Fluidic Diode AICD Characteristic Curve Testing and Mathematical Modeling
-
Published:2023-07-17
Issue:7
Volume:11
Page:2130
-
ISSN:2227-9717
-
Container-title:Processes
-
language:en
-
Short-container-title:Processes
Author:
Du Weigang1, An Yongsheng2, Ji Peng1, Huo Runshi2, Guan Liyong1
Affiliation:
1. Tianjin Branch of CNPC Offshore Engineering Co., Ltd., Tianjin 300451, China 2. MOE Key Laboratory of Petroleum Engineering, China University of Petroleum, Beijing 102249, China
Abstract
In order to investigate an efficient water control method suitable for the bottom water occurring during the production process of horizontal wells in bottom water reservoirs, the characteristic curves of a Fluidic Diode AICD (Automatic Inflow Control Device) were tested, and a mathematical modeling method is proposed. First, the working principle of a Fluidic Diode AICD was analyzed; subsequently, a Fluidic Diode AICD test platform was designed and built independently, and pressure test experiments of the Fluidic Diode AICD under different flow conditions were carried out to obtain characteristic curves of the Fluidic Diode AICD. Finally, a mathematical model of the flow–pressure drop characteristic curves of the Fluidic Diode AICD was developed and applied to the simulation of water control production in horizontal wells in bottom water reservoirs. The results of the study showed that the Fluidic Diode AICD produces a more significant pressure drop under high water content conditions, and has a better oil and water stabilization function in production. In this study, the reservoir flow, annulus flow, AICD flow, and horizontal wellbore flow are considered, and an integrated coupling model for horizontal wells in bottom water reservoirs is established. This study provides a basis for using Fluidic Diode AICDs in horizontal wells in bottom water reservoirs.
Funder
Study on Secondary Stimulation and Completion Technology for Old Offshore Low Production and Low Efficiency
Subject
Process Chemistry and Technology,Chemical Engineering (miscellaneous),Bioengineering
Reference28 articles.
1. Economides, M.J., Hill, A.D., Ehligeconomides, C., and Ding, Z. (2013). Petroleum Production Systems, Prentice Hall. [2nd ed.]. 2. Joshi, S. (1991). Horizontal Well Technology, Pennwell Corp. 3. A New Autonomous Inflow Control Device Designed for a Loose Sand Oil Reservoir with Bottom Water;Zhang;J. Pet. Sci. Eng.,2019 4. Zhou, C., Zhao, X., Chen, Y., Wang, Z., Gramajo, E., Rached, R., and Hu, C. (2022, January 12–14). Design and Optimization of Autonomous Inflow Control Device in Water-Bearing Sour Gas Reservoirs. Proceedings of the International Petroleum Technology Conference, Riyadh, Saudi Arabia. 5. A numerical simulation for the determination of the shunt ratio at a T-junction with different branch angles, viscosities, and flow rates;Zhang;J. Energy Resour. Technol.,2019
|
|