Page 463 - Air and Gas Drilling Manual
P. 463
,
1 826 6 .
.
.
0 426
19 47)
519 67
,
.
V
i1 381 868 537 66 (. Chapter 9: Aerated Fluid Drilling 9-67
2
.
0 319
4
.
V i1 654 ft/sec
Using Equation 6-83, the Reynolds number of the aerated drilling fluid as it
enters this drill string section, N Ri2, is
6
0
(.54 ) ( .319 )
N Ri1
. 0 000259
,
N Ri1 8 056
The Reynolds number calculation above is greater than 4,000. This indicates that
the flow condition is turbulent. Therefore, the empirical von Karman equation (i.e.,
Equation 6-86) is used to determine the approximate Fanning friction factor for the
aerated fluid flow inside this drill string section.
The inside surface of the drill pipe tool joints is commercial steel with the
surface roughness
.
e p 0 00015 ft
With the above, Equation 6-86 becomes
2
1
f i1 0 319
.
.
2 log 114
0 00015
.
f i1 0 016
.
Equation 6-82 for the first increment inside the drill string can be solved for the
pressure at the top of the increment, P in. This involves selecting this lower limit by
a trial and error procedure. The magnitude of the lower limit pressure on the left
side of the equation is selected to allow the left side integral to equal the right side
integral. The integration can be carried out on the computer using one of the
commercial analytic software programs. The trial and error magnitude of the lower
limit pressure is
p in 236 6 psia
.

