Water pump

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Postby evil_si » Mon Jan 07, 2013 6:48 am

Jabsco raw water pump, generally used in marine colling systems,
Try the likes of lusty and blundall, burnsco etc

Heaps of variety,
Jabsco is a brand, and usually at the expensive end, there are other cheaper brands also but no brand names tha i can think of
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Postby Mr Revhead » Mon Jan 07, 2013 7:20 am

I ran two Subaru pumps in my AW11. One forward, one back. Worked fine.
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Postby sergei » Mon Jan 07, 2013 9:09 am

Grrrrrrr! wrote:
sergei wrote:
3) Brand new ST205 pump is a tad over $100, and flows well enough to satisfy your needs (or any other needs).


So what flow rate exactly does a st205 pump provide at 5psi,8psi and 10psi, i'd love to know, because so far i haven't been able to find any actual data on what that pump flows. Then if you could just tell me exactly what my needs are it'll save me a bit of time and a bunch of heat transfer calcs.. kthxbye.



You haven't told us anything about how much heat you want to dissipate.
One would assume you definitely do not make 1000kW, and most likely your engine output is below 500kW. Hence my assumption that ST205 water pump will be sufficient. I do not have figures for ST205 water pump. I do have figures for Legacy AWIC system.

Basically the legacy Intercooler has capacity of about 4kW heat dissipation, while the radiator is at about 5kW, the pump which runs this system is rated at 15L/min, and is not running full time.

The ST205 intercooler has bigger core, the radiator is more than twice larger, and pump is definitely larger. Actually compared to Subaru (or ST165, as they are almost identical) the pump is much larger, the impeller is massive. The outlets are larger as well.

I would put the ST205 intercooler at about 10+kW of dissipation capacity. Pump is definitely not a problem in this system.

As for pressure, you would be struggling to find any centrifugal water pumps that will work well above 0.3bars of restriction.

Here is some real life data:
My setup was ST205 intercooler, Legacy I/C radiator and 15L/h pump (legacy/ST165). The intake temperatures were stable at 195kW at the wheels, which means the legacy 5kW is sufficient up to 200kW at the wheels (of course that depending how efficient is your turbo). This also suggests that 15L/h pump was also sufficient for the task.

Of course I will be upgrading legacy I/C radiator and pump to ST205 units, because the car will be seeing some track duties and the conditions (the air flow through radiator) will not be the same as on the dyno.
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Postby gt4dude » Mon Jan 07, 2013 10:24 am

here is some real real life data of me giving it a squirt the other day

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ambient + 12 deg consistent, 22000 on the load axis is 1.1bar of boost, 24500 is 1.3bar, so power is roughly 180-190kw on 4 wheels
Last edited by gt4dude on Mon Jan 07, 2013 10:31 am, edited 2 times in total.
セリカGT-FOUR ST205 中期型 (Chuuki)
GT2860RS ・ JE 86.5φ PISTON ・ FX400 CLUTCH ・ APEX P-FC
200AWKW / 370NM
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Postby Grrrrrrr! » Mon Jan 07, 2013 10:25 am

On a hot day, there is roughly 30kW of heat to lose to get intake temps to where i want them (about 30* above ambient) judging from ballpark figures I punched into the borg warner turbo selector website.

Piping may have to get larger to keep the restriction down to 5psi max, but high flow is the only option to keep the size of the intercooler core and heat exchanger reasonable.
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Postby sergei » Mon Jan 07, 2013 10:35 am

Grrrrrrr! wrote:On a hot day, there is roughly 30kW of heat to lose to get intake temps to where i want them (about 30* above ambient) judging from ballpark figures I punched into the borg warner turbo selector website.

Piping may have to get larger to keep the restriction down to 5psi max, but high flow is the only option to keep the size of the intercooler core and heat exchanger reasonable.


I am interested in those calculations.... 30kW is a lot of heat.
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Postby Grrrrrrr! » Mon Jan 07, 2013 11:11 am

turbo outlet temp 325F = 162*C (from matchbot)
Mass flow = 0.302kg/s (from matchbot)
desired throttle body temp 60*C
DeltaT = 102*C

specific heat capacity of air ~1 kJ/K.kg

0.302 * 102 * 1 = 30.8kW.

and thats only at 400 hp power levels.
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Postby sergei » Mon Jan 07, 2013 12:12 pm

Grrrrrrr! wrote:turbo outlet temp 325F = 162*C (from matchbot)
Mass flow = 0.302kg/s (from matchbot)
desired throttle body temp 60*C
DeltaT = 102*C

specific heat capacity of air ~1 kJ/K.kg

0.302 * 102 * 1 = 30.8kW.

and thats only at 400 hp power levels.


Working backwards (from 0.302kg/s) I assume you are going to run something like 1.5-1.7Bar on a 2.0L? That would explain 160+ 'C and >30kW dissipation needed.
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Postby Grrrrrrr! » Mon Jan 07, 2013 1:00 pm

0.3kg/s = ~400ish hp. Smallish turbo, and high pressure ratios for early spool.

Evil-si: thanks for the suggestions, they look worthy of further investigation, but pretty $$$ from the one price i checked.
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Postby d1 mule » Mon Jan 07, 2013 3:41 pm

sounds alot like your over-thinking / deliberately making things hard when there are multiple simple issues in the page above.
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Postby Grrrrrrr! » Mon Jan 07, 2013 5:34 pm

Yes, there are multiple issues, hence why i'm doing some research and looking at options. unfortunately a big FMIC isn't an option, or there would be no drama and i wouldn't be faffing around looking at w2a. Got anything constructive to contribute?
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Postby nz_climber » Mon Jan 07, 2013 6:14 pm

Faster water flow through the radiator core will not always be better, there needs to be time for the heat transfer to occur.

Maybe something to consider.. (not sure on the exact figures so happy to be proven wrong)
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Postby Grrrrrrr! » Mon Jan 07, 2013 6:18 pm

nz_climber wrote:Faster water flow through the radiator core will not always be better, there needs to be time for the heat transfer to occur.

Maybe something to consider.. (not sure on the exact figures so happy to be proven wrong)


Thats just another internet myth.
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Postby matt dunn » Mon Jan 07, 2013 8:04 pm

FWIW we run a single small electric water pump on the W2A intercooler on the MRS,
and another electric one for main radiator cooling too.

Not very good pic's but here are some from the build thread showing the pumps we used.

http://i277.photobucket.com/albums/kk58 ... pic137.jpg
shows the IC pump,

http://i277.photobucket.com/albums/kk58 ... pic860.jpg
shows the pump for the radiator, as the engine had no water pump itself anymore.
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Postby sergei » Tue Jan 08, 2013 9:42 am

Grrrrrrr! wrote:
nz_climber wrote:Faster water flow through the radiator core will not always be better, there needs to be time for the heat transfer to occur.

Maybe something to consider.. (not sure on the exact figures so happy to be proven wrong)


Thats just another internet myth.



Not quite a myth. In every heat transfer there is a time factor. How fast the heat is transferred is dictated by temperature difference. It will cool faster if it is hotter, it will heat faster if it is colder.
http://www.physicsclassroom.com/class/thermalP/u18l1f.cfm
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So theoretically having too much flow will increase average temperature.
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Postby Grrrrrrr! » Tue Jan 08, 2013 10:08 am

Correct, the rate of heat tranfers is dictated by the temperature difference which is why more mass flow wins every time. More mass flow means you are pushing the water that has already cooled away from the face of the heat exchanger and replacing it with warmer water, therefore it is more efficient.

That graph is irrelevant, thats for heat transfer between two masses in a closed system. Not relevant to an open system with net energy changes.

Go to this website and play with the calculator. Setup some numbers, then double one of the flow rates... result is more heat transfer, everytime.
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Postby sergei » Tue Jan 08, 2013 10:35 am

Grrrrrrr! wrote:Correct, the rate of heat tranfers is dictated by the temperature difference which is why more mass flow wins every time. More mass flow means you are pushing the water that has already cooled away from the face of the heat exchanger and replacing it with warmer water, therefore it is more efficient.

That graph is irrelevant, thats for heat transfer between two masses in a closed system. Not relevant to an open system with net energy changes.

Go to this website and play with the calculator. Setup some numbers, then double one of the flow rates... result is more heat transfer, everytime.


That calculator is irrelevant as all it probably does is fudges the data into the preset calculations. Without seeing the source of the calculator (and formulae they used to calculate). I have no trust in the programmers ;).
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Postby Guss » Tue Jan 08, 2013 11:33 am

matt dunn wrote:
http://i277.photobucket.com/albums/kk58 ... pic860.jpg
shows the pump for the radiator, as the engine had no water pump itself anymore.


2nd pic / engine pump looks like a davies craig. Have you had any issues with it ?
Reason i ask is i'm using one for the W2A and it regularly burns the seal out, letting water into the motor / out of the system and then next time i use it the bearing have seized in the motor.

What problems did the Formula SAE car have GRRRR
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Postby Grrrrrrr! » Tue Jan 08, 2013 5:53 pm

Same thing as far as i remember, seals failing reasonably often.
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