For quite a few years I've been playing with the VNT turbos on various engines. In another thread I think it was Wailliam Taylor who asked me about my mechanically controlled VNT vanagon installation. I finally got around to taking pics and figured I'd post them up. The various vane control designs I've done have gone through significant changes but all maintained the same design goals. Keep the vanes normally open, close them proportional to the demand for power, over ride the vane position and open them in order to not exceed max desired boost. I have to say the last couple iterations have been ROCK SOLID.
I have been using a VNT15 on my 1.6TD and have been regulating it to 16psi. Initially I had it set higher, but I'm more concerned with engine longevity than I am with eeking out more power. As is, power significantly exceeds that of a stock 2.1 WBX. On my van, the boost response is absolutely incredible. There is no such thing as "off-boost". I live at 7,000' of elevation where spooling is significantly slower than at see level and yet I can be at 5psi while I let the clutch out. At low rpm, the boost will snap right up to 10 psi (where I have the control starting to kick in) and as rpms increase it gradually moves up to 15-16 psi as rpms increase slightly and stays there.
With early designs I had some trouble with the vanes sticking from carbon buildup. With the current design that is not an issue. In fact with the installation on my wife's '82 Merz 300TD, when I removed a previous control, the vanes were fairly well stuck. I worked the vane lever by hand and freed them up a little. After driving with the updated control for a few days the vanes were like butter. Absolutely no resistance.
Here are a few pics:
Because of the intercooler pipes being in the way, it is pretty much impossible to get a decent picture of the linkage that runs down to the vane lever on the turbo.
The spring mechanism in the last pic is to allow the pump accelerator lever to return even if the boost can is fully expanded and vanes pushed fully open. For pics of the one on my wife's car, go here. That control is basically the same concept, but laid out in a way that might be a little easier to understand. One significant difference between that control and this one is that on that one, I used a manual boost controller and check valve to control max boost which with the considerably larger intake tract volume works fine with that application. I found that wouldn't work on my van as the controller did not react fast enough and so boost would spike up to 25+ psi and then snap back to the setting of the controller. Instead, I exchanged the spring inside the boost can for one with the appropriate rate/length/diameter and the boost signal is sent directly from the charge pipe right before the intake manifold.
Great care was taken to make sure the lever arms were the right length, linkages had adjustment where necessary, angles were correct, nothing rubs where it shouldn't, slop in the control is totally minimized, heim joints were used at each joint and the lever that changes the linkage direction is bushed with a nice fitting bronze bushing.
The VNT is like having your cake and eating it too. It gives the super fast boost response of a tiny turbo and yet flows more freely than a large turbo (that would be obnoxiously laggy) when the vanes are opened.
but it looks and sounds to be working just great.
