A major concern in drilling operations is the proper determination of frictional pressure loss in order to select a mud pump and avoid any serious problems. In this study, a mechanistic model is proposed for predicting the frictional pressure losses of light drilling fluid, which can be used for concentric annuli. The experimental data that were available in the literature and conducted at the Middle East Technical University-Petroleum Engineering (METU-PETE) flow loop as well as computational fluid dynamics (CFD) software are used to verify the results from the proposed mechanistic model. The results showed that the proposed model can estimate frictional pressure losses within a ±10% error interval when compared with the experimental data. Additionally, the effect of the pipe eccentricity on frictional pressure loss and tangential velocity using CFD for laminar and turbulent flow is also examined. It has been observed that pipe eccentricity drastically increases the tangential velocity inside the annulus; especially, the flow regime is turbulent and frictional pressure loss decreases as the pipe eccentricity increases.

Issue Section:
Petroleum Wells-Drilling/Production/Construction
Keywords:
finite difference methods, flow, Navier-Stokes equations, light drilling fluid, frictional pressure loss, concentric, eccentric, CFD, annulus, finite difference approximation
Topics:
Annulus, Computational fluid dynamics, Flow (Dynamics), Fluids, Pressure, Turbulence, Drilling, Geometry
1.
Hansen
,
S. H.
,
Rommetveit
,
R.
,
Sterri
,
N.
, and
Aas
,
B.
, 1999, “
A New Hydraulics Model for Slim Hole Drilling Applications
,” Presented at the
1999 SPE/IADC Drilling Conference
, Abu Dhabi, UAE, Nov. 8–10, Paper No. SPE/IADC 57579.
2.
McCann
,
R. C.
,
Quigley
,
M. S.
,
Zamora
,
M.
, and
Slater
,
K. S.
, 1993, “
Effects of High-Speed Pipe Rotation on Pressures in Narrow Annuli
,” Presented at the
1993 SPE/IADC Drilling Conference
, Amsterdam, The Netherlands, Feb. 22–25, Paper No. SPE 26343.
3.
Singhal
,
N.
,
Shah
,
S. N.
, and
Jain
,
S.
, 2005, “
Friction Pressure Correlations for Newtonian and Non-Newtonian Fluids in Concentric Annuli
,” Presented at the
2005 SPE Conference
, Oklahoma City, OK, Apr. 17–19, Paper No. SPE 94280.
4.
Azouz
,
I.
,
Shirazi
,
S. A.
,
Pilehvari
,
A. A.
, and
Azar
,
J. J.
, 1993, “
Numerical Simulation of Turbulent Flow in Concentric and Concentric Annuli
,” Paper presented at the
AIAA 24th Fluid Dynamics Conference
, Orlando, FL, Jul. 6–9.
5.
Reed
,
T. D.
, and
Pilehvari
,
A. A.
, 1993, “
A New Model for Laminar, Transitional and Turbulent Flow of Drilling Muds
,” Presented at the
Production Operations Symposium
, Oklahoma City, OK, Mar. 21–23, Paper No. SPE 25456.
6.
Siginer
,
D. A.
, and
Bakhtiyarov
,
S. I.
, 1998, “
Flow of Drilling Fluids in Concentric Annuli
,”
J. Non-Newtonian Fluid Mech.
0377-0257,
78
, pp.
119
132
.
Crossref
Search ADS
 
7.
Silva
,
M. A.
,
Shah
,
S. N.
, and
Jain
,
S.
, 2000, “
Friction Pressure Correlations for Newtonian and Non-Newtonian Fluids Through Concentric and Concentric Annuli
,” Presented at the
2000 SPE Conference
, Houston, TX, Apr. 5–6, Paper No. SPE 60720.
8.
Pina
,
E. P. F.
, and
Carvalho
,
M. S.
, 2006, “
Three-Dimensional Flow of a Newtonian Liquid Through an Annular Space With Axially Varying Concentricity
,”
ASME J. Fluids Eng.
0098-2202,
128
, pp.
223
231
.
Crossref
Search ADS
 
9.
Ahmed
,
R.
,
Miska
,
S.
, and
Miska
,
W.
, 2006, “
Friction Pressure Loss Determination of Yield Power Law Fluid in Eccentric Annular Laminar Flow
,” Weirtnictwo Nafta Gaz, TOM 23/1.
10.
Ozbayoglu
,
M. E.
, and
Sorgun
,
M.
, 2009, “
Frictional Pressure Loss Estimation of Non-Newtonian Fluids in Realistic Annulus With Pipe Rotation
,” Presented at the
2009 Canadian International Petroleum Conference (CIPC)
, Calgary, Alberta, Canada, Jun. 16–18.
11.
Iyoho
,
A. W.
, and
Azar
,
J. J.
, 1981, “
An Accurate Slot-Flow Model for Non-Newtonian Fluid Flow Through Concentric Annuli
,”
SPEJ
1086-055X,
21
, pp.
565
572
.
Crossref
Search ADS
 
12.
Haciislamoglu
,
M.
, and
Langlinais
,
J.
, 1990, “
Non-Newtonian Fluid Flow in Concentric Annuli
,”
ASME Energy Resources Conference and Exhibition
, New Orleans, pp.
115
123
.
13.
ANSYS CFX 8.0, Tutorial, Section Laminar to Turbulent Flow.
14.
Muralidhar
,
K.
, and
Biswas
,
G.
, 2005,
Advanced Engineering Fluid Mechanics
,
Alpha Science
,
Oxford, UK
.
15.
Bird
,
R. B.
,
Stewart
,
W. E.
, and
Lightfoot
,
E. N.
, 2002,
Transport Phenomena
,
Wiley
,
Hoboken, NJ
.
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