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They probably had full boost in Spa quali pre-2017. I remember that Honda magazine showed that in Spain the full boost happened in some part of the track in 2016 where there was none in 2017, and the difference is not exactly tiny. This could indicate recovering energy also happens during overrun (mid-corner no braking), or partial throttle at corner exit.wuzak wrote: ↑24 Nov 2022, 08:03Thanks.yelistener wrote: ↑24 Nov 2022, 01:33Spa is zero full boost. Baku is like 0.5s at the exit of the last real corner. They're too little so it's not worth making a video.
It can be a bit different with other teams. Some cars' exhaust mic don't give away the full boost sound, so we can't know.
I guess they have sections that are full throttle for so long that there isn't enough energy to do full boost.
Could be yes.saviour stivala wrote: ↑24 Nov 2022, 22:14''So 2mj is recovered by MGU-H while driving with open waste-gate/s'' While driving with open waste-gates the MGU-H is in motoring mode and while motoring it cannot also harvest.
OK that makes sense now (takes a while)yelistener wrote: ↑25 Nov 2022, 09:30Mercedes actually posted a video on youtube including a small part explaining this wastegate open mode. They call it "AMG turbo mode", which Hywel Thomas said MGU-H was being powered in that mode and not harvesting energy.
Explanation starting at 10:36
https://youtu.be/RwwUOYTbyfs?t=635
the above is incorrect ......saviour stivala wrote: ↑25 Nov 2022, 09:02It, the turbocharger turbine used in F1 being a pressure type of turbine + the waste-gate/s used are designed to bypass exhaust gases from the turbine, when waste-gate/s are open the turbine is simply riding along on the turbo shaft while the whole thing is motored by the 'H', which in turn is sharing 'ES' power with 'K'. (electric supercharging mode/free load mode).
It took some of the power unit makers up to 2017 - 18 to believe that they have reached the top - which was back then producing an MGU-K that can deliver 120kw, it's fully permitted potential. Those two that believed so have than turned their attention to catch-up in how they can gain some 'EXTRA' harvesting even if it could potentially be considered not within the spirits of the harvesting energy rules, This line of thinking was as a consequence of lack of policing by the rule makers, which in turn was due to technical problems to do so. This can be confirmed by the late Charlie W saying that there was no way they could properly understand what FERRARI were doing until they produced and made use of very sophisticated software. Since then and since they introduced mandatory upgraded MGU-K IN - OUT sensors, this was right after the Japanese magazine outed the Honda 'EXTRA' HARVESTING which many on here promptly declared as being legal.yelistener wrote: ↑25 Nov 2022, 03:24They probably had full boost in Spa quali pre-2017. I remember that Honda magazine showed that in Spain the full boost happened in some part of the track in 2016 where there was none in 2017, and the difference is not exactly tiny. This could indicate recovering energy also happens during overrun (mid-corner no braking), or partial throttle at corner exit.wuzak wrote: ↑24 Nov 2022, 08:03Thanks.yelistener wrote: ↑24 Nov 2022, 01:33
Spa is zero full boost. Baku is like 0.5s at the exit of the last real corner. They're too little so it's not worth making a video.
It can be a bit different with other teams. Some cars' exhaust mic don't give away the full boost sound, so we can't know.
I guess they have sections that are full throttle for so long that there isn't enough energy to do full boost.
It is your accredits which are wrong. First. Any exhaust gas past the exhaust valve is 'blow-down' gas. Secondly. The turbine used in F1 is not a blow-down turbine like used by the Wright Cyclone, but a pressure turbine. A blow-down turbine will not have a waste-gate because it doesn't need pressure to produce useful work. The F1 turbine needs exhaust gas pressure to produce useful work, when waste-gate/s are opened the exhaust gas pressure is dropped to atmospheric pressure, and any gases inside the turbine at atmospheric pressure cannot make the turbine do any useful work because turbine can only do so under exhaust gas pressure.Tommy Cookers wrote: ↑25 Nov 2022, 16:33the above is incorrect ......saviour stivala wrote: ↑25 Nov 2022, 09:02It, the turbocharger turbine used in F1 being a pressure type of turbine + the waste-gate/s used are designed to bypass exhaust gases from the turbine, when waste-gate/s are open the turbine is simply riding along on the turbo shaft while the whole thing is motored by the 'H', which in turn is sharing 'ES' power with 'K'. (electric supercharging mode/free load mode).
unless the exhaust gas is entirely diverted away from the turbine and the main exhaust pipe
but .....
the turbine actually gets 1 atm exhaust so kinetic pulses/waves still (quite weakly) power the turbine and compressor
this power recovery-without-backpressure is the so-called blowdown recovery
here it somewhat reduces the amount of ES energy needed by the MGU-H in driving the compressor
so increasing the available duration of this ('electric supercharge') running mode
there is no evidence that the turbine responds only to mean exhaust pressure (is unresponsive to kinetic 'pulses')
clearly all 4 makes of ICE have exhaust manifolds designed to encourage these pulses
and the pulses are anyway relatively stronger in 1 atm exhaust than in the main ('backpressure') running mode
With wastegate open, the pressure in the exhaust does not drop to atmospheric. Have you ever heard of wave tuning? The exhaust collector sees pulses of up to 2.5 atmospheres on a NA engine - higher on a supercharged engine. Are these pulses able to force their way into the rapidly spinning turbine and generate any power with the wastegate open? Who knows. Certainly there will be some partially-open settings for the wastegate where useful turbine power is generated while reducing average exhaust pressure sufficiently to increase crankshaft power.saviour stivala wrote: ↑25 Nov 2022, 17:32It is your accredits which are wrong. First. Any exhaust gas past the exhaust valve is 'blow-down' gas. Secondly. The turbine used in F1 is not a blow-down turbine like used by the Wright Cyclone, but a pressure turbine. A blow-down turbine will not have a waste-gate because it doesn't need pressure to produce useful work. The F1 turbine needs exhaust gas pressure to produce useful work, when waste-gate/s are opened the exhaust gas pressure is dropped to atmospheric pressure, and any gases inside the turbine at atmospheric pressure cannot make the turbine do any useful work because turbine can only do so under exhaust gas pressure.Tommy Cookers wrote: ↑25 Nov 2022, 16:33the above is incorrect ......saviour stivala wrote: ↑25 Nov 2022, 09:02It, the turbocharger turbine used in F1 being a pressure type of turbine + the waste-gate/s used are designed to bypass exhaust gases from the turbine, when waste-gate/s are open the turbine is simply riding along on the turbo shaft while the whole thing is motored by the 'H', which in turn is sharing 'ES' power with 'K'. (electric supercharging mode/free load mode).
unless the exhaust gas is entirely diverted away from the turbine and the main exhaust pipe
but .....
the turbine actually gets 1 atm exhaust so kinetic pulses/waves still (quite weakly) power the turbine and compressor
this power recovery-without-backpressure is the so-called blowdown recovery
here it somewhat reduces the amount of ES energy needed by the MGU-H in driving the compressor
so increasing the available duration of this ('electric supercharge') running mode
there is no evidence that the turbine responds only to mean exhaust pressure (is unresponsive to kinetic 'pulses')
clearly all 4 makes of ICE have exhaust manifolds designed to encourage these pulses
and the pulses are anyway relatively stronger in 1 atm exhaust than in the main ('backpressure') running mode
that is 100 year-old (wrong) thinkingsaviour stivala wrote: ↑02 Dec 2022, 06:49.. No power recovery is possible in such a system unless the collector is above exiting at atmospheric pressure.
Many/most aftermarket turbos do not have an internal wastegate, so an external wastegate has to be used. The wastegate, or gates, is usually fitted somewhere on the exhaust. The gates are used to control the flow to the turbo.saviour stivala wrote: ↑02 Dec 2022, 06:49The formula one turbo-supercharger utilizes a pressure turbine with an external waste-gate and not a build-into-turbine-housing waste-gate. As such the formula one waste-gate does not control turbo boost, and when open exhaust gas collector pressure is at atmospheric pressure.