A procedure for liquid-assisted gas lift unloading using a transient flow simulator
Document Type
Conference Proceeding
Publication Date
1-1-2019
Abstract
In this paper we describe using a commercial transient multiphase-flow simulator to develop a new operational procedure for liquid-assisted gas lift (LAGL) unloading. The simulation model is used in our study to perform sensitivity analysis on the controlling parameters for the LAGL unloading operation. This simulation model is validated with experimental data from field-scale test data presented by Coutinho et al. (2018). From the simulation results and experimental data, it is possible to demonstrate how the injection of a gas/liquid mixture can significantly decrease the injection pressure for unloading operations. Different combinations of injection gas/liquid ratio are numerically tested to evaluate the effect of gas/liquid ratio on the injection pressure during the complete unloading operation. The validated model was used with a newly developed procedure for the complete unloading operation. The modeling results show that using the LAGL technique enabled us to reduce the injection pressure from 1,200 psig, when using single-phase gas in a single-point injection system, to approximately 700 psig, when injecting gas/liquid mixtures in a single-point injection system. Analyses on the effect of gas lift valve-orifice size, also presented here, show that using large orifice sizes might reduce the effect of flow friction through the gas lift valve, which directly affects the efficiency of the LAGL unloading operations.
Publication Source (Journal or Book title)
SPE Production and Operations
First Page
635
Last Page
646
Recommended Citation
Coutinho, R., & Waltrich, P. (2019). A procedure for liquid-assisted gas lift unloading using a transient flow simulator. SPE Production and Operations, 34 (3), 635-646. https://doi.org/10.2118/195590-PA