With the track debut of the new V6 turbo engines coming closer and closer, teams are admitting that one of the major challenges of getting and efficient and reliable package will be managing the cooling systems.
A sidepod going up would generate a lot of lift. As would a flat 'pod. I would imagine that the teams will have quite basic sidepod design at the start of the season, leaving plenty of room to provide ample cooling for the radiators and intercoolers. Perhaps they will continue to "shrink-wrap" around the engine if the reliability is sufficient.Sevach wrote:Regarding sidepod design, the current sloping pods are designed that way to get a good flow to the beam wing, in 2014 what will they aim for?
Tall sidepods with a lot of undercut?
A sidepod that goes up instead of down? Do the rules allow this?
Looks realistic. Could actually be quite close to some of the cars next year.theWPTformula wrote:Here's my interpretation of a 2014 car from the side. This includes quite an extreme version of the nose/wing. Thoughts?
https://pbs.twimg.com/media/BaG-aKBCEAAzjRB.jpg:large
Either I am missing something here or you are. The way sidepods are shaped now actually creates some lift and is only done so as to get the air flow to push the exhaust stream down to the floor. If you have the sidepods set with a large undercut and sloping upwards instead of downwards ass all current cars do then it should actually create a bit of downforce. This is because the air going over the top will slow down increasing pressure while air under the sidepod in the undercut will have to speed up lowering the pressure.theWPTformula wrote:A sidepod going up would generate a lot of lift. As would a flat 'pod. I would imagine that the teams will have quite basic sidepod design at the start of the season, leaving plenty of room to provide ample cooling for the radiators and intercoolers. Perhaps they will continue to "shrink-wrap" around the engine if the reliability is sufficient.Sevach wrote:Regarding sidepod design, the current sloping pods are designed that way to get a good flow to the beam wing, in 2014 what will they aim for?
Tall sidepods with a lot of undercut?
A sidepod that goes up instead of down? Do the rules allow this?
Cutting drag will be priority. Other than that they could tidy up airflow over the top of the diffuser. Perhaps creating a larger pressure difference to extract more from the floor of the car, by providing the diffuser gurney(s) with a higher volume of airflow?
Kerching...!Blackout wrote:I know. I mean it seems to me that he drew a 625mm high chassis + a 525mm high bulkhead + a small 'vanity panel' + an S-duct + something 'special' under the bulkhead in the 'transition' between the underside of the chassis and the undeside of the nose : P WPTFormula spoke about something simlar...
Or maybe I'm reading the pic completely wrong. So weight and sea : P
Can you mention anything about the nose design??scarbs wrote:As its Bild's image I can't reproduce it here.
This drawing was done in about 24 hours after Austin, so it’s a rough stab rather than a refined trends predictions, which I will put out on my blog over xmas.
I took the RB9 as the base point.
Narrowed the FW, moving the endplate inward and tried to the cascade IB tips in the same place. The endplate curvature isn’t optimised for its new position.
For the front end I swept the chassis down from 625mm in a curve to the new 525mm A-A line, the awkward transition is managed by the “S” duct with the scoop below and vent above, fitted within a vanity panel.
I bulked out the sidepods a bit, deleted the exhaust outlets. I didn’t account for the new side impact system, as I haven’t seen what they look like. I created a long ramp towards the diffuser to allow the shoulder fin on the tops of the sidepods to get a good run to the diffuser’s TE. I kept a small sidepod tunnel in order to keep the flows separate around the sidepod.
For the rear I deleted the beam wing. I had a really extreme Y75 winglet for the exhaust upwash, but left it out and ran a simplified winglet for the image. I’ve mounted the rear wing on extended endplates to the diffuser, to keep the top rear wing clear of pylons. For the top rear wing I didn’t really adjust the size or account for the larger new DRS slot gap.
This picture comes close regarding the nose tip design.Holm86 wrote:Can you mention anything about the nose design??
I know about this one. And its a great design. But someone mentioned that Scarbs RB10 sketch had something dubbed the "duck nose".Blanchimont wrote:This picture comes close regarding the nose tip design.Holm86 wrote:Can you mention anything about the nose design??
http://i.imgur.com/qb2Z35P.jpg
Thanks for that Scarbs. Look forward to seeing it on the blog.scarbs wrote:As its Bild's image I can't reproduce it here.
This drawing was done in about 24 hours after Austin, so it’s a rough stab rather than a refined trends predictions, which I will put out on my blog over xmas.
I took the RB9 as the base point.
Narrowed the FW, moving the endplate inward and tried to the cascade IB tips in the same place. The endplate curvature isn’t optimised for its new position.
For the front end I swept the chassis down from 625mm in a curve to the new 525mm A-A line, the awkward transition is managed by the “S” duct with the scoop below and vent above, fitted within a vanity panel.
I bulked out the sidepods a bit, deleted the exhaust outlets. I didn’t account for the new side impact system, as I haven’t seen what they look like. I created a long ramp towards the diffuser to allow the shoulder fin on the tops of the sidepods to get a good run to the diffuser’s TE. I kept a small sidepod tunnel in order to keep the flows separate around the sidepod.
For the rear I deleted the beam wing. I had a really extreme Y75 winglet for the exhaust upwash, but left it out and ran a simplified winglet for the image. I’ve mounted the rear wing on extended endplates to the diffuser, to keep the top rear wing clear of pylons. For the top rear wing I didn’t really adjust the size or account for the larger new DRS slot gap.
Over the sidepod I'd say you are right, but you are increasing the cross section of the car.trinidefender wrote:...If you have the sidepods set with a large undercut and sloping upwards instead of downwards ass all current cars do then it should actually create a bit of downforce. This is because the air going over the top will slow down increasing pressure while air under the sidepod in the undercut will have to speed up lowering the pressure.
