Real-Time Interpretation Model of Reservoir Characteristics While Underbalanced Drilling Based on UKF

Miao He,Jun Li,Mingbiao Xu,Jianjian Song,Yihang Zhang

doi:10.1155/2020/8967961

Miao He, Jun Li + Show 3 more

Open Access

https://doi.org/10.1155/2020/8967961

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Abstract

This study presents a novel interpretation model for reservoir characteristics while underbalanced drilling (UBD), by incorporating an unscented Kalman filter (UKF) algorithm in a three-phase variable mass flow model of oil, gas, and liquid. In the model, the measurement parameters are simplified to bottomhole pressure and liquid outlet flow, for decreasing the amount of the computation and time. By taking into account real-time measurements, the permeability and reservoir pressure along the well can be continuously updated. Three cases including single-parameter and double-parameter estimations have been simulated, and the performance is tested against the extended Kalman filter (EKF). The results show that single-parameter estimation of reservoir permeability or pressure achieves superior performance. The filtered values of bottomhole pressure and outlet flow trace the measured values in real time. When a new section of a reservoir is opened, the estimated reservoir permeability or pressure can always be quickly and accurately returned to its true value. However, it is not possible for the double-parameter estimation to obtain good results; its interpretation accuracy is low. UKF is superior to EKF in both estimation accuracy and convergence speed, which further illustrates the superiority and accuracy of the novel interpretation model based on UKF. Benefits from this model are seen in accurate bottomhole pressure and reservoir characteristic predictions, which are of major importance for safety and economic reasons during UBD and follow-up completion operations.

Highlights

Underbalanced drilling (UBD) is a technical means of drilling under the condition of negative pressure in a wellbore [1, 2]
UBD began in the 1930s and developed rapidly in the recent years [3], because of its great advantages [4] in improving rate of penetration (ROP), discovering reservoirs, and reducing reservoir damage
Because of the coupling effect between the wellbore and formation, reservoir characteristics such as reservoir pressure and permeability may be obtained by using measured data acquired during drilling operation, such as bottomhole pressure, flow rate, and injection rate

Summary

Introduction

Underbalanced drilling (UBD) is a technical means of drilling under the condition of negative pressure in a wellbore [1, 2]. A novel interpretation model for reservoir characteristics while underbalanced drilling is developed, by incorporating the UKF algorithm in a three-phase variable mass flow model of oil, gas, and liquid. The measurement parameters are simplified to bottomhole pressure and liquid outlet flow, to continuously update the permeability and reservoir pressure along the well Based on this interpretation, the future state of the reservoir system near the wellbore can be predicted, helping the management of the wellbore during UBD and follow-up completion operations. A mathematical model of three-phase variable mass flow of oil, gas, and liquid is established based on the theory of a wellbore multiphase flow and dynamic reservoir model [22, 23]. Distribution coefficients, slip velocity parameters, and pressure drop model will change with the change of a gasliquid two-phase flow pattern.

Interpretation Model of Reservoir Characteristics Based on UKF

Numerical Simulation Analysis

Conclusion

Conflicts of Interest