Case Study: Performance Prediction of a Horizontal Well in a Fractured Reservoir
 |
International Journal of Engineering Trends and Technology (IJETT) | 
|
| © 2016 by IJETT Journal | ||
| Volume-40 Number-2 |
||
| Year of Publication : 2016 | ||
| Authors : A. Jahanbani G., S. R. Shadizadeh, T. A. Jelmert, O. Torsæter, M. Moradi |
||
| DOI : 10.14445/22315381/IJETT-V40P219 |
Citation
A. Jahanbani G., S. R. Shadizadeh, T. A. Jelmert, O. Torsæter, M. Moradi"Case Study: Performance Prediction of a Horizontal Well in a Fractured Reservoir", International Journal of Engineering Trends and Technology (IJETT), V40(2),110-113 October 2016. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group
Abstract
Investigation of the rate-pressure
behaviour of oil wells is of great importance in well
performance evaluation and optimization. Several
authors reported that for horizontal wells, the shape
of the inflow performance relationship (IPR) curves
is similar to those predicted by the Vogel or
Fetkovich methods or a combination of them.
However, the complex flow regime existing around a
horizontal well precludes using simple empirical
methods that are limited in applications. This paper
presents an analytical approach for determination of
inflow performance for horizontal wells in fractured
reservoirs producing during the boundary
dominated flow regime using the results of well test
analysis. The proposed method, which is an
extension of a general approach previously
presented by the authors, is then applied to an
example horizontal well in a naturally fractured
reservoir. The developed IPR curve is then
compared with selected methods of horizontal well
performance analysis. Results of comparison show
that this study is in good agreement with Joshi
method which is a widely accepted method.
References
[1] H. H. Evinger and M. Muskat, “Calculation of theoretical
productivity factor,” Trans. AIME, vol. 146 (1), pp. 126–
139, 1942.
[2] M. B. Standing, “Concerning the calculation of inflow
performance of wells producing from solution-gas drive
reservoirs,” Journal of Petroleum Technology, vol. 23 (9),
pp. 1141–1142, 1971.
[3] M. J. Fetkovich, “The isochronal testing of oil wells,” in
SPE 48th Annual Meeting, Las Vegas, Nevada, 30
September – 3 October, 1973, paper SPE 4529.
[4] M. Golan and C. H. Whitson, Well Performance, Second
Edition, Trondheim, Norway: Tapir Publishing Company,
1996.
[5] J. V. Vogel, “Inflow performance relationship for solutiongas
drive wells,” Journal of Petroleum Technology, vol. 20
(1), pp. 83–92, 1968.
[6] A. Jahanbani G. and S. R. Shadizadeh, “Determination of
Inflow Performance Relationship (IPR) by Well Testing,”
in CIPC (Canadian International Petroleum Conference)
Annual Technical Meeting of the Petroleum Society,
Calgary, Alberta, Canada, 16 – 18 June, 2009, paper CIPC
2009-086.
[7] A. Jahanbani G. and S. R. Shadizadeh, “Determination of
the Inflow Performance Relationship in Naturally
Fractured Oil Reservoirs: Analytical Considerations,”
Energy Sources, Part A: Recovery, Utilization, and
Environmental Effects, vol. 35 (8), pp. 762-777, 2013.
[8] A. de Swaan O., “Analytic solutions for determining
naturally fractured reservoir properties by well testing,”
SPE Journal, vol. 16, pp. 117–122, 1976.
[9] T. D. Van Golf-Racht, Fundamentals of Fractured
Reservoir Engineering, Amsterdam, Netherlands: Elsevier
Scientific Publishing Company, 1982.
[10] R. Aguilera, “Well test analysis of naturally fractured
reservoirs,” SPE Formation Evaluation, vol. 2 (3), pp.
239–252, 1987.
[11] W. E. Brigham, “Discussion of Productivity of a
Horizontal Well,” SPE Reservoir Engineering, vol. 4 (4),
pp. 254-255, 1990.
[12] A. Jahanbani G., “Determination of IPR Curve by Well
Testing,” Master of Science dissertation, Petroleum
University of Technology, Tehran, Iran, December 2008.
[13] J. P. Borisov, Oil Production Using Horizontal and
Multiple Deviation Wells, Moscow, Russia: Nedra
Publishing Company, 1964.
[14] S. D. Joshi, “Augmentation of Well Productivity with Slant
and Horizontal Wells,” Journal of Petroleum Technology,
vol. 40 (6), pp. 729-739, 1988.
Keywords
Inflow Performance Relationship, Well
Test Analysis, Pseudo Steady State, Horizontal Well,
Naturally Fractured Reservoir.