[quote="miguelalvesreis]
Considering the metal on those equations as with equal thermal properties on both, you can elliminate it from both.
No you shouldn't. One has double thickness, remember one uses an extra radiator, that's two metal layers.
In that case you only have to consider the heat exchange properties of the changing variable. You are considering water but, as already stated, is hardly water. Is a cooling fluid with extended capacity of heat exchange.
There is no liquid that exists at 100*C at the moment other than water that has better thermal properties.
It's faster exchanging heat from air and to air then doing it directly from air to air.
It's not.
To illustrate using a funny example, if you are playing catch with a person with 2 arms, a normal person, and the aim is to catch the tennis balls from them and put them in a basket. would your rate of catches and putting the balls in the basket increase if you put a 6 armed person between the both you?
Maybe the 6 armed person can catch 6 balls without passing any at all to you. As soon as his hands are full he'll start passing them to you. Maybe a third two arm person can pass them to him before he passes them to you.
But at the end of the day you are the only one who can put the tennis balls in the basket, and no matter what, you are limited by your number of hands.
Now if you want a faster rate, you probably should play the game with 3 six armed persons or at least 2 to at least have a quicker rate of ball release, even though you will still be the "bottle neck" in the system because of your 2 arms.
So you see, with looking at the 2 armed people as air and the six armed person as water. The limitation of thermal exchange is the two substances at the ends, Air and Air.
The water has the advantage in being able to soak up more heat quickly from an increased mass of air, (as shown if the 6 armed person catches from 2 normal people) however the water has no control over how fast the air can take heat from it in the side pod.
In this last case the efficiency of the system is always dependent of the external temperature for any given surface area, in other words, depends on the delta of temperatures. With the coolant, you may dump the weight of that variable, making the system efficiency less sensitive from it.
I'm not understanding.
Furthermore, you can better position the 2nd radiator, on a higher flow area of the sidepod, with not only thinner pipes but, longer and twister pipes, without loosing pressure (it's a closed system).
Yes reduced pressure drop of the charge air is an advantage. You are basically saying that the water can deal with the pressure drops since it separate and not relevant to the boost. I agree. However it still has to exchange with the limited air in the sidepod. And all those twists and turns have an effect on your water pump you will be using. More power losses.
It allows to ``isolate`` the air from the compressor from external variables.
Might be important since we know that the optimal thermal window for this systems is very narrow.
Now that you have said that..
What can be done is if the water pump for the water to air system is controlled so that the charge air temperature is manipulated by controlling the flow of cooling water that it exchanges with. However that all depends on how much times in the race will the sidepod air flow vary. I don't think it changes much for extended periods of time over a lap.
Track to track I see a reason for it. The engine will be less sensitive to the environment with the water pump being controlled.
At least, to me, seems to be a viable solution even with the non negligeable weight increase.
Well it depends a lot on the how big those effects are.
Here is an image of BMW M5 water to air system, notice the network of hoses and pump to control temperature:
There are two auxiliary water pumps (not shown) for the water-air intercoolers. I believe they are electronically controlled.
Maybe Mercedes could be doing this, who knows. If it's legal it's another issue. But as I said it's really weight, reliability, complexity and packaging and energy efficiency where this system loses out to an air-air.
Drivability, flexibility, and control are advantages, but again it all goes back to the magnitude of these effects.
