How will the water/mixture temperature affect the WI cooling effect?
#1
How will the water/mixture temperature affect the WI cooling effect?
I put my water tank near the hotside due to that I have a FFS Coldside setup on my RHD miata. I found the water / mixture temperature would go high like 140+ F which may be higher than the charged air itself. The question is will this hot water/mixture being sprayed into the IM warming up the charged air rather than cooling?
Since I found the performance is even worse (feeling only, not dyno) when I turn on the WI system. Is that a good idea to relocate the water tank to the truck?
Another question is... the IAT under 16 psi can go up to 210F without intercooler, is this a proper figure at all?? I think it's horrible
Since I found the performance is even worse (feeling only, not dyno) when I turn on the WI system. Is that a good idea to relocate the water tank to the truck?
Another question is... the IAT under 16 psi can go up to 210F without intercooler, is this a proper figure at all?? I think it's horrible
#2
Boost Pope
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I doubt seriously that the water being at 140°F is going to have much of a detrimental effect on things.
As to the performance falling off, I guess a couple of questions would be in order. Have you done anything tuning-wise (such as advancing the timing) to accommodate the WI?
Give us some details on your kit. Nozzle size, control system, etc.
As to the performance falling off, I guess a couple of questions would be in order. Have you done anything tuning-wise (such as advancing the timing) to accommodate the WI?
Give us some details on your kit. Nozzle size, control system, etc.
#3
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The benefit lost is miniscule. The amount of heat energy required to elevate the water from 140 to 212 degrees is stupidly small compared to the amount of energy required to transform it into a gas.
#4
I doubt seriously that the water being at 140°F is going to have much of a detrimental effect on things.
As to the performance falling off, I guess a couple of questions would be in order. Have you done anything tuning-wise (such as advancing the timing) to accommodate the WI?
Give us some details on your kit. Nozzle size, control system, etc.
As to the performance falling off, I guess a couple of questions would be in order. Have you done anything tuning-wise (such as advancing the timing) to accommodate the WI?
Give us some details on your kit. Nozzle size, control system, etc.
I have MSPNP on my 94 miata and also KnockSenseMS but I found the knock signal is kinda not accurate even I have followed all the instruction to calibrate the sensor. I can't hear any knock but KnockSense keep telling me knocking happen somewhere from 5psi to 16psi. The knock won't stop as long as I stay at that boost area, and it keep retard the timing. I then changed the spark table like running 12 degree on the 180kpa row but still got knock signal and it retarded the timing up to 8 degree and I was running at 4 degree advance at boost!! I only know I'm safe but it run like crab... haaa
After I setup the water injection, the knock signal behave the same. So I just ignore the knock sensor and run 18 degree on the 180kpa row. It run a lot better there, but with the WI I can't feel the engine running any better, actually it run even worse. It does not help to reduce knock at all according to my KnockSenseMS, and I dare not to take more advance on the boost area.
P.S. I set my AEM controller to spray starting from 2 PSI to 16 PSI MAX. And I have removed the nozzle and tested, it spray well.
Any idea??
#10
jsut cause the pump is rated at 150 psi doesnt mean it is set there. 2gph is no enough to get the job done you need atleast 3.
100/150= square rooted1.5= 1.22*2= 2.44 gph even at 150 psi you are to little. Get a 3gph nozzle and check your pressure settings by dead heading a oilpressure or similiar gauge on the WI line and turning the pump on.
100/150= square rooted1.5= 1.22*2= 2.44 gph even at 150 psi you are to little. Get a 3gph nozzle and check your pressure settings by dead heading a oilpressure or similiar gauge on the WI line and turning the pump on.
#11
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The m2 will run like an m3 because of the pressure. It will be closer to 200 psi rather than the 150 psi the pump is rated at, unless you are using the new style shuflo pump that actually adjusts pressure.
http://www.alcohol-injection.com/for....html#post8227
http://www.alcohol-injection.com/for....html#post8227
#12
Boost Pope
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All shurflo pumps have a pressure cutoff switch on them, which "regulates" pressure to within a certain window. IOW, the pump turns on, pressure builds enough to open the switch, the pump turns off, pressure drops, the pump turns on, etc.
I'd thought that the setting of this switch was adjustable, at least within a certain range, on all shurflo pumps.
Still not the same thing as actually regulating the pressure accurately. But then WI right now is such an imprecisely implemented thing anyway.
#13
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the link I posted is the pressure that the previous 150 psi pumps got up with the noted installed nozzle. Meaning that just because it is called a 150 psi pump, doesn't mean that it shuts off at 150 psi.
M2 230psi = 2.9GPH
M3 225psi = 4.2GPH
M4 215psi = 5.5GPH
M5 190psi = 6.7GPH
M7 180psi = 9.0GPH
M10 170psi = 12.5GPH
Nothing some PWM solenoids and a controller tied to the spark signal couldn't fix
M2 230psi = 2.9GPH
M3 225psi = 4.2GPH
M4 215psi = 5.5GPH
M5 190psi = 6.7GPH
M7 180psi = 9.0GPH
M10 170psi = 12.5GPH
Nothing some PWM solenoids and a controller tied to the spark signal couldn't fix
Last edited by Dust; 08-11-2009 at 01:08 AM.
#14
iono where you got your figures i gues its line pressure peak numbers, but if what you are posting is true then the adjustability on the pump for pressure is a null effect.
I theorize however that you just turned your pump all the way up and recorded peak line pressure do to resistance etc, of outflow capacity and this in turn skewed your results. Cause i know my sureflo 150 psi model that is the industry standard for 9/10 kits is in fact adjustable in pressure and it makes a differance in spray patern and flow. From my years of experience and initial testing of the system in my setup and R&D phase.
I theorize however that you just turned your pump all the way up and recorded peak line pressure do to resistance etc, of outflow capacity and this in turn skewed your results. Cause i know my sureflo 150 psi model that is the industry standard for 9/10 kits is in fact adjustable in pressure and it makes a differance in spray patern and flow. From my years of experience and initial testing of the system in my setup and R&D phase.
#15
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These numbers were posted by the owner of Devil's Own. Yes, the pressure of the pumps can be adjusted, and yes, they are the standard, but it seems that the 150 is maybe with a set restriction, rather than a nozzle. I don't know why, just know what has been posted. Scroll to the top of the thread and you can see how he did the test.
#16
I see what you are saying now but to not verify your own spray patern and line pressure with every new install is asking for disaster. Those are key variables that control your flow and overall cooling with out knowing them you might as well be using a super saoker to meter the water, as you will have no clue as to your consumption or relative limits until you have gone well past what is safe.