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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 turbine converts heat energy into power.type056 wrote:Thanks.But it is not seem MGU-H energy come from heat.
Maybe the airbox has some sort of resonance system which increases the ram air effect at certain speeds?Blackout wrote:Do you know how that ''air box'' we see in every Renault V6 pic released until now works ? why the air is not directly routed to the compressor like the exhauts are directly routed from* the turbine ? How does that disc-shaped 'air-box' works ? is there other sport cars which use the same solution ? I dont think the AUdi leMans, for example, use that solution.
Doubtful that teams will play too much with the manifolds, since they have a large influence on how well the turbo works.Blackout wrote:Dont't forget that every team will use its own exhasut manifold design so their look should differ from the one we saw today.
Same method and over a longer time, but someone needs to explain to me the MGU-H if that was the one getting power from heat, what is it doing ? Is it helping the Turbo or there to gather the remains and use them in a way thats useful, this case for the ERS?Juzh wrote:Can someone explain this to me: 160bhp from the ers unit will be released with a push of a button like KERS currently or by some other method?
There is a MGU-H mounted on the turbine shaft. Instead of using wastegates to control the boost the generator will brake the turbine shaft by using it to create electricity. This electricity is stored in the batteries or capacitors and used by the MGU-H to speed up the turbine shaft to reduce turbo lag.Huntresa wrote:Same method and over a longer time, but someone needs to explain to me the MGU-H if that was the one getting power from heat, what is it doing ? Is it helping the Turbo or there to gather the remains and use them in a way thats useful, this case for the ERS?Juzh wrote:Can someone explain this to me: 160bhp from the ers unit will be released with a push of a button like KERS currently or by some other method?
Correcttype056 wrote: Thanks.But it is not seem MGU-H energy come from heat.
Thanks.wuzak wrote:Maybe the airbox has some sort of resonance system which increases the ram air effect at certain speeds?Blackout wrote:Do you know how that ''air box'' we see in every Renault V6 pic released until now works ? why the air is not directly routed to the compressor like the exhauts are directly routed from* the turbine ? How does that disc-shaped 'air-box' works ? is there other sport cars which use the same solution ? I dont think the AUdi leMans, for example, use that solution.
Or it could be just an example of what an intake would look like.
Don't forget that the Audi Lemans engine is a 3.7l turbo Diesel.
Doubtful that teams will play too much with the manifolds, since they have a large influence on how well the turbo works.Blackout wrote:Dont't forget that every team will use its own exhasut manifold design so their look should differ from the one we saw today.
I'm sure that teams will adopt different solutions to the intercooler arrangment.
‘‘From that stage, one of the key areas we needed to investigate was the packaging of the Power Unit. The current V8 is 95kg, 100kg if you add the weight of the MGU. This increases to 120kg when you include the ancillary parts, such as the radiators and other cooling devices. With the 2014 Power Unit, the V6 turbocharged engine will be a minimum of 145kg, plus 35kg for the battery. At 180kg, this is a 80% increase over the current units, plus a further 20kg for the ancillaries such as the intercooler and other radiators.’’
both, at different timesHuntresa wrote: Same method and over a longer time, but someone needs to explain to me the MGU-H if that was the one getting power from heat, what is it doing ? Is it helping the Turbo or there to gather the remains and use them in a way thats useful, this case for the ERS?
interestingly ?wuzak wrote:The turbine converts heat energy into power.type056 wrote:Thanks.But it is not seem MGU-H energy come from heat.
The temperature on the engine side of the turbine is much higher than the temperature on the exhaust side.
All ERS boost will be demanded from the throttle pedal, the electronics will work out what mix of petrol and stored energy will be used. There will be no steering wheel KERS boost button.Juzh wrote:Can someone explain this to me: 160bhp from the ers unit will be released with a push of a button like KERS currently or by some other method?
So the ECU will know via lets say GPS where on track the car is and will apply ERS power accordingly? Or is it purely throttle related? How about tracks where full throthle is less than 35s, like monaco?scarbs wrote:All ERS boost will be demanded from the throttle pedal, the electronics will work out what mix of petrol and stored energy will be used. There will be no steering wheel KERS boost button.Juzh wrote:Can someone explain this to me: 160bhp from the ers unit will be released with a push of a button like KERS currently or by some other method?