Horizontal wells are widely applied in the Bohai offshore oil fields due to their large oil drainage areas and high yields. However, water coning is a significant problem existing in water-driven reservoirs. To control water coning, this paper introduces a stinger completion method which can be applied in the horizontal wells. Based on the principle of mirror reflection and mass conservation law, a mathematical model coupling fluid flow both in the reservoir and in the horizontal wellbore has been developed. Using the new proposed model, the well production profile and bottom hole flowing pressure distribution along the horizontal well, considering the influence of flowing in the wellbore, are calculated successfully. Moreover, the influence of the stinger completion on the inflow profile is investigated. According to the results of the sensitivity analysis, a 160 m’ 2-7/8 tubing is designed to be built in the horizontal section. The field-test results show that the stinger completion could be used to improve the wellbore inflow profile and decrease the possibility of water-cut thus increasing the effective enhanced oil recovery (EOR).

Cited as: Shang, B., Han, X., Li, S., Liu, K. Research of water control technology for horizontal wells in water-driven reservoirs. Advances in Geo-Energy Research, 2018, 2(2): 210-217, doi: 10.26804/ager.2018.02.08

Abdulmohsin, I., Wang, Z., Bai, B. The plugging performance of preformed particle gel to water flow through large opening void space conduits. J. Pet. Sci. Eng. 2017, 156: 51-61.

Adesina, F., Paul, A., Oyinkepreye, O., et al. An improved model for estimating productivity of horizontal drain hole. Paper SPE 184264 Presented at SPE Nigeria Annual International Conference and Exhibition, Lagos, Nigeria, 2-4 August, 2016.

Amini, S., Valk ´o, P.P. Using distributed volumetric sources to predict production from multiple-fractured horizontal wells under non-Darcy-flow conditions. SPE J. 2010, 15(1): 105-115.

Augustine, J.R. An Investigation of the economic benefit of inflow control devices on horizontal well completions using a reservoir-wellbore coupled model. Paper SPE 78293 Presented at European Petroleum Conference, Aberdeen, United Kingdom, 29-31 October, 2002.

Augustine, J.R., McIntyre, A., Adam, R.J., et al. Increasing oil recovery by preventing early water and gas breakthrough in a west brae horizontal well: A case history. Paper SPE 99718 Presented at SPE /DOE Symposium on Improved Oil Recovery, Tulsa, Oklahoma, USA, 22-26 April, 2006.

Brekke, K., Lien, S.C. New and simple completion methods for horizontal wells improve production performance in high-permeability, thin oil zones. SPE Drill. Completion 1994, 9(3): 205-209.

Cheng, L., Lan, J. The method of reservoir numerical simulation when considering the pressure drop alone the horizontal well-bore. Acta Petrolei Sinica 2002, 23(1): 67-71. (in Chinese)

Fu, L., Zhang, G., Ge, J., et al. Study on a new water-inhibiting and oil-increasing proppant for bottom-water-drive reservoirs. J. Pet. Sci. Eng. 2016, 145: 290-297.

Furui, K., Zhu, D., Hill, A.D. A rigorous formation damage skin factor and reservoir inflow model for a horizontal well. SPE Prod. Fac. 2002, 18(3): 151-157.

Gomez, M., Anaya, A.F., Araujo, Y.E., et al. Passive inflow control device (ICDs) application in a horizontal wells completions in the rubiales area heavy-oil reservoir. Paper SPE 171040 Presented at the SPE Heavy and Extra Heavy Oil Conference: Latin America, Medll´ın, Colombia, 24-26 September, 2014.

Hasan, A.R., Kabir, C.S. Modeling two-phase fluid and heat flows in geothermal wells. J. Pet. Sci. Eng. 2009, 71(1-2): 77-86.

Hill, A.D., Zhu, D. The relative importance of wellbore pressure drop and formation damage in horizontal wells. Paper SPE 100207 Presented at the SPE Europec/EAGE Annual Conference and Exhibition, Vienna, Austria, 12-15 June, 2006.

Jansen., J.D. A semianalytical model for calculating pressure drop along horizontal wells with stinger completions. SPE J. 2003, 8(2): 138-146.

Jansen, J.D., Wagenvoor, A.M., Droppert, V.S., et al. Smart well solutions for thin oil rims: Inflow switching and the smart stinger completion. Paper SPE 77942 Presented at the SPE Asia Pacific Oil and Gas Conference and Exhibition, Melbourne, Australia, 8-10 October, 2002.

Johansen, T.E., Khoriakov, V. Iterative techniques in modeling of multi-phase flow in advanced wells and the near well region. J. Pet. Sci. Eng. 2007, 58(1-2): 49-67.

Khoriakov, V., Johansen, A.C., Johansen, T.E. Transient flow modeling of advanced wells. J. Pet. Sci. Eng. 2012, 86: 99-110.

Li, Z., Fernandes, P.X., Zhu, D. Understanding the roles of inflow-control devices in optimizing horizontal-well performance. SPE Drill. Completion 2011, 26(3): 376-385.

Liu, X., Guo, C., Jiang, Z., et al. The model coupling fluid flow in the reservoir with flow in the horizontal wellbore. Acta Petrolei Sinica 1999, 20(3): 82-86. (in Chinese)

Liu, X., Zhang, Z., Liu, X., et al. A model to calculate pressure drops of horizontal wellbore variable mass flow coupled with flow in a reservoir. Journal of Southwest Petroleum Institute 2000, 22(2): 36-39. (in Chinese)

Luo, W., Li, H., Wang, Y., et al. A new semi-analytical model for predicting the performance of horizontal wells completed by inflow control devices in bottom-water reservoirs. J. Nat. Gas Sci. Eng. 2015, 27: 1328-1339.

Ma, Y., Yi, X. A new discovery about inflow control devices in controlling water and increasing oil recovery. J. Pet. Sci. Technol. 2017, 7(4): 32-40.

Naderi, M., Rostami, B., Khosravi, M. Effect of heterogeneity on the productivity of vertical, deviated and horizontal wells in water drive gas reservoirs. J. Nat. Gas Sci. Eng. 2015, 23: 481-491.

Ouyang, L., Huang, W. A comprehensive evaluation of well-completion impacts on the performance of horizontal and multilateral wells. Paper SPE 96530 Presented at SPE Annual Technical Conference and Exhibition, Dallas, Texas, 9-12 October, 2005.

Permadi, P., Wibowo, W., Alamsyah, Y., et al. Horizontal well completion with stinger for reducing water problems. Paper SPE 37464 Presented at the SPE Production Operations Symposium, Oklahoma City, Oklahoma, 9-11 March, 1997.

Shuai, C., Duan, Y., Ran, L., et al. Research on the method of controlling bottom water with Inflow Control Devices (ICD) in horizontal well. Oil Drilling & Production Technology 2012, 34(1): 85-88. (in Chinese)

Sierra, L., East, L., Soliman, M.Y., et al. New completion methodology to improve oil recovery and minimize water intrusion in reservoirs subject to water injection. SPE J. 2011, 16(3): 648-661.

Souza, G.D., Pires, A.P., Abreu, E.D. Well-reservoir coupling on the numerical simulation of horizontal wells in gas reservoirs. Paper SPE 169386 Presented at Latin America and Caribbean Petroleum Engineering Conference, Maracaibo, Venezuela, 21-23 May, 2014.

Szanyi, M.L., Hemmingsen, C.S., Yan, W., et al. Near-wellbore modeling of a horizontal well with compu-tational fluid dynamics. J. Pet. Sci. Eng. 2018, 160: 119-128.

Vicente, R., Sarica, C., Ertekin, T. A numerical model coupling reservoir and horizontal well flow dynamics: Transient behavior of single-phase liquid and gas flow. Paper SPE 65508 Presented at SPE /CIM International Conference on Horizontal Well Technology, Calgary, Alberta, Canada, 6-8 November, 2000.

Wang, H., Xue, S., Gao, C., et al. Profile control method for perforated horizontal wells in heterogeneous reservoirs. Journal of China University of Petroleum 2012, 36(3): 135-139. (in Chinese)

Wang, J., Liu, H., Liu, Y., et al. Mechanism and sensitivity analysis of an inflow control devices (ICDs) for reducing water production in heterogeneous oil reservoir with bottom water. J. Pet. Sci. Eng. 2016, 146: 971-982.

Wang, J., Liu, Y., Yang, Z., et al. Research progress on water breakthrough mechanism for horizontal wells. Special Oil & Gas Reservoirs 2010, 17(1): 6-10. (in Chinese)

Wolfsteiner, C., Durlofsky, L.J., Aziz, K. Approximate model for productivity of nonconventional wells in heterogeneous reservoirs. SPE J. 2000, 5(2): 218-226.

Xiong, Y., Luo, D., Tang, H., et al. New type horizontal well completion method of delaying and controlling bottom water coning. Journal of Southwest Petroleum Institute 2009, 31(1): 103-106. (in Chinese)

Zhang, S., Li, H., Yang, S., et al. Influx and pressure perfor-mance prediction of stinger completion in horizontal well. Drill. Prod. Technol. 2009, 32(6): 43-45. (in Chinese)