My latest coolant reroute
#41
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#44
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Yeah you can skip that connection on the front entirely and connect the turbo to the outlet of the coolant line for the throttle body. That is how I had it connected after I got rid of the front water neck.
Back of head->oil cooler->throttle body->turbo->mixing manifold
Back of head->oil cooler->throttle body->turbo->mixing manifold
#49
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I still say put a freeze plug in and feed the turbo from the throttle body. If you want to pretty that up a bit, just use a thermostat gasket instead of silicone. That'll avoid all the orange goop.
Oh, and holy overkill batman!
Oh, and holy overkill batman!
#52
I believe your design in the original post is a good one but not the most efficient as it will split the thermal load of the engine, oil cooler and turbo and so to trigger each TS you must provide sufficeint temperature to both which would occur at best a few seconds apart however, more than likely the spacerless reoute TS will open first and because that has the larger fittings (and therefore flow) will be cooled and the coolant in the other section will not reach the critical temperature and so not flow round for quite some time as the heat within the system increases as a whole with a single loop open. Not being a very hands on Turbo person although the theory is fine means I am cannot be sure as to what this will do to your turbo.
You could swap your turbo and oilcooler couplings round which would mean the turbo gets cooling instantly once opened whereas the oil cooler will only come into function once at operating temperature properly.
I say again I do not have the experience but have more than enough theoretical science knowledge. I would believe my diagram below would be the optimal reroute for your situation given parallel looping and thermal load onto a single point.
You could swap your turbo and oilcooler couplings round which would mean the turbo gets cooling instantly once opened whereas the oil cooler will only come into function once at operating temperature properly.
I say again I do not have the experience but have more than enough theoretical science knowledge. I would believe my diagram below would be the optimal reroute for your situation given parallel looping and thermal load onto a single point.
#53
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I'm sooo tired of seeing reroute diagrams. I also don't like the idea of sending all the coolant through the heater core and not directly to the radiator. You guys can't stop coming up with variations of the same thing can you?
also, the coolant out of the oil cooler and turbo would not be magically cooled :P
also, the coolant out of the oil cooler and turbo would not be magically cooled :P
#54
There are many variations yes but there is only one that is most efficient. TBH I think someone should do some datalogging and use the different kits available on the same car to give genuine comparison. Then we would know the best reroute although autox cooling is different from drift cooling (what with the air not going straight in ).
Where is any magic cooling or suggestion of it?
Twin thermostat would create flow variation and differing thermal loads in sections of the original design posted.
Where is any magic cooling or suggestion of it?
Twin thermostat would create flow variation and differing thermal loads in sections of the original design posted.
#56
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I believe your design in the original post is a good one but not the most efficient as it will split the thermal load of the engine, oil cooler and turbo and so to trigger each TS you must provide sufficeint temperature to both which would occur at best a few seconds apart however, more than likely the spacerless reoute TS will open first and because that has the larger fittings (and therefore flow) will be cooled and the coolant in the other section will not reach the critical temperature and so not flow round for quite some time as the heat within the system increases as a whole with a single loop open. Not being a very hands on Turbo person although the theory is fine means I am cannot be sure as to what this will do to your turbo.
You could swap your turbo and oilcooler couplings round which would mean the turbo gets cooling instantly once opened whereas the oil cooler will only come into function once at operating temperature properly.
I say again I do not have the experience but have more than enough theoretical science knowledge. I would believe my diagram below would be the optimal reroute for your situation given parallel looping and thermal load onto a single point.
You could swap your turbo and oilcooler couplings round which would mean the turbo gets cooling instantly once opened whereas the oil cooler will only come into function once at operating temperature properly.
I say again I do not have the experience but have more than enough theoretical science knowledge. I would believe my diagram below would be the optimal reroute for your situation given parallel looping and thermal load onto a single point.
- I'll say it again... There is always flow through the oil cooler and the turbo. Always. The branches for those happen BEFORE the t-stat plates in both cases.
- I have a cooler thermostat in the circuit for the heater core. That means it will open first, before the larger main branch. The idea is to bias the flow through the heater core so that it will warm up the cabin for a DD. You know, so the driver is kept comfortable during these harsh South Texas winters
#57
Using a lower TS at the rear is a very good idea kinda wish I'd thought of it.
Here is my question though. Apparently you've said it twice now but the flow through the oil cooler and turbo which is always there? Isn't it stopped by the two TSs you are using until they are open because otherwise the TS are actually doing nothing. The TS opens allowing flow from white to blue and the joining hose from heater core to oil cooler TS will only flow once both TSs are open. I know this seems silly to you but I can't wrap my head around it.
As I see it you have three stages of cooling in the system with your design (shown in the picture below). Arrows indicate flow therefore no arrow means no flow. The line between heatercore will be presurised but wont flow anything until the TS opens so the turbo won't get flow as the turbo feeds the stat and so does the heater core (2 ins 0 out = no flow, 2 ins 1 out = flow)
Here is my question though. Apparently you've said it twice now but the flow through the oil cooler and turbo which is always there? Isn't it stopped by the two TSs you are using until they are open because otherwise the TS are actually doing nothing. The TS opens allowing flow from white to blue and the joining hose from heater core to oil cooler TS will only flow once both TSs are open. I know this seems silly to you but I can't wrap my head around it.
As I see it you have three stages of cooling in the system with your design (shown in the picture below). Arrows indicate flow therefore no arrow means no flow. The line between heatercore will be presurised but wont flow anything until the TS opens so the turbo won't get flow as the turbo feeds the stat and so does the heater core (2 ins 0 out = no flow, 2 ins 1 out = flow)
Last edited by rrjwilson; 07-21-2009 at 10:45 AM.
#58
I don't know anything about reroutes other than what I have read here on MT.net. In an ideal world, there would be no heater core and all water would go through the head and back to the rad right?
If so, what is the option for a two postion valve on the infeed line to the heater core? Switch it to bypass on the track days so coolant still flows through the lines to keep the thermostat happy but doesn't see the heater core. Reposition it to the other position and it would be like a normal reroute but still flows through the heater core for a DD car. If you want to be really baller, you could rig it to be cable actuated in the cockpit. (Or forgetful and can switch it on track when you forget to do it in the paddock like I would.)
The rest of the reroute would be the "standard" reroute.
Or, tell the NOOB to shut up and stick with things that he has a clue about.
If so, what is the option for a two postion valve on the infeed line to the heater core? Switch it to bypass on the track days so coolant still flows through the lines to keep the thermostat happy but doesn't see the heater core. Reposition it to the other position and it would be like a normal reroute but still flows through the heater core for a DD car. If you want to be really baller, you could rig it to be cable actuated in the cockpit. (Or forgetful and can switch it on track when you forget to do it in the paddock like I would.)
The rest of the reroute would be the "standard" reroute.
Or, tell the NOOB to shut up and stick with things that he has a clue about.
#59
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Using a lower TS at the rear is a very good idea kinda wish I'd thought of it.
Here is my question though. Apparently you've said it twice now but the flow through the oil cooler and turbo which is always there? Isn't it stopped by the two TSs you are using until they are open because otherwise the TS are actually doing nothing. The TS opens allowing flow from white to blue and the joining hose from heater core to oil cooler TS will only flow once both TSs are open. I know this seems silly to you but I can't wrap my head around it.
As I see it you have three stages of cooling in the system with your design (shown in the picture below). Arrows indicate flow therefore no arrow means no flow. The line between heatercore will be presurised but wont flow anything until the TS opens so the turbo won't get flow as the turbo feeds the stat and so does the heater core (2 ins 0 out = no flow, 2 ins 1 out = flow)
Here is my question though. Apparently you've said it twice now but the flow through the oil cooler and turbo which is always there? Isn't it stopped by the two TSs you are using until they are open because otherwise the TS are actually doing nothing. The TS opens allowing flow from white to blue and the joining hose from heater core to oil cooler TS will only flow once both TSs are open. I know this seems silly to you but I can't wrap my head around it.
As I see it you have three stages of cooling in the system with your design (shown in the picture below). Arrows indicate flow therefore no arrow means no flow. The line between heatercore will be presurised but wont flow anything until the TS opens so the turbo won't get flow as the turbo feeds the stat and so does the heater core (2 ins 0 out = no flow, 2 ins 1 out = flow)
#60
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they are beyond wrong. He learned fluid dynamics from the Hyper School of Fail. And furthermore, stop illustrating the lines out of the cooler and turbo as blue, they are not cold lines, they are even hotter than before.