Flogen
In Honor of Nobel Laureate Prof. M Stanley Whittingham
Logo

Banner

Abstract Submission Open ! About 500 abstracts submitted from around 60 countries.


Featuring many Nobel Laureates and other Distinguished Guests

Back
    METHODS FOR PREDICTING PRODUCED SAND OF AN OIL WELL
    Laura Garzon1;
    1UNIVERSIDADE FEDERAL DO PARá (UFPA), Belem, Brazil;
    PAPER: 37/Energy/Regular (Oral) OL
    SCHEDULED: 18:15/Tue. 28 Nov. 2023/DiscoRoom



    ABSTRACT:
    To initiate oil production from an oil well, a connecting channel is required between the reservoir formations and the wellbore. In cased hole completions, this connecting channel is provided by perforation, and in uncased hole completions, this connecting channel is provided by an open hole through which oil can flow from the oil reservoir formations to the oil well bore. If these formations are permeable with high permeability, oil can flow easily through the sand into production wells. These produced fluids may carry entrained therein sand, particularly when the subsurface formation is unconsolidated. Nevertheless, produced sand is undesirable for many reasons; when it reaches the surface, sand can damage equipment such as valves, pipelines, pumps and separators and for that must be removed from the produced fluids at the surface. Further, the produced sand may partially or completely clog the well, substantially lead to poor performance in wells and, ultimately, inhibiting production, thereby making necessary an expensive work-over. In addition, the sand flowing from the subsurface formation may leave therein a cavity which may result in caving of the formation and collapse of the casing. One of the challenges faced by oil and gas companies in the wells workover and production operations is the produced sand associated with oil produced. The ability to predict the production of sand for oil wells of a reservoir with the aim of deciding to use different methods of its control is considered a fundamental issue. Therefore, analyzing and examining sand production conditions and choosing the optimal drilling route before drilling a well are very relevant aspects that are not receiving enough attention. Also, in conditions where sand production is unavoidable, it is imperative to choose the right sand control method and wellbore design. For instance, a reliable and adequate prediction of whether the well is sanded or not and the decision whether or not to install packers inside the wellbore is highly important. If the phenomenon of sand production occurs and packers are not installed to prevent sand production, problems will increase along with sand production. In general, the aim of this paper is to review different methods of predicting sand production such as laboratory, field, theoretical and experimental methods that have been used in different parts of the world.

    References:
    1- Abass H.H., A.H. Habber, A. Shebatalhamd, "Sand control during drilling, perforation, completion and production", SPE 81492, (2003)
    2- Goodman R. E. (1989) "Introduction to Rock Mechanics", 2nd edn. John Wiley,Chichester
    3- Hall, C.D., Harrisberger,W.H. "Stability of sand arches: A key to sand control". J. Petr. Tech.22, 821– 829. (1970)
    4- Haugen, K., Kvernvold, O., Ronold, A., Sandberg, R. (1995). "Sand erosion of wear resistant materials: Erosion in choke valves". Wear 186–187, 179–188.
    5- Van den Hoek, P.J., Hertogh, G.M.M., Kooijman, A.P., de Bree, Ph., Kenter, C.J., Papamichos, E. (2000a). "A new concept of sand production prediction: theory andlaboratory experiments". SPE Drilling & Completion 15, 261–273.
    6- Morita, N. (1994), "Field and laboratory verification of sand-production prediction models", SPE Drilling & Completion 9, 227–235.
    7- Morita, N., Whitfill, D.L., Massie, I., Knudsen, T.W. (1989a). “Realistic sand production prediction: Numerical approach”. SPE Production Eng. 4, 15–24.
    8- Risnes, R., Bratli, R.K., Horsrud, P. (1982). “Sand stresses around a wellbore”. Soc.Petr. Eng. J. 22, 883–898.
    9- Skjærstein, A., Tronvoll, J., Santarelli, F.J., Jøranson, H. (1997). “Effect of water breakthrough on sand production: experimental and field evidence”. SPE38806. In: SPE ATCE, San Antonio, TX, October 5–8.
    10- Han, G., Dusseault, M.B. (2002). “Quantitative analysis of mechanisms for water related sand production”. SPE73737. In: SPE International Symposium on Formation Damage Control, Lafayette, LA, February 20–21.
    11- Tronvoll, J., Dusseault, M.B., Sanfilippo, F., Santarelli, F.J. (2001), “The tools of sand management”, SPE71673. In: SPE ATCE, New Orleans, LA, September 30–October 3.
    12- Tronvoll, J., Fjær, E. (1994), “Experimental study of sand production from perforation cavities”, Int. J. Rock Mech. Min. Sci. Geomech. Abstr. 31, 393–410.
    13- Bouhroum, A., & Civan, F., "A Critical Review of Existing Gravel-Pack Design Criteria," Journal of Canadian Petroleum Technology, Vol. 34, No. 1, 1995, pp. 35-40.
    14- Geilikman, M. B., Dusseault, M. B., & Dullien, F. A. L., "Sand Production as a Viscoplastic Granular Flow," SPE 27343 paper, SPE International Symposium onFormation Damage Control, February 9- 10, 1994, Lafayette, Louisiana, pp. 41-50.
    15- Hayatdavoudi, A., "Formation Sand Liquefaction: A New Mechanism for Explaining Fines Migration and Well Sanding," SPE 52137 paper, SPE Mid-Continent Operations Symposium, March 28-31, 1999, Oklahoma City, Oklahoma, pp. 177-180.
    16- Saucier, R. J., "Successful Sand Control Design for High Rate Oil and Water Wells, "J. of Petroleum Technology, Vol. 21, 1969, p. 1193.
    17- Saucier, R. J., "Considerations in Gravel-Pack Design," J. of Petroleum Technology, Vol. 26, 1974, p. 205.
    18- Skjaerstein, A., & Tronvoll, J., "Gravel Packing: A Method of Wellbore Re-enforcement or Sand Filtering?," SPE 37506 paper, SPE Production Operations Symposium, March 9-11, 1997, Oklahoma City, Oklahoma, pp. 871-879.
    19- Tiffin, D. L., King, G. E., Larese, G. E., & Britt, R. E., "New Criteria for Gravel and Screen Selection for Sand Control," SPE 39437 paper, SPE Formation Damage Control Conference, February 18-19, 1998, Lafayette, Louisiana, pp. 201-214.
    20- Penberthy, W.L. and Shaughnessy, C.M., "Sand Control", SPE Series on Special Topics, Volume 1, 1992.
    21- Suman, G.O. Jr., Ellis, R.C., and Snyder, R.E., "Sand Control Handbook", Second Edition, Gulf Publishing Company, Houston, Texas, 1991.
    22- Sparlin, D.D., “Sand and Gravel - A Study of Their Permeabilities”, SPE Paper 4772, SPE Symposium on Formation Damage Control, New Orleans, Louisiana, February 7-8,1974.
    23- Ledlow, L.B., "High-Pressure Packing With Water: An Alternative Approach to Conventional Gravel Packing", SPE Paper 26543, SPE 68th Annual Technical Conference and Exhibition, Houston, Texas, October 3-6,1993.
    24- Wong, G.K., Fors, R.R., Casassa, J.S., and Hite, R.H., “Design, Execution, and Evaluation of Fracture and Pack (F&P) Treatments in Unconsolidated Sand Formations in the Gulf of Mexico”, SPE 26563, 68th Annual Technical Conference and Exhibition, Houston, TX, 3 - 6 October, 1993.