#11
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Quote:
Gert |
#12
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Re: nozzle flow rate
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(60 / (RPM / 2)) * 1000 = Msec ( maximum injector time available at this rpm) To find duty cycle: (Inj time / Msec) * 100 = Injector Duty. If you want to know exact duty cycle at any rpm, you have to know the exact injection time, so you must have some logging tool. Now, if you have logging files, you can make an excel sheet, and calculate what fuel is injected, and how much water is needed at any * percentage. That is not an garantue that it is working correct right away, at least, not at my car. After the math, there are some adjustments needed, based on knock, and intake temps. Gert |
#13
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well, Its just nice to know I'm running in the 10-15% w/f ratio, rather than .11% :lol: now... how to figure out the afr I want w/o a piggyback or any means of knock detection...
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#14
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Re: nozzle flow rate
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#15
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Injector setup is 2x720cc primaries and 2x1600cc secondaries.
To run 15% water to fuel at 70% IDC, I calculate this way: (IDC) x (Total fuel cc's) x (Target % water) = (.70) x (1440 +3200) x (0.15) = 448 cc's of water Then, also assuming the water nozzles operate at 70% DC and one 0.9 mm WI nozzle flows 315cc (max), I get: (15% water to fuel) / [(WI flow rate) x (IDC)] = (448) / [(315) x (.70)] = 2 So I would need two 0.9 mm nozzles to meet my 15%. Alternatively, The water (mixture)-to-fuel percentage is roughly 10% with one .8mm nozzle and one .5 mm nozzle in my setup. Here is how to find that: To run 10% water to fuel at 70% IDC (assuming), calculate this way: (IDC) x (Total fuel injector cc's) x (Target % water) = (.70) x (1440 +3200) x (0.10) = 325cc's of water Then, knowing the water nozzles operate at 70% DC (from our assumption of IDC) and one 0.8 mm WI nozzle flows 280cc (max) and one 0.5 mm WI nozzleflows 180cc (max), I get: (required cc's of water) / [(WI flow rate x IDC)] = 10% (325) / [(280 x .70) + (180 x .70) ] = 10%
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-Dave 91 RX-7 13B Turbo Vert 88 RX-7 20B Widebody |
#16
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Re: Calculate your correct injection Percentage !
I know this is an old topic but this might be the answer im looking for.
Going by the math provided this should be correct: 4 x 250cc injectors = 1000cc 1000 x .85 = 850 15% of 850 = 127.5 Im planning on running the smallest injector my kit come with which was 0.5mm. Is this too much? |
#17
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Re: Calculate your correct injection Percentage !
0.5mm injects aboiut 200cc/min. If you ad about 25% methanol as an antifreeze, You are not far off the ideal.
Since we have stopped the production of the 1s system six years ago. Look after it well as there are no more spares available.
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Richard L aquamist technical support |
#18
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Re: Calculate your correct injection Percentage !
Ok, i will make sure its well looked after.
Im going to be using a 50/50 mix. Would a 0.4 be better? Or i can run 2 x 0.3's but that gets more expensive but will help if one injector gets blocked. |
#19
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Re: Calculate your correct injection Percentage !
Richard, i spoke to my mapper as he logs/stores it all and he said that my 250cc injectors are running around 75-78% duty cycle on 1 bar boost above 2500rpm or so.
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#20
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Re: Calculate your correct injection Percentage !
In this case, 0.4mm may be just about right.
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Richard L aquamist technical support |
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