Independent Flow Test of Heads
#1
Independent Flow Test of Heads
There is a shop down here called Kim Barr Racing (no I personally have no affiliation with them in anyway) that I probably could get to independently test the different vendors heads. He has a SuperFlow 600 bench. I would be more than willing to pay for these tests and then post the results back here.
I am not sure this is a practical idea though since ideally we would want to send them a head that one of us has received from one of the vendors and NOT have the head sent directly from the vendor to the flow shop. Then we would want to test the heads using maybe a 3.905 bore and then the larger bores as well.
Obviuosly we would like to get heads from TEA, GTP, PP, Absolute, AFR (fat chance!! lol) and others.
So what do you think guys, you think we could make this work???
I am not sure this is a practical idea though since ideally we would want to send them a head that one of us has received from one of the vendors and NOT have the head sent directly from the vendor to the flow shop. Then we would want to test the heads using maybe a 3.905 bore and then the larger bores as well.
Obviuosly we would like to get heads from TEA, GTP, PP, Absolute, AFR (fat chance!! lol) and others.
So what do you think guys, you think we could make this work???
#3
I think it's a great idea! But total cfm's don't tell all. I would like to see all the mentioned heads on the same car, in the same shop, on the same dyno, with the same cam!! That would be THE best true test. It could be done. I also agree that they should be a real set of heads. ( not a SPECIAL set) Who's game for that? That would end all BS!
#4
Originally Posted by monkeyboy
what would the point be? who has better heads or if they flow as advertised?
#5
Originally Posted by LASTLS1
I think it's a great idea! But total cfm's don't tell all. I would like to see all the mentioned heads on the same car, in the same shop, on the same dyno, with the same cam!! That would be THE best true test. It could be done. I also agree that they should be a real set of heads. ( not a SPECIAL set) Who's game for that? That would end all BS!
Huge high flowing inlet runners without measuring the airspeed can also flow backward.. that will give the engine a pump loss.. The fuel/air will change direction very fast and bounce back and forward inside the runner.
High airspeed will make it harder for the fuelmix to change direction and blow out the same way it came in. The mix will also be in movement even after the piston starting to return up again.
The key is less backpuls and a High velocity port, Not high flowing only
#6
Originally Posted by ZoDDy
I must agree on that, CFM in a flow bench not telling the full story. High flowing heads can do really bad in "the real life"
Huge high flowing inlet runners without measuring the airspeed can also flow backward.. that will give the engine a pump loss.. The fuel/air will change direction very fast and bounce back and forward inside the runner.
High airspeed will make it harder for the fuelmix to change direction and blow out the same way it came in. The mix will also be in movement even after the piston starting to return up again.
The key is less backpuls and a High velocity port, Not high flowing only
Huge high flowing inlet runners without measuring the airspeed can also flow backward.. that will give the engine a pump loss.. The fuel/air will change direction very fast and bounce back and forward inside the runner.
High airspeed will make it harder for the fuelmix to change direction and blow out the same way it came in. The mix will also be in movement even after the piston starting to return up again.
The key is less backpuls and a High velocity port, Not high flowing only
#7
If your into it, then go for it. The data would be intresting. But I think that donated heads are more realistic. Get folks to send you their heads benchmark them and send them back. Make them pay for the shipping, but get your shop guy to give them a good deal on the superflow time. That way you dont have to pay and you get more realistic data IMO. At least this way the data is real world and not the best tricked out heads a vendor has.
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#8
Originally Posted by ZoDDy
I must agree on that, CFM in a flow bench not telling the full story. High flowing heads can do really bad in "the real life"
Huge high flowing inlet runners without measuring the airspeed can also flow backward.. that will give the engine a pump loss.. The fuel/air will change direction very fast and bounce back and forward inside the runner.
High airspeed will make it harder for the fuelmix to change direction and blow out the same way it came in. The mix will also be in movement even after the piston starting to return up again.
The key is less backpuls and a High velocity port, Not high flowing only
Huge high flowing inlet runners without measuring the airspeed can also flow backward.. that will give the engine a pump loss.. The fuel/air will change direction very fast and bounce back and forward inside the runner.
High airspeed will make it harder for the fuelmix to change direction and blow out the same way it came in. The mix will also be in movement even after the piston starting to return up again.
The key is less backpuls and a High velocity port, Not high flowing only
Well guys they have an ENGINE dyno as well. The only problem with that is it would cost $100.00 for each time you change the heads out for JUST the gaskits and then you would have to use a new set of torque to yield head bolts for each head change. I could call HOT ROD and see if they would want to participate in this I suppose. I do agree that an ENGINE test would be better than just flowing the heads but then it becomes much more complex.
#9
Originally Posted by sr71bb
The point is you have an accurate unbiased comparison of the heads to each other on the same flow bench.
#10
Originally Posted by Brian Tooley
Interesting, my 9 sec C5 had 5.3 heads with 2.02,1.55 valves, 225cc intake ports and small exhaust ports, I then put a head on with 2.05/1.60 valves 232cc intake ports and huge nitrous exhuast ports and it made 15 lb ft more torque everywhere on motor and 90 RWHP more on the same shot of spray, why did this huge nitrous head make more power on motor, everywhere??
#11
ARP head studs, and 50 bucks a set for feloro head gaskets. It would be a huge pain in the ***. Why would someone ship their heads out at their expense and risk damage to their heads, when they could just flow them localy for 60 bucks.
#12
Originally Posted by strokedls1
ARP head studs, and 50 bucks a set for feloro head gaskets. It would be a huge pain in the ***. Why would someone ship their heads out at their expense and risk damage to their heads, when they could just flow them localy for 60 bucks.
#13
Originally Posted by critter
So your setup (cam, headers, tune, etc) liked the larger heads. They might have slowed my 12 second car. Neither of us knows for sure. We can only guess.
#14
Originally Posted by critter
So your setup (cam, headers, tune, etc) liked the larger heads. They might have slowed my 12 second car. Neither of us knows for sure. We can only guess.
#15
I propsed this idea over a year ago. The problems are vendors not send a set of "ringer" heads, also just getting everyone to agree to send stuff. Also getting someone who knows what they are looking at to make a judgement on whats best. The other problem is not having a shop simply copy the heads. There were numerous issues, and no one was really interested...
#17
Originally Posted by J-Rod
I propsed this idea over a year ago. The problems are vendors not send a set of "ringer" heads, also just getting everyone to agree to send stuff. Also getting someone who knows what they are looking at to make a judgement on whats best. The other problem is not having a shop simply copy the heads. There were numerous issues, and no one was really interested...
#19
Originally Posted by Brian Tooley
Interesting, my 9 sec C5 had 5.3 heads with 2.02,1.55 valves, 225cc intake ports and small exhaust ports, I then put a head on with 2.05/1.60 valves 232cc intake ports and huge nitrous exhuast ports and it made 15 lb ft more torque everywhere on motor and 90 RWHP more on the same shot of spray, why did this huge nitrous head make more power on motor, everywhere??
You can trick the airflow to flow differently and this way gain some extra power..
Your valves might be bigger and so is the inlet. But it depends on where you have removed the material inside the runner.
Intake generated swirling flow may be created by special designs of intake port or by covering up part of the peripheral valve opening area..
In other words, a tiny change in your head config. can make or break the performance.
What i mean is your heads breathe much better now without loosing the airspeed inside the inlet runner... Next time you remove your heads, try to measure where the port is enlarged? probably itīs enlarged directly under the valve seat In the bowl..
#20
Originally Posted by ZoDDy
Well. I guess the heads you using now have a better runners more suited for the CUI and engine rev. Something has changed The larger intake valve maybe give you some mask effect and helping your heads to create a better vortex or tumbling effect inside the cylinder.
You can trick the airflow to flow differently and this way gain some extra power..
Your valves might be bigger and so is the inlet. But it depends on where you have removed the material inside the runner.
Intake generated swirling flow may be created by special designs of intake port or by covering up part of the peripheral valve opening area..
In other words, a tiny change in your head config. can make or break the performance.
What i mean is your heads breathe much better now without loosing the airspeed inside the inlet runner... Next time you remove your heads, try to measure where the port is enlarged? probably itīs enlarged directly under the valve seat In the bowl..
You can trick the airflow to flow differently and this way gain some extra power..
Your valves might be bigger and so is the inlet. But it depends on where you have removed the material inside the runner.
Intake generated swirling flow may be created by special designs of intake port or by covering up part of the peripheral valve opening area..
In other words, a tiny change in your head config. can make or break the performance.
What i mean is your heads breathe much better now without loosing the airspeed inside the inlet runner... Next time you remove your heads, try to measure where the port is enlarged? probably itīs enlarged directly under the valve seat In the bowl..