In the stock configuration they come on the same time/temp as everyone elses. 228-30 then approx 238 for the HD, and that also has a manual over-ride switch that can be activated anytime. The HD fan is used more to keep the condensor from over-heating.
In the performance configuration (my non-stock engine) the main comes on at 185 then off at 166 with the custom prom that was made. The fuel/timing curves were also set in THAT prom to take advantage of the lower temps. The key to stable engine temps is a thermostat that matches fan activation. The key to acceptable "normal operating temps" is having the ability to remove heat faster than it can be generated.
The problem is, that the bigger engine generates more heat than the system can exchange.
Again, it is BY FAR easier to keep something cool than it is to cool it down after it has over-heated.
I can get my fans on anytime. Thats not rocket science. But when heat is being placed into the system faster than it can be removed, THAT is my problem. Once mine gets to 230+ degrees, its not going back down easily. Bigger engines create more heat.
I am using the brass single row radiator because its tanks are bigger and it holds more coolant. The theory being that the coolant only gets cooled when its in front of the fan...so when there is more coolant in the radiator, there should be more heat being removed. It does a better job than the stock radiator with its tiny plastic tanks. But,Thats not good enough. There needs to be more heat exchange from airflow.
I've been driving c-4's since 1987 and have been 'round the block with these issues. I do KNOW that a better water pump is part of the solution. Thats on the shopping list. The Edlebrock aluminum body/cast impeller is a wonderful unit. Expensive, but it circulates water at idle like the stock pump does at 3000 rpm.
The limited space ahead of the condensor does not allow for a fan that has direct flow to the radiator. You cannot fit a fan between the condensor and radiator. Believe me, I've tried.
The C-4 radiator gets half of its fresh air thru the baffles that go around the condensor. The same route that trash will take. The HD fan does not have enough force to push lots of air to those side baffles because it is not in a shroud. I wish it were.
So, the main sucker fan is 95% of the cooling efficiency and that is all about having enough airflow (due to the nice tight shroud) to collect heat and remove it. I need more heat exchange surface OR more air to move thru the current amount of surface area. Thats why I ask about how well 2 or 3 row radiators actually work.
Increased vehicle speed MAY create more airflow, but it ALSO generates more heat by increased engine effort. My engine heat shoots upward above a consistant 2500 rpm.The system will keep up when the ambient temps are 85 or less. Otherwise, temps go up and stay up. And yes, the air-dam is fine.
heat exchange is what I'm interested in. Either a more efficient exchanger or better airflow. Air will be tougher to get because there is limited space for a bigger fan and GM did an excellent job designing the main fan and its shroud. It's as efficient as that amount of space will permit for a fan.
So, there is nothing "wrong"...its just not good enough. After having wrecked heads 2 times in the past from over-heating incidents, I am not willing to accept 230 degrees with the zero tolerance for error that 230+ offers.
AT 250 degrees and rising, you're going to start doing damage to something either by the heat or from coming down from that temp. Believe me, when cruising @ 230 and you blow a big hose, it takes 5 seconds to hit 250+ at freeway speeds. Stuck in heavy traffic on an overpass? You;re toast.
Temps above that are fatal to dry aluminum heads. been there, done that.
All I want is a stable operating temp thats not lower than 185 and not higher that 210. Right around 195-200 in the summer would be friggin fantastic. 210 would even be acceptable.
