Long distance driving.
#1
Long distance driving.
Hi guys..
I'm having a problem.
I have a 93 NA6 with a TD04 turbo custom kit, running a Celica GT4 intercooler, FM linkmk2 ECU with WB02, 550cc RC injectors, 3 core KOYO aluminium radiator with twin SPAL fans, Mocal 13 row oil cooler.
On long drives, when i hold a constant speed of 140kmh the temp via the Link shows about 96-98 deg C. When i start to head anywhere above that for sustained periods of time, the water temp starts to rise over minutes and can hit between 102-108 deg C at 160km/h. I try to be gentle on the accelerator and not build boost and keep it at 0psi or in vacuum, but i can still hear the turbo spooling away, with my rpm at abt 4500.
My question is....what can i do to prevent the turbo from spooling at such high rpm, long distance trips?
Are these worth considering?
1) External wastegate
2) external actuator
3) Change final drive (which i don't really want to cause i like the close ratio gearing on the NA)
4) change 5th Gear
5) get the 6 spd GB and diff off a NB
any other ideas? comments please?
Thanks guys
oh yes....over where i am...temperatures are usually 34-35deg c with >90% humidity
I'm having a problem.
I have a 93 NA6 with a TD04 turbo custom kit, running a Celica GT4 intercooler, FM linkmk2 ECU with WB02, 550cc RC injectors, 3 core KOYO aluminium radiator with twin SPAL fans, Mocal 13 row oil cooler.
On long drives, when i hold a constant speed of 140kmh the temp via the Link shows about 96-98 deg C. When i start to head anywhere above that for sustained periods of time, the water temp starts to rise over minutes and can hit between 102-108 deg C at 160km/h. I try to be gentle on the accelerator and not build boost and keep it at 0psi or in vacuum, but i can still hear the turbo spooling away, with my rpm at abt 4500.
My question is....what can i do to prevent the turbo from spooling at such high rpm, long distance trips?
Are these worth considering?
1) External wastegate
2) external actuator
3) Change final drive (which i don't really want to cause i like the close ratio gearing on the NA)
4) change 5th Gear
5) get the 6 spd GB and diff off a NB
any other ideas? comments please?
Thanks guys
oh yes....over where i am...temperatures are usually 34-35deg c with >90% humidity
#4
Boost Pope
iTrader: (8)
Join Date: Sep 2005
Location: Chicago. (The less-murder part.)
Posts: 33,039
Total Cats: 6,607
B: Remove it, and place it on the seat next to you.
C: Remove it, and place it on a shelf in your garage.
D: Remove it, and sell it on eBay.
(etc.)
Honestly, I'm not seeing the problem here. 108°C is a little hotter than my engine runs, but it's not like the engine is going to liquify at that temperature. Frankly, I'm not surprised that it's running a tad warm- 140 km/h (that's 87 MPH for you Americans) is a pretty fair clip for a vehicle with all the aerodynamic properties of a spanner.
For starters, the quantity of heat which the turbocharger contributes to the cooling system is pretty trivial. And it's not as though the heat load on the CHRA water jacket is going to vary much with whether or not the compressor is doing anything- it's got a steady stream of rather hot gas flowing through the turbine housing an inch away.
If you're really worried about it, fix the real problem: the cooling system. Search around here a bit on the term reroute (or "re route") and I pretty much guarantee your problems will go away.
#6
A: Remove it, and place it in the trunk.
B: Remove it, and place it on the seat next to you.
C: Remove it, and place it on a shelf in your garage.
D: Remove it, and sell it on eBay.
(etc.)
Honestly, I'm not seeing the problem here. 108°C is a little hotter than my engine runs, but it's not like the engine is going to liquify at that temperature. Frankly, I'm not surprised that it's running a tad warm- 140 km/h (that's 87 MPH for you Americans) is a pretty fair clip for a vehicle with all the aerodynamic properties of a spanner.
For starters, the quantity of heat which the turbocharger contributes to the cooling system is pretty trivial. And it's not as though the heat load on the CHRA water jacket is going to vary much with whether or not the compressor is doing anything- it's got a steady stream of rather hot gas flowing through the turbine housing an inch away.
If you're really worried about it, fix the real problem: the cooling system. Search around here a bit on the term reroute (or "re route") and I pretty much guarantee your problems will go away.
B: Remove it, and place it on the seat next to you.
C: Remove it, and place it on a shelf in your garage.
D: Remove it, and sell it on eBay.
(etc.)
Honestly, I'm not seeing the problem here. 108°C is a little hotter than my engine runs, but it's not like the engine is going to liquify at that temperature. Frankly, I'm not surprised that it's running a tad warm- 140 km/h (that's 87 MPH for you Americans) is a pretty fair clip for a vehicle with all the aerodynamic properties of a spanner.
For starters, the quantity of heat which the turbocharger contributes to the cooling system is pretty trivial. And it's not as though the heat load on the CHRA water jacket is going to vary much with whether or not the compressor is doing anything- it's got a steady stream of rather hot gas flowing through the turbine housing an inch away.
If you're really worried about it, fix the real problem: the cooling system. Search around here a bit on the term reroute (or "re route") and I pretty much guarantee your problems will go away.
#10
if you're in vacuum and "hear" the turbo spooling but it doesn't go into boost its not really "spooling". its just spinning. probably a little faster than at low speeds but that has nothing to do with your issue.
you have a cooling problem. a logical place to start would be the cooling system.
When your *** hurts do you go to the dentist?
you have a cooling problem. a logical place to start would be the cooling system.
When your *** hurts do you go to the dentist?
#11
Former Vendor
iTrader: (31)
Join Date: Nov 2006
Location: Sunnyvale, CA
Posts: 15,442
Total Cats: 2,100
Sorry, maybe I wasn't clear:
If you overheat in boost, it's because your cooling system is inadequate. I can hammer around a road course doing 350whp 5th and 6th gear pulls at 16+psi in 90+ degree heat for 25 minutes straight and I have zero problems keeping the car cool. If you cannot do 100-150mph twice in a row without overheating, your cooling system is inadequate for your power level. If you cannot exceed 5in.hg of vacuum without the temps creeping up, your cooling system is broken.
In amurrican units, at 87mph your temps are 205-208F. This is high - it shows you either have a coolant pressure leak, your core size is inadequate, or you have improper ducting. With a 190F thermostat you should be sitting between 190F and 200F on the street, regardless of speed. At 100mph, the temps climb to 215-225, this is also high.
Your temps should DROP at speed, not rise. I had temps fluctuating between 210 and 220*F every lap at WSIR last weekend - the lowest temps were at the end of the front straightaway, ~154mph. Highest temps were exiting the slowest portion of the track (midrange 4th gear, 60-90mph). Temps would slowly drop as I accelerated away from the slow section (80 to ~140mph, slowing to ~100mph for turn 9, then back to ~154 entering turn 1). This is with a Trackspeed 76mm radiator, 14" Spal curved-blade fan, no shroud, front end fully ducted, extraction hood, reroute, gutted thermostat.
In amurrican units, at 87mph your temps are 205-208F. This is high - it shows you either have a coolant pressure leak, your core size is inadequate, or you have improper ducting. With a 190F thermostat you should be sitting between 190F and 200F on the street, regardless of speed. At 100mph, the temps climb to 215-225, this is also high.
Your temps should DROP at speed, not rise. I had temps fluctuating between 210 and 220*F every lap at WSIR last weekend - the lowest temps were at the end of the front straightaway, ~154mph. Highest temps were exiting the slowest portion of the track (midrange 4th gear, 60-90mph). Temps would slowly drop as I accelerated away from the slow section (80 to ~140mph, slowing to ~100mph for turn 9, then back to ~154 entering turn 1). This is with a Trackspeed 76mm radiator, 14" Spal curved-blade fan, no shroud, front end fully ducted, extraction hood, reroute, gutted thermostat.
Last edited by Savington; 10-16-2010 at 05:03 AM.
#12
if you're in vacuum and "hear" the turbo spooling but it doesn't go into boost its not really "spooling". its just spinning. probably a little faster than at low speeds but that has nothing to do with your issue.
you have a cooling problem. a logical place to start would be the cooling system.
When your *** hurts do you go to the dentist?
you have a cooling problem. a logical place to start would be the cooling system.
When your *** hurts do you go to the dentist?
#13
Sorry, maybe I wasn't clear:
In amurrican units, at 87mph your temps are 205-208F. This is high - it shows you either have a coolant pressure leak, your core size is inadequate, or you have improper ducting. With a 190F thermostat you should be sitting between 190F and 200F on the street, regardless of speed. At 100mph, the temps climb to 215-225, this is also high.
In amurrican units, at 87mph your temps are 205-208F. This is high - it shows you either have a coolant pressure leak, your core size is inadequate, or you have improper ducting. With a 190F thermostat you should be sitting between 190F and 200F on the street, regardless of speed. At 100mph, the temps climb to 215-225, this is also high.
#15
Former Vendor
iTrader: (31)
Join Date: Nov 2006
Location: Sunnyvale, CA
Posts: 15,442
Total Cats: 2,100
Take some detailed photos of the mouth of your car. Specifically of the areas around the intercooler. My car has two main chambers - approximately 75% of the air goes through the intercooler, then through the bottom half of the radiator. 25% of the air bypasses the intercooler and travels through the top half of the radiator. The two chambers behind the IC are separated so the air that goes around the IC can't get behind the IC and restrict its flow.
If you were to winch your car up vertical so the car was perpendicular to the ground, and then pour water into the mouth, would most of it go through the radiator or around the radiator? Air is like an un-trainable dog - you have to constantly trick it into doing what you want or else it's going to just go do whatever the **** it wants.
If you were to winch your car up vertical so the car was perpendicular to the ground, and then pour water into the mouth, would most of it go through the radiator or around the radiator? Air is like an un-trainable dog - you have to constantly trick it into doing what you want or else it's going to just go do whatever the **** it wants.
#17
Take some detailed photos of the mouth of your car. Specifically of the areas around the intercooler. My car has two main chambers - approximately 75% of the air goes through the intercooler, then through the bottom half of the radiator. 25% of the air bypasses the intercooler and travels through the top half of the radiator. The two chambers behind the IC are separated so the air that goes around the IC can't get behind the IC and restrict its flow.
If you were to winch your car up vertical so the car was perpendicular to the ground, and then pour water into the mouth, would most of it go through the radiator or around the radiator? Air is like an un-trainable dog - you have to constantly trick it into doing what you want or else it's going to just go do whatever the **** it wants.
If you were to winch your car up vertical so the car was perpendicular to the ground, and then pour water into the mouth, would most of it go through the radiator or around the radiator? Air is like an un-trainable dog - you have to constantly trick it into doing what you want or else it's going to just go do whatever the **** it wants.
#20
Tour de Franzia
iTrader: (6)
Join Date: Jun 2006
Location: Republic of Dallas
Posts: 29,085
Total Cats: 375
No, it seals up the air from the "mouth" so its forced through the heat exchangers. Singapore's humidity doesn't help you too much, but I think you can get the job done with this ducting. If not you can buy a TSE radiator.