66 New 351w
New member
I just recently modified my 66 from 6cyl stick to 351W w/C4
All new components except for reman 351W from S&S engines in Spokane Wa.
Started and runs great, only it overheats rapidly and I have some combustion (hydrocarbons) in the coolant along with visible bubbles.
Have not even been able to drive yet due to this problem.
I just pulled heads and sent to local machine shop my company deals with. They pressure checked and magnafluxed and cannot find anything wrong with the heads.
Head gaskets were installed correctly, square corner up front on both sides. nothing visible that would indicate anything not sealed or leaking.
I've searched the internet for overheating problems and have addressd, I believe all.
I have a standard rotation flowcooler hi flow water pump, it is working well, with good flow.
New 4 core radiator, Hayden high preformance std rotation fan.
March serpetene belt for waterpump/alternator, again this is turning standard rotation, not counterclockwise like a "full serpentene set up"
Pump and fan have good speed and volume.
Typhoon high rise manifold which has a rear coolant passage, which most after market manifolds don't have.
I tried a standard 180 thermostat, then heard about problems with high flow water pumps, so changed to special 160 thermostat designed for high flow pumps. I also tried no thermostat thinking there may have been a air pocket, no change, same results.
I'm thinking about making the small water port holes in the new head gasket larger to allow more coolant flow. (ANY IDEAS, OR HAS ANYONE TRIED THIS BEFORE)
I understand from the internet chat that this and many Ford engines specifically have the larger front block/head coolant passages blocked so that the coolant flows to the rear of the engine up, then eventually out through the thermostat neck to the radiator.
I used a infered thermometer to track temp as well as a mechanical guage. Ideling for 10 to 15 minutes with get the block temp to 240 or so and while the 13 LB radiator cap was on, blew out my heater core. Radiator is working and coolant temp is dropping about 20 - 30 degrees at the bottom of the radiator.
I let the engine run for a while longer with cap off and created old faithful gyser and spewed out at least 1/2 the coolant/water mixture.
That is when I decided to pull the heads.
One thing I have installed and not thought to much about is the stainless steel upper radiator hose, looks awesome, but man is it hot and will easily burn when hot. The ridges may be holding air trapped in the upper part of the stainless steel flexible hose, is about the only thing that I can see that may somehow be trapping air.
I'm also going to add a tee into the rear of the intake manifold and have it return into the heater core return hose. This is a tip I gleaned from the internet chats.
I'll welcome ideas and or suggestions.
Thanks
All new components except for reman 351W from S&S engines in Spokane Wa.
Started and runs great, only it overheats rapidly and I have some combustion (hydrocarbons) in the coolant along with visible bubbles.
Have not even been able to drive yet due to this problem.
I just pulled heads and sent to local machine shop my company deals with. They pressure checked and magnafluxed and cannot find anything wrong with the heads.
Head gaskets were installed correctly, square corner up front on both sides. nothing visible that would indicate anything not sealed or leaking.
I've searched the internet for overheating problems and have addressd, I believe all.
I have a standard rotation flowcooler hi flow water pump, it is working well, with good flow.
New 4 core radiator, Hayden high preformance std rotation fan.
March serpetene belt for waterpump/alternator, again this is turning standard rotation, not counterclockwise like a "full serpentene set up"
Pump and fan have good speed and volume.
Typhoon high rise manifold which has a rear coolant passage, which most after market manifolds don't have.
I tried a standard 180 thermostat, then heard about problems with high flow water pumps, so changed to special 160 thermostat designed for high flow pumps. I also tried no thermostat thinking there may have been a air pocket, no change, same results.
I'm thinking about making the small water port holes in the new head gasket larger to allow more coolant flow. (ANY IDEAS, OR HAS ANYONE TRIED THIS BEFORE)
I understand from the internet chat that this and many Ford engines specifically have the larger front block/head coolant passages blocked so that the coolant flows to the rear of the engine up, then eventually out through the thermostat neck to the radiator.
I used a infered thermometer to track temp as well as a mechanical guage. Ideling for 10 to 15 minutes with get the block temp to 240 or so and while the 13 LB radiator cap was on, blew out my heater core. Radiator is working and coolant temp is dropping about 20 - 30 degrees at the bottom of the radiator.
I let the engine run for a while longer with cap off and created old faithful gyser and spewed out at least 1/2 the coolant/water mixture.
That is when I decided to pull the heads.
One thing I have installed and not thought to much about is the stainless steel upper radiator hose, looks awesome, but man is it hot and will easily burn when hot. The ridges may be holding air trapped in the upper part of the stainless steel flexible hose, is about the only thing that I can see that may somehow be trapping air.
I'm also going to add a tee into the rear of the intake manifold and have it return into the heater core return hose. This is a tip I gleaned from the internet chats.
I'll welcome ideas and or suggestions.
Thanks
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