The intake to the turbo is underneath the intake plenum. I guess somewhere at the front of the engine that's not shown in the video.timbo wrote:I don't get how air gets in the turbo
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F1 will see a complete change in engine regulations in 2014, and we're having a closer look at what that means exactly
The intake to the turbo is underneath the intake plenum. I guess somewhere at the front of the engine that's not shown in the video.timbo wrote:I don't get how air gets in the turbo
Yes this is what I was referring to by intake. I got confusion.Holm86 wrote:The intake to the turbo is underneath the intake plenum. I guess somewhere at the front of the engine that's not shown in the video.timbo wrote:I don't get how air gets in the turbo
Wonder why they did so.Holm86 wrote:The intake to the turbo is underneath the intake plenum. I guess somewhere at the front of the engine that's not shown in the video.
Probably packaging yes. What I don't get is the single entry exhaust turbine.timbo wrote:Wonder why they did so.Holm86 wrote:The intake to the turbo is underneath the intake plenum. I guess somewhere at the front of the engine that's not shown in the video.
Only packaging or something else?
Yes, don't quite get it...Holm86 wrote:Probably packaging yes. What I don't get is the single entry exhaust turbine.timbo wrote:Wonder why they did so.Holm86 wrote:The intake to the turbo is underneath the intake plenum. I guess somewhere at the front of the engine that's not shown in the video.
Only packaging or something else?
And that the MGU-H will spool the turbo exiting corners, with the MGU-K kicking in later in the acceleration phase.Holm86 wrote:At least they confirm that the MGU-H will indeed be used to controll the boost pressure. And a wastegate is present for security reasons. So that discussion can be laid to rest.techF1LES wrote:Official RENAULT ENERGY F1®-2014 MEDIA GUIDE
http://www.renaultsportf1.com/IMG/pdf/r ... 014-en.pdf
Not allowed to. Compressor and turbine must be on the same shaft.Blaze1 wrote:Would there be any benefit of having gearing between the compressor and turbine, so they can run at different speeds?
wuzak the regs state:wuzak wrote:Not allowed to. Compressor and turbine must be on the same shaft.Blaze1 wrote:Would there be any benefit of having gearing between the compressor and turbine, so they can run at different speeds?
No, because if you gear the compressor it is, by definition, not linked by a common shaft. There must be a second shaft.Blaze1 wrote:wuzak the regs state:wuzak wrote:Not allowed to. Compressor and turbine must be on the same shaft.Blaze1 wrote:Would there be any benefit of having gearing between the compressor and turbine, so they can run at different speeds?
5.1.6 Pressure charging may only be effected by the use of a sole single stage compressor linked to a
sole single stage exhaust turbine by a common shaft parallel to the engine crankshaft and
within 25mm of the car centre line. An electrical motor generator (MGUH) may be directly
coupled to the same shaft.
If the compressor and turbine are linked to a common shaft via gears, does that not satisfy article 5.1.6?
Yes, it's only common sense. Good engineering design must require some kind of failsafe. It wouldn't be wise not to have one with just 5 engines per season.Holm86 wrote:At least they confirm that the MGU-H will indeed be used to controll the boost pressure. And a wastegate is present for security reasons. So that discussion can be laid to rest.techF1LES wrote:Official RENAULT ENERGY F1®-2014 MEDIA GUIDE
http://www.renaultsportf1.com/IMG/pdf/r ... 014-en.pdf
If there is a failure of the MGUH, of the there is transient behavior (unsteady) The MGUH can't react quick enough to limit boost pressure. So security reason cannot be understated.On the Renault
Energy F1, the turbo rotation speed is primarily controlled by the MGU-H
(see below) however a wastegate is needed to keep full control in any
circumstance (quick transient or MGU-H deactivation).
