You don't need a degree to know that as the flow in any diameter of tube increases, the friction of the fluid againt the inside of the tube increases. The smaller the diameter of the tube for the same volume means more friction, less total flow with everything else being the same. Increasing the diameter of the tube will slow the speed of the flow causing less friction for the same volume thus increasing the amount of fluid that will pass through the tube. A tube too large will be affected more by the acceleration, deacceleration and the G forces in the turns as it has more fuel weight inside of the tube at any given time. Just my $1.02 worth. (Inflation don't you know)
100% true,,,,BUT--If the friction of the fuel moving thru the line is high enough to cause a problem then the line it self has become the restriction not the needle.
All of this means nothing to the needle valve,,,
THE WHOLE POINT I HAVE SAID FROM THE START IS:
IF the line size from the tank to the valve is big enough to handle the MAXIMUM flow of the needle setting
then a LARGER line size will do nothing to improve flow at static pressue.lets leave all pipe pressure out of the mix for now,,and compare apples to apples,,
Lets look at it another way,,,,if you took a piece of brass round stock and drilled a .015 hole thru it and connected it to a 1/8 inch fuel line and a gallon of fuel,,,it would drain out at the rate of the .015 hole,,,,if you connected it to a 1/2 garden hose and repeated the process it is still going to drain out at the rate of the .015 hole.
The size of the hose supplying the fuel does not matter as long as all other test elements remain equal.
it would be the same as if you poked a .015 hole in the jug,,
Andy ,I did agree that the test of attaching the fuel line straight to the carb proves that the pickup and lines were to small. because the motor still went lean ,,with no restrictions in the line. I just don't buy that once you have established that the line supplying fuel to the valve is OK then a LARGER line will do anything,,down stream of the valve,,yeah it can make a big difference due to volume change.
To all on the board,,I have worked in the refrigeration field for over 30 years,,and I'm not talkin' domestic refrigerators,,I'm talkin large commercial refrigeration racks and large industrial stuff with 600 hp Frick screws. I have seen my share of BAD piping and problems caused by poor design. I have been involed with solving flow isssues due to undersized lines , lift (head ), oversized lines, lines with to long of a run for the size of the pipe and on and on and on.
I've solved flow issues on refrigerant and water alike,,,and one thing has alway's remained a constant,,,
You can only flow the maximum flow as the smallest fitting in the system will allow. Period. I don't care what size line is connected to it. I'm still waiting for someone here to disprove this,,,,
Flame away,,,
Start on the first bump almost every time.
