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Unfortunately it's not that simple, as always. Deep standing water can actually have two effects on the car. One is simply aquaplaning of the tyres the other is that the undertray bascially starts to swim on the water which disturbs the aero significantly. The second one depends strongly on how the car is setup an can vary significantly from car to car. With other words it depends heavily on the car if it can cope with a certain amount of water or not.TerryL wrote: ↑29 Aug 2021, 13:20I'm not thinking of a steward with a depth stick! I've seen how fast technology is moving in agriculture, what can be measured from above.
Initially we would look at the known stationary water problem areas. Some sort of sensor above in a camera. Water depth could be relayed to a map in Race Control and areas too deep for tyres clearing at normal speed shaded red.
Response could be: One red area, flag marshall with a new 'water on track' flag similar to oil flag.
2 More red areas, safety car "water too deep' to slow cars.
3. If necessary,Red flag.
Don't discount technology. There will have to be a better way than trashing the first $10 million race car to go out, in the hands of a competent driver, and risking his life and limb
Dr. Acula wrote: ↑30 Aug 2021, 15:08Unfortunately it's not that simple, as always. Deep standing water can actually have two effects on the car. One is simply aquaplaning of the tyres the other is that the undertray bascially starts to swim on the water which disturbs the aero significantly. The second one depends strongly on how the car is setup an can vary significantly from car to car. With other words it depends heavily on the car if it can cope with a certain amount of water or not.TerryL wrote: ↑29 Aug 2021, 13:20I'm not thinking of a steward with a depth stick! I've seen how fast technology is moving in agriculture, what can be measured from above.
Initially we would look at the known stationary water problem areas. Some sort of sensor above in a camera. Water depth could be relayed to a map in Race Control and areas too deep for tyres clearing at normal speed shaded red.
Response could be: One red area, flag marshall with a new 'water on track' flag similar to oil flag.
2 More red areas, safety car "water too deep' to slow cars.
3. If necessary,Red flag.
Don't discount technology. There will have to be a better way than trashing the first $10 million race car to go out, in the hands of a competent driver, and risking his life and limb
Also if you look at yesterdays "race" the fear was not so much the amount of water on the track to make the whole thing undrivable. The fear was that the driver would have difficulty to see anything dangerous happening in front of them.
My guess is that there are two main reasons why there is so much spray. One is that it’s open wheel racing, the tires fling up 100 litre of water up in the air per second without bodywork containing it. This is made worse by the turbulence and the high speed. Removing just a bit of turbulence doesn’t do the trick.Zynerji wrote: ↑30 Aug 2021, 15:21Dr. Acula wrote: ↑30 Aug 2021, 15:08Unfortunately it's not that simple, as always. Deep standing water can actually have two effects on the car. One is simply aquaplaning of the tyres the other is that the undertray bascially starts to swim on the water which disturbs the aero significantly. The second one depends strongly on how the car is setup an can vary significantly from car to car. With other words it depends heavily on the car if it can cope with a certain amount of water or not.TerryL wrote: ↑29 Aug 2021, 13:20I'm not thinking of a steward with a depth stick! I've seen how fast technology is moving in agriculture, what can be measured from above.
Initially we would look at the known stationary water problem areas. Some sort of sensor above in a camera. Water depth could be relayed to a map in Race Control and areas too deep for tyres clearing at normal speed shaded red.
Response could be: One red area, flag marshall with a new 'water on track' flag similar to oil flag.
2 More red areas, safety car "water too deep' to slow cars.
3. If necessary,Red flag.
Don't discount technology. There will have to be a better way than trashing the first $10 million race car to go out, in the hands of a competent driver, and risking his life and limb
Also if you look at yesterdays "race" the fear was not so much the amount of water on the track to make the whole thing undrivable. The fear was that the driver would have difficulty to see anything dangerous happening in front of them.
Sounds like the spray is caused by the same phenomena that also cause loss of downforce while following another car.
Can the aero rules be adapted to stop such extreme up-wash at the trailing edge of the car?
So, bolt-on fenders when using wet tyres??Jolle wrote: ↑30 Aug 2021, 15:39My guess is that there are two main reasons why there is so much spray. One is that it’s open wheel racing, the tires fling up 100 litre of water up in the air per second without bodywork containing it. This is made worse by the turbulence and the high speed. Removing just a bit of turbulence doesn’t do the trick.Zynerji wrote: ↑30 Aug 2021, 15:21Dr. Acula wrote: ↑30 Aug 2021, 15:08
Unfortunately it's not that simple, as always. Deep standing water can actually have two effects on the car. One is simply aquaplaning of the tyres the other is that the undertray bascially starts to swim on the water which disturbs the aero significantly. The second one depends strongly on how the car is setup an can vary significantly from car to car. With other words it depends heavily on the car if it can cope with a certain amount of water or not.
Also if you look at yesterdays "race" the fear was not so much the amount of water on the track to make the whole thing undrivable. The fear was that the driver would have difficulty to see anything dangerous happening in front of them.
Sounds like the spray is caused by the same phenomena that also cause loss of downforce while following another car.
Can the aero rules be adapted to stop such extreme up-wash at the trailing edge of the car?
Fenders, removal of most aero, skinny tires and somehow a duct to remove the air pressure from the top of the wheels. In other words, nothing like a F1 (style) car. Switch to Lotus 7’s instead.Zynerji wrote: ↑30 Aug 2021, 15:47So, bolt-on fenders when using wet tyres??Jolle wrote: ↑30 Aug 2021, 15:39My guess is that there are two main reasons why there is so much spray. One is that it’s open wheel racing, the tires fling up 100 litre of water up in the air per second without bodywork containing it. This is made worse by the turbulence and the high speed. Removing just a bit of turbulence doesn’t do the trick.