#21  
Old 09-19-2024, 12:02 PM
kingbuzzo's Avatar
kingbuzzo kingbuzzo is offline
Chief Ponti-yacker
 
Join Date: Mar 2022
Posts: 849
Default

Apparently yes you do...hopefully you don't go the redneck a/c route...lolz:


__________________
Esquire

'74 T/A 455 Y-code SD clone

previously on Dawson's Creek:

'74 T/A 400
'81 AMC SX/4
'69 FB 350
  #22  
Old 09-20-2024, 08:43 AM
dataway's Avatar
dataway dataway is offline
Ultimate Warrior
 
Join Date: Jan 2012
Location: Greenfield TN
Posts: 9,032
Default

Hey, the Navy used those redneck AC systems for decades, probably still do. Pump 50 degree seawater through a heat exchanger and blow air through it.

__________________
I'm World's Best Hyperbolist !!
The Following User Says Thank You to dataway For This Useful Post:
  #23  
Old 09-20-2024, 05:05 PM
RocktimusPryme's Avatar
RocktimusPryme RocktimusPryme is offline
Ultimate Warrior
 
Join Date: Jul 2014
Location: Bedford, IN
Posts: 2,265
Default

Super Cool information. I think the fact that companies kept using engine driven fans on heavy duty trucks well after most cars dropped them shows how well they perform in certain situations.

But to add to the conversation, I think people often don't frame the electric vs mechanical fan argument correctly.

Most people who have cooling issues on old cars with clutch fans, have them at stops and low speed traffic. Im not saying you can fix this, but to me, this is where an electric setup shines. They arent RPM dependant like an engine driven fan is. You can have all the beans the electric fan can provide at a low RPM where the engine driven fan cant spin faster than the water pump. At a certain point I don't know how much dead max airflow matters. Once its adequate, its adequate. The bigger decision point might be, which setup can give me the most airflow when I need it?

Now I have head horror stories of people going to electric fans and the problem flipping, all of a sudden they get hot at highway speed, but I think that is a matter of the shroud not letting enough air through. I think your testing shows that clearly, which the openings and the fans blocking said opening being an airflow limiting factor. Which is pretty easily fixed with those flaps that you see with some OEM shrouds and the higher quality aftermarket units.

Aside from the obvious mistake people make with buying inferior electric fans to start with, I think that is probably the biggest mistake people make in going electric. Shroud airflow at highway speed.

Side note. I have this enormous Bosch electric fan with shroud I bought from a swap meet for $5. I believe its from an early 2000s Mercedes C230. Its 19.5 inches, the same size as the big bad AC GM clutch fans. I can wire it to come on full blast, it even has a built in slow start. But it has 4 wires, a large ground and large hot, that I believe is meant to always be hot. Then another smaller wire when given 12 volts signals on. The 4th wire I assume is meant to be PWM speed controlled.

Ive been trying to figure out an easy way to make it work because I think it could be the new Lincoln Mark VIII fan if I can. I even bought a cheap PWM controller which I can make work when I put it on the big wires to control speed, but I think the speed should be controlled by that 4th wire.

__________________
1967 Firebird 462 580hp/590ftlbs
1962 Pontiac Catalina Safari Swapped in Turd of an Olds 455
Owner/Creator Catfish Motorsports
https://www.youtube.com/@CatfishMotorsports

Last edited by RocktimusPryme; 09-20-2024 at 05:11 PM.
The Following User Says Thank You to RocktimusPryme For This Useful Post:
  #24  
Old 09-21-2024, 08:13 AM
dataway's Avatar
dataway dataway is offline
Ultimate Warrior
 
Join Date: Jan 2012
Location: Greenfield TN
Posts: 9,032
Default

To be honest, I think a properly designed electric setup is the overall best way to go. My 2011 GMC truck with HD cooling, HD everything ... has no mechanical fan and I have never seen it ever go over thermostat temp even for a second.

No constant parasitic draw, less noise (most of the time), lighter, and probably easier on the water pump as there is no fan shaft. And, as you say, it's cooling specifically WHEN you need it regardless of engine rpm.

But then the truck has a huge frontal area, big radiator, plenty of room under the hood, lots of flow at highway speeds. It's all about what a vehicle was designed to have. A GTO has in comparison a tiny frontal area, smaller radiator, and a large, high hp engine .... it needs a LOT of air flow, more air flow than the vast majority of electric setups can provide and limited space to work with.

Just imagine for a moment if some GM engineers decided they wanted to create an electric fan setup for vintage vehicles ... pretty sure it would work, probably way better than the original OEM mechanical fan.

Like most things ... implementation of the technology is as important, or more important than the technology used.

__________________
I'm World's Best Hyperbolist !!
  #25  
Old 09-21-2024, 09:39 AM
Formulajones's Avatar
Formulajones Formulajones is online now
Ultimate Warrior
 
Join Date: Jan 2012
Posts: 11,226
Default

I did a bunch of real world testing in this area and came to my own conclusions.

Test subject was dads GTO with a 700hp 571 pontiac. Always ran cool with the stock clutch fan and shroud setup and a 4 core copper radiator.
When he wanted to step up to an aluminum radiator he wanted to try electric fans, mainly to remove the parasitic losses from a driven fan blade. (He's a HP junky)

I found the shroud construction is more critical than any type of fan used. If the electric fan setup is too close to the radiator and blocking large sections of the radiator impeding air flow it's just not going to work well. Air flow through just the fan area is simply not enough and turning the fans on to try and pull air through those tight blocked areas doesn't work well enough. Cutting openings in the shroud and installing rubber flaps with the idea that air will push through there at speed also doesn't work well enough.

What happened was an engine that normally ran in the 160's to 175 degrees now would climb to 190 and stay there with the electric fan setup. Even at highway speeds the fans would kick on and run constantly trying to pull air through the radiator, that was because too much of the radiator is blocked with the electric fan shroud setup and even the fans running full speed couldn't pull enough air to overcome it going 70 mph.
It did work well sitting still and would cycle the fans on and off but that scenario was only 30% of driving.

So I pulled the electric off, put the stock shroud back on with a 7 blade clutch fan and immediately the car ran cool, almost cold. Even when it's over 100 degrees here it never gets over about 182 sitting still idling. Once moving it's in the 170's and when it's cooler outside it'll run in the 160's no matter what you do, and highway speeds aren't a problem anymore.

You really have to spend a ton of money for a well designed electric fan setup to work properly. It's doable but at that point of the testing dad said screw it, the clutch fan does a great job, will never really fail, and in the end he has enough HP anyway he's not going to miss a few ponies. Running cooler in Arizona is way more important.

__________________
2019 Pontiac Heaven class winner

https://youtu.be/XqEydRRRwqE
The Following User Says Thank You to Formulajones For This Useful Post:
  #26  
Old 09-21-2024, 03:13 PM
Formulabruce's Avatar
Formulabruce Formulabruce is offline
Ultimate Warrior
 
Join Date: Nov 2004
Location: North East of AMES PERFORMANCE, in the "SHIRE"
Posts: 9,428
Default

As Data said in first post. It IS in the SHROUD. Any doubts look at 69-72 Grand Prix " Wind tunnel".
The homework was done Long ago...

__________________
"The Future Belongs to those who are STILL Willing to get their Hands Dirty" .. my Grandfather
The Following 2 Users Say Thank You to Formulabruce For This Useful Post:
  #27  
Old 09-21-2024, 03:53 PM
dataway's Avatar
dataway dataway is offline
Ultimate Warrior
 
Join Date: Jan 2012
Location: Greenfield TN
Posts: 9,032
Default

For the DIY'er .. yeah, an electric setup just isn't ideal in our vintage cars without a huge investment. As for the HP, spend that electric fan money on some other goodie for the extra HP.

Yes I think electric is better ... but only for a vehicle designed from the ground up to have electric.

Our cars were built to have a mechanical fan ... so that's what works best.

A HUGE amount of engineering goes into the frontal area of a vehicle, aerodynamics, cooling air flow, cosmetics, impact resistance, noise considerations. To take a car that was designed to have a giant mechanical fan pulling huge amounts of air through the radiator and try to replace it with an electric system is just a big ask.

__________________
I'm World's Best Hyperbolist !!
The Following User Says Thank You to dataway For This Useful Post:
  #28  
Old 09-22-2024, 11:53 AM
HWYSTR455's Avatar
HWYSTR455 HWYSTR455 is offline
Ultimate Warrior
 
Join Date: Jan 2005
Location: Manassas, VA
Posts: 15,098
Default

I've run those Flex-a-lite 295 fan setups on 68-72 A-bodies, they work, and were my go-to. They have a rating of 4600cfm, but don't believe all fan companies use the same formula to calc CFM.

I think the 295 fan is listed as a truck fan intended for towing or high demand.

The reliefs are a big factor, as it how much heat your engine produces. Like, a small displacement inline 4 isn't going to have the same heat production as a 571 tuned for max power.

There's many configs in between those two examples, so what works on one may not work on another.

The info in this thread certainly proves points targeting the shroud, and is great info. Next would be to calc the thermal heat (most likely BTUs) of a particular engine in several types of uses, like idle, cruise @X RPM, and WOT pass of X time.

With those data points you can calculate the requirement(s). That's the first step of selecting a fan.

Many vehicles calculation by OEs is by % of use in the categories of use, like 30%, 50%, and 20% for idle/cruise/WOT. So if you use a vehicle in WOT more than the 20%, it can overheat, because is would be a waste (design/packaging/money) to make a cooling system that exceeds the needs.

So if you add 100hp to your car, you 'might' exceed the existing cooling performance of your system.

Shrouds, you just choose the most effective one that fits always. And, in true nature of hot rodding, you probably should do the same for fans.

Just to comment, some fans will flow more than others, based on blade design (pitch/shape) and type of motor (freewheel drag). And some manufacturers give the rating of the fan alone, not including any reduction of flow of the shroud package as equipped.

So a listing of a shroud packaged fan setup that states '5000cfm' 'might' be based on just the combo of 2x 2500cfm fans individually and not including any waste due to poor shroud design.

This also doesn't account for any variation of how the fan' cfm was calculated. But as a general rule, you can tell by what the max amp draw is of the fan.

An informed buyer is a smart buyer.

.

.

__________________
.

1970 GTO Judge Tribute Pro-Tour Project 535 IA2
http://forums.maxperformanceinc.com/...d.php?t=760624
1971 Trans Am 463, 315cfm E-head Sniper XFlow EFI, TKO600 extreme, 9", GW suspension, Baer brakes, pro tour car
https://forums.maxperformanceinc.com...ght=procharger
Theme Song: http://www.youtube.com/watch?v=7zKAS...ature=youtu.be
The Following User Says Thank You to HWYSTR455 For This Useful Post:
  #29  
Old 09-22-2024, 01:21 PM
Gator67's Avatar
Gator67 Gator67 is offline
Ultimate Warrior
 
Join Date: Jul 2009
Location: North Scottsdale
Posts: 1,687
Default

The factory style clutch fan and shroud keeps the 535 in my 70 Formula cool, even with A/C on in Phoenix. However, on my latest 2nd gen bird project I'm going to run an electric fan set-up to cool a stroked LQ4...with the air intake tube, radiator hose, etc., just not enough room for conventional cooling fan, and a conventional fan would have ended up in an odd spot. The set-up I'll be running consists of two brushless SPAL 12" fans in a 3.5" thick shroud with two sets of reliefs/flaps. I like the idea of being able to run PWM controlled by the Terminator Max ECU, and the fans are very powerful, but I'm a little nervous that it won't keep up. Friends here in town have not luck with 2 x 12's, but those set-ups typically consist of weaker brushed fans which are wired so that they're either on or off (or one or both are on and off), and are installed in thin shrouds without any reliefs/flaps. To make those deals work, they have to use 14" or 16" fans, which, unfortunately, create additional packaging challenges (e.g., interference with steering box). I'm still a couple months away from the first start up...will report back.

__________________
"If the best Mustang is the Camaro, the best Camaro is actually the Firebird" David Zenlea
The Following User Says Thank You to Gator67 For This Useful Post:
  #30  
Old 09-22-2024, 02:12 PM
HWYSTR455's Avatar
HWYSTR455 HWYSTR455 is offline
Ultimate Warrior
 
Join Date: Jan 2005
Location: Manassas, VA
Posts: 15,098
Default

SPAL brushless fans are excellent, and are PWM friendly. They are one of the most efficient fans on the planet.

Some of the newer OE fans actually have the PWM controller built into them.

I run the 'vette PWM controllers on my GTO, the Dominator ECU controls them.

The SPAL brushless fan motors are very flat, and make it easier to package in a tight engine compartment. Super efficient and freewheel effortlessly. But in some cases, the water pump snout can get in the way of 1 large fan configs, so 2 smaller offset fan motors is the only option. (That's how I ended up).

I wish I would have gotten the SPAL brushless fans, but somehow talked myself out of it. My setup does creep a little, and on a 180 stat I run 190, 200 with AC on. I think my problem is the rad, which is one of the Champion type aftermarket ones, so I recently got a Cold Case. If that doesn't keep it where I would prefer it, I will swap the fans out with SPALs.

I run the fans at 30% below 170, 170-180 at 40%, 180-195 at 70%, and then 95% up. I do a 10% bump when AC is on.

I had a variable of MPH too, and over 50mph I ramped them back up to 70mph where they would freewheel, but the motors and blade type must be enough of a restriction that I had to remove that. I thing with the SPALs I could add that back in.

Shroud is properly designed, spaced, and has reliefs.

I'd be interested in how you make out Gator67, please post your results once you get to that point.



.

__________________
.

1970 GTO Judge Tribute Pro-Tour Project 535 IA2
http://forums.maxperformanceinc.com/...d.php?t=760624
1971 Trans Am 463, 315cfm E-head Sniper XFlow EFI, TKO600 extreme, 9", GW suspension, Baer brakes, pro tour car
https://forums.maxperformanceinc.com...ght=procharger
Theme Song: http://www.youtube.com/watch?v=7zKAS...ature=youtu.be
The Following User Says Thank You to HWYSTR455 For This Useful Post:
  #31  
Old 09-23-2024, 07:58 AM
dataway's Avatar
dataway dataway is offline
Ultimate Warrior
 
Join Date: Jan 2012
Location: Greenfield TN
Posts: 9,032
Default

Another point to keep in mind ... is we like to keep our vintage car engines less than the 195 degrees that the OEM considered appropriate.

This gets into some math, but the higher the thermostat setting is, the better a radiator works. Radiators get rid of heat using the difference in temp between the coolant and the air passing through. If it's 90 degrees outside, and you have a 190 degree thermostat then you have a 100 degree difference between coolant and air (delta T ).

If it's 90 degrees out and you have a 165 degree thermostat then there is a 75 degree delta T.

The size, flow, surface area etc. of an OEM radiator is based on some median combination of use cases and outside air temps WITH whatever temp thermostat they specify. Change the thermostat rating and it changes the entire dynamic of the OEM system.

A given size radiator's ability to remove heat is based on the rate of coolant flow, air flow AND the delta T between coolant and air.

Why does your engine run the proper temps in cooler weather? Because the delta T between air and coolant is larger. There are two ways to increase delta T .... lower ambient air temp ( talk to the man upstairs about making that happen) OR raise your coolant temps (by using a hotter thermostat). Of course this is a simplification, there are a lot of variables involved.

HWYSTR455 .... I'd love to attempt to create a complete mathematic simulation of a cooling system. A lot of the data is probably out there. Some kind of universal "plug in the numbers" simulation. I use Solidworks software, which does have a thermodynamics simulator ... but I'm not sure if it would allow all the variables we'd need. And it's doubtful it would provide any real world solutions for vintage cars ... but it would be interesting as heck.

__________________
I'm World's Best Hyperbolist !!
The Following 2 Users Say Thank You to dataway For This Useful Post:
  #32  
Old 09-23-2024, 12:31 PM
HWYSTR455's Avatar
HWYSTR455 HWYSTR455 is offline
Ultimate Warrior
 
Join Date: Jan 2005
Location: Manassas, VA
Posts: 15,098
Default

It would be cool (pun intended) if that were hammered out, a formula, but think every OE has done many times over.

Still fun and interesting tho.

I still say it's just easier to overkill it, and choose the largest rad & fan you can fit, ensuring the shroud is designed properly.

Overall fluid capacity is also a factor.



.

__________________
.

1970 GTO Judge Tribute Pro-Tour Project 535 IA2
http://forums.maxperformanceinc.com/...d.php?t=760624
1971 Trans Am 463, 315cfm E-head Sniper XFlow EFI, TKO600 extreme, 9", GW suspension, Baer brakes, pro tour car
https://forums.maxperformanceinc.com...ght=procharger
Theme Song: http://www.youtube.com/watch?v=7zKAS...ature=youtu.be
The Following User Says Thank You to HWYSTR455 For This Useful Post:
  #33  
Old 09-24-2024, 10:21 AM
dataway's Avatar
dataway dataway is offline
Ultimate Warrior
 
Join Date: Jan 2012
Location: Greenfield TN
Posts: 9,032
Default

Always a fan (pun intended) of an overbuilt cooling system ... kinda like other things, better to have it and not need it than to need it and not have it.

Like a lot of people, annoys me a bit to hear that giant OEM fan sucking up 10 hp but it's moving a ton of air. If you have an OEM setup with a properly working clutch and properly sealed shroud and core support ... you can pretty much mark off "not enough air flow" on the list of potential problems and look elsewhere.

__________________
I'm World's Best Hyperbolist !!
The Following User Says Thank You to dataway For This Useful Post:
  #34  
Old 09-24-2024, 11:24 AM
TheSilverBuick's Avatar
TheSilverBuick TheSilverBuick is offline
Ultimate Warrior
 
Join Date: Nov 2011
Location: Ely, NV
Posts: 1,496
Default

I'm pretty sure I paid $85 for it in 2014. Trimmed the sides down to fit the radiator width.

Quote:
Originally Posted by dataway View Post
Silver, yep that looks like a decent setup. Single larger fan worked well in simulation ... and I see it's got a more conventional fan design with plenty of room for air to pass between the blades at highway speeds. Some of the electric fans I see have like 20 blades that look like they block a lot of flow when the fan is not running. Fits your radiator very nicely.

I also like the fact that the fan is centrally located so it also has the effect of blowing air directly on the engine.

Just checked out one on Amazon ... jeez, good deal for what appears to be a copy of an OEM part. I noticed Doorman makes one.

__________________
__________________________________________
"How I learned to stop worrying and love the OHC Pontiac L6"



The Silver Buick- '77 Skylark coupe w/455, SPX, MegaSquirt 3 & TKO-600 (Drag Week 2011, 2012 & 2015!)

1969 Firebird with a turbo'd Pontiac L6 controlled by a MegaSquirt 3 and backed with a microsquirt controlled 4L60e and 4.56 gears! (Drag Week 2018!)
The Following User Says Thank You to TheSilverBuick For This Useful Post:
  #35  
Old 09-24-2024, 01:56 PM
JLMounce JLMounce is offline
Ultimate Warrior
 
Join Date: Sep 2005
Location: Greeley, Colorado
Posts: 3,912
Send a message via AIM to JLMounce
Default

Quote:
Originally Posted by dataway View Post
Another point to keep in mind ... is we like to keep our vintage car engines less than the 195 degrees that the OEM considered appropriate.

This gets into some math, but the higher the thermostat setting is, the better a radiator works. Radiators get rid of heat using the difference in temp between the coolant and the air passing through. If it's 90 degrees outside, and you have a 190 degree thermostat then you have a 100 degree difference between coolant and air (delta T ).

If it's 90 degrees out and you have a 165 degree thermostat then there is a 75 degree delta T.

The size, flow, surface area etc. of an OEM radiator is based on some median combination of use cases and outside air temps WITH whatever temp thermostat they specify. Change the thermostat rating and it changes the entire dynamic of the OEM system.

A given size radiator's ability to remove heat is based on the rate of coolant flow, air flow AND the delta T between coolant and air.

Why does your engine run the proper temps in cooler weather? Because the delta T between air and coolant is larger. There are two ways to increase delta T .... lower ambient air temp ( talk to the man upstairs about making that happen) OR raise your coolant temps (by using a hotter thermostat). Of course this is a simplification, there are a lot of variables involved.

HWYSTR455 .... I'd love to attempt to create a complete mathematic simulation of a cooling system. A lot of the data is probably out there. Some kind of universal "plug in the numbers" simulation. I use Solidworks software, which does have a thermodynamics simulator ... but I'm not sure if it would allow all the variables we'd need. And it's doubtful it would provide any real world solutions for vintage cars ... but it would be interesting as heck.
This is a really good point. Modern OEM vehicles also almost exclusively have dummy type gauges that soften the heat cycles as well. Oem's run cars around 200 degrees for stuff like the LS engines. They'll let that creep to 210-220 at idle before turning on the fan/s and bringing it down a bit. As soon as the ECU sees a specified MPH it'll turn off the fans entirely and the temps will come down to the rated temps.

As enthusiasts, most of us have gauges that don't dump down cycles, so when we see somewhat elevated temps, we freak out...often for no real reason.

__________________
-Jason
1969 Pontiac Firebird
The Following User Says Thank You to JLMounce For This Useful Post:
  #36  
Old 09-24-2024, 03:06 PM
MandMlogicosolutions MandMlogicosolutions is offline
Junior Member
 
Join Date: Sep 2024
Location: 1847 brenthill wy Vienna Virginia USA
Posts: 1
Send a message via ICQ to MandMlogicosolutions Send a message via MSN to MandMlogicosolutions Send a message via Yahoo to MandMlogicosolutions
Default

When comparing **OEM fan flow** to **dual electric fan flow**, the key difference lies in performance, efficiency, and cooling power. OEM fans (often mechanical) are typically belt-driven and tied to engine speed, meaning their airflow can be limited at lower RPMs. In contrast, dual electric fans are independent of engine speed and can provide more consistent airflow, especially at idle or lower speeds. Electric fans are often more efficient, quieter, and provide better cooling for high-performance applications or vehicles with modified engines. However, they may require upgrades to the electrical system.

  #37  
Old 09-24-2024, 03:38 PM
RocktimusPryme's Avatar
RocktimusPryme RocktimusPryme is offline
Ultimate Warrior
 
Join Date: Jul 2014
Location: Bedford, IN
Posts: 2,265
Default

Quote:
Originally Posted by dataway View Post
To be honest, I think a properly designed electric setup is the overall best way to go.
Oh I agree. I don't even think that is in question. Cost-effectiveness could be questioned, but for absolute effectiveness, I don't think a reasonable argument could be made that a mechanical fan is superior. And I say that as someone with clutch fans on most of my old cars.

I have long been considering an electric setup on my Firebird. I have a Terminator X, and I feel like Im wasting capability by not using it to control fans. I struggle a little at dead stops on hot days. But because I do a bit of bracket racing occasionally, I would really like the ability to cool it down with the electric fans between runs.

I like the way you explained the delta math between the higher thermostat stuff. Its not rocket science but that was a concise explanation that makes sense to everyone.

The modeling in general is an interesting concept. Im a process improvement specialist so I would like to see Pareto style analysis on how much each factor (Radiator size, fan airflow, engine CI etc) should be weighted. So people would know which thing to attack first. For instance, rather than fighting fans, would people be better off modifying their radiator support to fit bigger core section radiators.

How much does CI matter, VS power output when it comes to cooling? Do some common V8s just have better designed coolant passages in the engines? Lots of questions.

I think Im more educated than the average gear head, but I still encounter anomalies.

My 462 Pontiac has a Cold Case, a factory style shroud, with an HD Clutch and a 19.5 inch fan. Its fine most of the time, but will temp creep a bit on hot days at a stop.

The trash old stock 455 Olds in my catalina has a new, but chinesium aluminum radiator, NO SHROUD, 18" clutch fan and runs dead on the 160 thermostat in hot weather. In cold weather its hard to get it to the 160. Ive been meaning to swap it to a 180.

Do Olds engines inherently cool better? Or does the Pontiac making probably 3x the power make it generate more heat even in normal driving?

__________________
1967 Firebird 462 580hp/590ftlbs
1962 Pontiac Catalina Safari Swapped in Turd of an Olds 455
Owner/Creator Catfish Motorsports
https://www.youtube.com/@CatfishMotorsports

Last edited by RocktimusPryme; 09-24-2024 at 04:08 PM.
The Following User Says Thank You to RocktimusPryme For This Useful Post:
  #38  
Old 09-26-2024, 07:41 AM
dataway's Avatar
dataway dataway is offline
Ultimate Warrior
 
Join Date: Jan 2012
Location: Greenfield TN
Posts: 9,032
Default

Rocktimus, does your 462 have aluminum heads? Seems like aluminum heads could greatly increase the amount of heat transferred to the coolant. Possibly more heat than an OEM system was designed to handle. Seems like this could be a factor. Iron is only going to transfer heat at a given rate, the head would run a hotter average temp I would imagine but transfer less of that heat to the coolant compared to aluminum.

I know less about high performance engines than I do thermodynamics, so I wonder, does a high hp engine make more heat under the same load as a low hp engine? I know displacement matters ... more displacement means more surface area to transfer heat from the combustion chamber and cylinder walls than a smaller displacement. So I can easily see how larger displacement would mean more heat into the coolant.

I think coolant flow can be a large factor. Coolant flow increases can only help until it reaches the point that it is moving more heat than the radiator can remove ... BUT, less than adequate flow on the other hand can have a dramatic effect as it would under utilize the radiator's capacity to remove heat. Perhaps the Olds has very good coolant flow compared to the Pontiac. Frontal area can matter, air volume in the engine bay, area for air to exit the engine bay etc.

Automobile cooling is a pretty complex problem compared to most heat exchange scenarios. Variable load, variable heat input, variable ambient, variable air flow since the vehicle is sometimes moving, sometimes stationary. The engineers probably spend a lot more time on it than we think.

__________________
I'm World's Best Hyperbolist !!
  #39  
Old 09-26-2024, 08:14 AM
Formulajones's Avatar
Formulajones Formulajones is online now
Ultimate Warrior
 
Join Date: Jan 2012
Posts: 11,226
Default

I would say yes to that. Larger displacement and/or more HP would create more heat. From my experience it's marginal.
I just pulled the 454 out of my chevelle for a 598. The 454 made 608hp. That engine was in the car for 25 years. It always ran very cool. As long as ambient temps were in the 80's or less that thing rarely got over 158 degrees with slow driving around town, highway I'd see 164-165. On the hottest days over 100 degrees 172-174 was as hot as I saw the engine get. That engine just never would get hot.
The 598 making 786hp, changing nothing else, driving those same slow speeds it's pretty much locks in and settles at 162 degrees. On the highway it's 174-175. Driving it when the temps were over 100 degrees the hottest the engine got was 182 on the highway but even when it's 105+ outside it cools back down to the 170's as soon as I'm off the highway and driving slower back roads. So it does run a few degrees warmer than the 454 did but it's nothing alarming. Both engines are iron blocks with aluminum heads.

The cooling system is the stock 7 blade clutch fan, stock chevelle big block fan shroud, and a Griffin 2 row radiator with 1.5" tubes. Nothing fancy at all.

__________________
2019 Pontiac Heaven class winner

https://youtu.be/XqEydRRRwqE
The Following User Says Thank You to Formulajones For This Useful Post:
  #40  
Old 09-26-2024, 08:22 AM
Formulajones's Avatar
Formulajones Formulajones is online now
Ultimate Warrior
 
Join Date: Jan 2012
Posts: 11,226
Default

Dad's Goat is another example where a big engine making good HP doesn't run hot either. His 571 honestly doesn't run any hotter than all the 455's he had in the car previously. In fact I think his engine is one of the happiest big inch motors I've ever messed with as far as temperatures, fuel mileage, and street manors go. That thing when it decided to have a starter issue, sat in the staging lanes running for at least a 1/2 hour before he made a pass and it was over 100 degrees outside. It held steady in the 170's. Also a 7 blade clutch fan with stock shroud using a Cold Case radiator.


As long as an engine is built properly with compression and camshaft that plays well together so the engine works efficiently, and tuned properly with a good ignition curve setup, there is really no reason it should be running hot even with stock cooling system parts.

From what I've seen and had experience with where people seem to get into trouble is thinking they have a happy engine with a good timing curve so they go chasing cooling system mods with fancy electric fans and start to go down a rabbit hole spending a bunch of money that doesn't solve their problem and get frustrated. Most of the cars I've had my hands on needed a complete distributor revamp with a vacuum advance that actually works, which solved other issues they also complained about.

__________________
2019 Pontiac Heaven class winner

https://youtu.be/XqEydRRRwqE

Last edited by Formulajones; 09-26-2024 at 08:29 AM.
The Following User Says Thank You to Formulajones For This Useful Post:
Reply

Thread Tools
Display Modes

Posting Rules
You may not post new threads
You may not post replies
You may not post attachments
You may not edit your posts

BB code is On
Smilies are On
[IMG] code is On
HTML code is Off

Forum Jump


All times are GMT -4. The time now is 11:12 AM.

 

About Us

The PY Online Forums is the largest online gathering of Pontiac enthusiasts anywhere in the world. Founded in 1991, it was also the first online forum for people to gather and talk about their Pontiacs. Since then, it has become the mecca of Pontiac technical data and knowledge that no other place can surpass.

 




Copyright © 2017