, first time out on a remote Lund tune. Nothing spectacular, but wait till we update the tune, get some drag wheels, and go back in decent weather, mid 10's all day on pump gas. I just want to see how the big bad whipple will fair under the same conditions/setup.
Sponsored
Last edited: