Heh, thanks for the non constructive critism. Like I've said...
It works, there's no question, my alternator puts out 200 amps as opposed to the typical stock 90amps. So I have an extra 100 amps+ of potential unused FREE energy . I know parasitic lag from the alternator exists but we are only drawing less than 40amps (to turn the motor)(P= I x V therefor 375 = 12 x X therefor X = 31 amps) so my car runs off 70 MAX when idling so in reality I would have 130 amps that could safely be consumed (in spurts (non-continous)),.
We are talking like a nos system that is turned on when needed using a variable speed control system that could even be tied into tps (most likely controlled through tuning software via tps sensor anyway lol) (BTW alternator was already replace because my stock one is 800 dollers (new at honda)) so needless to say the high end performance one (200amp) was the logical choice for around 400$. Looks way better too all chromed up.
As far as weights concerned total weight in parts including the two odessy marine batteries, compressor housing/wheel, inlet filter, botv, air bypass valve, and my current motor(prototype chosen 24V dc motor 1/2 hp) is 51 lbs and that's not even including what I would take out by removing my single 12vdc huge typical battery. This also excludes what intercooling setup I will implement but it won't be much at all in weight. I've removed my stock intake resonator (20 lbs) and have done lots of weight reduction so added weight is not an issue. Cost IS however and all these systems you guys are recomending are thousands upon thousands of dollers.
So again, please keep responses to ways to turn this shaft, either a 24 v system where I can maintain my 12v dc car system, or a 12V dc motor that occupies less space than approximately 10" square but can put out around 5000-8000 rpm with a wattage around 375 (1/2 hp approx.).
Danger, and your reasoning of the belt driven supercharger is why I don't go those routes. Those draw HUGE parsitc lag and are costly therefor arn't cost affective. We are talking numbers here. Those systems cost 3000 dollers to give you maybe 100 horse MAX, and the system I have assembled is less than a 1/3rd of that and will put out 60 hp on a 2.3L engine 2200 approx cc engine. The turbo is more efficient (the cheap one I bought isn't, its probably 65% (new ones for 600$ are like 85% efficient) but I got mine for 40$ (compressor side of turbo)
Chroot. As far as heat transfer between exhaust side and compressor side there is "tonnes" that get transferred but it depends on your turbo system. If its oil cooled, or water cooled, and if it has an intercooler (upon a million other factors like Pressure ratio etc), will factor how much heat is transferred to the actual intake. I guess it depends on how much money you got. If you can sink $5,000 into a turbo system you can incorperate a wicked Water cooled turbo, with a intercooled system and get an efficiency of 85% or maybe higher (I don't know how efficient they can be, being the new technology they come out with on a daily bases). But If you don't have 5000 dollers, then your whole system is going to be actually around 60%-70% efficient range where as my system would be above 80% efficient (in comparison to how much power is produced to how much is used to generate it).
So either way its belt driven (which kinda sucks but direct drive will not get my gear ratio high enough to spin the impeller 50000 rpms unless I could find a gear motor that's gearing increases the rpm output by 10x), so I know I have losses there but that's it.
All your input is valuable either way, just like I said if you could focus on what power supply (how I could adapt a 24V dc supply charging off my alternator, while maintaining my stock 12Vdc car because the full 24V dc conversion is expensive) and If you know where I can get a good half horse 12Vdc motor that can spin at more than 5000 rpm, chime in. Thanks!
