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Honda F1 project leader Yusuke Hasegawa has outlined a number of reasons why Honda has been struggling so badly in the beginning of the 2017 Formula One season. He confirmed that lots of problems were not discovered while running on the dynamo meter.
#aerogollumturbof1 wrote: YOU SHALL NOT......STALLLLL!!!
You could probably make the heads contain the housing itself as their walls if you really wanted to, tolerances would be a struggle but hell, this is F1.godlameroso wrote:I mentioned it before but perhaps they can create a recess on the block casting itself, a groove in which a larger compressor can sit. It could use the block's water and oil passages to help cool the compressor.
Well if half the compressor housing was cast into the heads, you would need a very special seal for the top half, I do recall Honda saying they had problems with seals early on in the season.PhillipM wrote:You could probably make the heads contain the housing itself as their walls if you really wanted to, tolerances would be a struggle but hell, this is F1.godlameroso wrote:I mentioned it before but perhaps they can create a recess on the block casting itself, a groove in which a larger compressor can sit. It could use the block's water and oil passages to help cool the compressor.
Maybe you are right afterall, if Arai admits it in the interview. But will it be the same shape, or does Honda use a "longer" compressor than Mercedes' flat disc shaped one?PlatinumZealot wrote:Facts Only wrote:PlatinumZealot wrote: That compressor won't fit in any V, it's genuinely way to big. It would be sat more or less on top of the engine.
Pretty much it will be vertically challenged but it will still be partially between. I had done some comparisons using photos... there is space just a few centimeters the turbo has to be moved up by. Move the turbo up by 1cm and you can fit a compressor that is 2cm wider... If you get my drift.
Split seals are there to use if they need. Boost pressure should be childs play.godlameroso wrote:Well if half the compressor housing was cast into the heads, you would need a very special seal for the top half, I do recall Honda saying they had problems with seals early on in the season.PhillipM wrote:You could probably make the heads contain the housing itself as their walls if you really wanted to, tolerances would be a struggle but hell, this is F1.godlameroso wrote:I mentioned it before but perhaps they can create a recess on the block casting itself, a groove in which a larger compressor can sit. It could use the block's water and oil passages to help cool the compressor.
Well. The regulations dictate the orientation of the shaft. Parallel to the crank.SKI2 wrote:"Pretty much it will be vertically challenged but it will still be partially between. I had done some comparisons using photos... there is space just a few centimeters the turbo has to be moved up by. Move the turbo up by 1cm and you can fit a compressor that is 2cm wider... If you get my drift."
Would it be possible to have the connecting shaft between the turbo and compressor at an angle relative to the crankshaft plane ? In other words, simply raise the compressor end of the shaft connecting turbo and compressor higher off the block (and somewhat deeper within the headrest intake assembly) and leave the turbo - relatively - in its current position. This would place the entire assembly, compressor / connecting shaft / MGU-H/ and turbo at a small angle relative to the vertical center line of the block. Do the regulations prohibit such a configuration ?
Wild asides: are there engineering reasons a PU manufacturer couldn't place the Compressor / Turbo / Shaft assembly in a completely vertical orientation. Envision something like a 917 flat fan, where the compressor would be located horizontal to the track surface and the compressor beneath it. (Not in the center of the engine!)
Or in a horizontal, lateral layout 90* to the crank ?
The problem with this interpretation is that the rules do not state "parallel when viewed from...." as it does in other parts of the regulations, it just states parallel.SKI2 wrote:This is improbable conjecture at best. Still, I learn from trying to work through and around the regs....
So, for a horizontal and angled solution, we are to assume the regs insist upon the entire length of the T/C connecting shaft to be always and entirely parallel to the crankshaft plane? And we could not create an assembly where the connecting shaft would be parallel to the crank in a plan view, but non parallel in elevation (side) view, yet still with the rear portion of the shaft assembly within 25 mm of the vehicle centerline.
The bearings could be part of a pressurized dry sump system? Assuming a vertical shaft intersected the centerline, that is.
Solutions get far too similar with these sorts of regulations, don't they. Thanks for the replies.
