What IC do you recommend?
#41
End tanks are polished and curved, this isn't a scenario where the air hits it and bounces back, either way the air is going to be rammed into the intercooler or radiator. Thats cold air that we are talking about. With the full fascia FMIC, sure it is missing that 2" of endtank and is going straight through but, not only is the air slowed and turbulent.. it gets pretty warm. Another reason sprayers got pretty popular in DSMs pretty quick.
#49
Also, when you're drag racing, which has been my prior interest, your IC acts more as a heatsink than a heat exchanger. People would even cover them up (for aerodynamics) and just throw a bag of ice on them between runs, people like John Shepherd ran 8s with an air/air IC that was covered. There is an argument for a larger IC in this application.
$.02
#50
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Is that the kit on mxrprojects? seems really expensive for just pipes no fittings, clamps or IC for that matter
Feel free to DIY if you want. I did, and having been down that road I'd say that $240 is a pretty darn good deal.
#52
The air to water ICs help for the same reason. It's a heatsink sinking the heat right to the water. The volume of water in those systems is the advantage they have. Once the water is soaked with heat it's not as efficiant as air to air. I don't recomend them for track use but on the street and the dragstrip they work well. I considered one for awhile but for the cost, air to air seemed more reasonable. Although the water to air IC makes for a clean install and a big "radiator" for the IC's water.
$.02
$.02
#54
Out of curiosity, I heard some BMW used the AC to cool the charge air. It produced more power with the colder air then it took to run the AC compressor. I bet the 'gains' were minimal and a good FMIC would out perform it easily. But you know them germans over engineering everything. Nice cooler btw brain! lol
#56
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The second job of a spark plug other than igniting the cumbustion is to work as a heat exchanger by pulling heat energy away from the combustion chamber, and transferring that heat to the engine's cooling system. The heat range is a plug's ability to dissipate heat. A colder plug will have a shorter insulatlor nose.
This is why it is recommended to go one step "colder" when FI, because of the added pre-ignition surpression. But you don't want to go too crazy with it, because 1. you'll go too cold and cannot burn off carbon deposits and foul the plugs & 2. that heat has to go somewhere.
Last edited by Braineack; 05-23-2007 at 12:55 PM.
#57
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Maybe the tip of the spark plug goes down by 70-100°C, but not the whole combustion chamber. And even that doesn't mean squat unless we know how much heat is actually being transferred. Degrees is a measure of temperature. Joules, calories and BTU are measures of heat. I'd wager that the thermal mass of the spark plug is so small as to be meaningless relative to the cooling system.
#60
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I read it off NGK's FAQ a while back
yeah Joe I think you are correct, it's the tip of plug....they do such a good job of transfering the heat, they dont operate as warm...I guess this is why it pays to re-read on the subject before mouthing off...
The insulator nose length is the distance from the firing tip of the insulator to the point where insulator meets the metal shell. Since the insulator tip is the hottest part of the spark plug, the tip temperature is a primary factor in pre-ignition and fouling. Whether the spark plugs are fitted in a lawnmower, boat, or a race car, the spark plug tip temperature must remain between 500C-850°C. If the tip temperature is lower than 500°C, the insulator area surrounding the center electrode will not be hot enough to burn off carbon and combustion chamber deposits. These accumulated deposits can result in spark plug fouling leading to misfire. If the tip temperature is higher than 850°C the spark plug will overheat which may cause the ceramic around the center electrode to blister and the electrodes to melt. This may lead to pre-ignition/detonation and expensive engine damage. In identical spark plug types, the difference from one heat range to the next is the ability to remove approximately 70°C to 100°C from the combustion chamber. A projected style spark plug firing tip temperature is increased by 10°C to 20°C.
yeah Joe I think you are correct, it's the tip of plug....they do such a good job of transfering the heat, they dont operate as warm...I guess this is why it pays to re-read on the subject before mouthing off...