F1 will see a complete change in engine regulations in 2014, and we're having a closer look at what that means exactly
marcush. wrote:the Galmer G92 used a setup like this to win in Indy .I´m not quite sure if it is this car .
As this used a Chevy engine and we see a Cosworth below ...this hints at others using similar packaging .
The compressor would not have to spool up ringo, it would always be at high rpm, thats the point.ringo wrote:The compressor drive motor idea's a pretty good one, but it requires electrical energy, for such a small rev range, with maybe a difference of milli seconds in boost response difference. I think it would be better to have the simple turbine compressor relationship.
The motor inbetween them, i would just use that to generate power to power the wheels.
Putting the power back into the compressor makes sense off boost, but it will still take considerable power to spool the compressor unless the compressor is in a vacuum. If the compressor is in a vacuum so it can speed up with minimal power, then no boost for the engine since no compressed air is flowing.
So it's back at square 1, the turbine is the best accelerator for the loaded compressor.
If the motor can't accelerate the loaded compressor faster than the turbine it makes no sense. It has to be able to do that for it to be viable.
If it can assist the turbine, instead of work independently, then all the better.
Sorry Ringo don`t know for sure, but I was under the impression (maybe wrongly) that it was the standard layout during the time when Cosworth was the sole engine supplier towards the end of the Champcar era. (that would make it a Panoz chassis)ringo wrote: what car is this? =D>
I have no idea what the first part of your post is about, but yes, a pressure wave supercharger is not explicitely outlawed yet. According to Wikipedia Ferrari tried installing one on the 126C. I'd love to hear about any other turbo alternatives anyone knows of.mpower wrote:racing should be about so much fuel for so many circuit rounds.... by class engine/vehicle/suspension/efficiency..airo............and the real world 1.6 Euro/ltr
downsizing......someth the US forgot
there are many....many.... other means of "blowing" the engine
http://www.swissauto.com/swissauto-webs ... 2000H5.pdf
I think Auto's idea was to use the KERS for added downforce in the braking zone (by utilising the compressor to draw air from under the car), rather than to add power to the engine...ringo wrote:That power is better of driving the wheels for added acceleration, instead of going through the engine again to give that same acceleration
Good point riff_raff. Hydraulics have a much greater energy density than pneumatics or electro magnets, but hat comes with other disadvantages. Hydraulics are awfully inefficient when it comes to transmitting power in rotational devices. Machine tool manufacturers have known that a long time ago. That is why they have switched to heavy electric servo motors a long time ago. The advantage of fluid cooled electric induction controlled motors is the ease you can control the motion with unmatched precision. The inertia is not such a big deal when you optimize the design of the motor.riff_raff wrote:If you want to use the turbo compressor as part of a KERS system, a better approach (from a throttle response standpoint) would be a hydraulic assist turbo. Hydraulic assist turbos, using a pelton wheel on the turbo shaft, can deliver more energy, more rapidly, to the turbo system than a (much heavier, higher inertia) electric compound device.
