论文信息 - An Optimization-Based Facility Network Solver for Well Allocation in Reservoir Simulation

An Optimization-Based Facility Network Solver for Well Allocation in Reservoir Simulation

When coupling reservoir simulators to surface network solvers, an often used strategy is to perform a rule or priority-driven allocation based on individual well and group constraints, augmented by back-pressure constraints computed periodically by the network solver. The allocation algorithm uses an iteration that applies well-established heuristics in a sequential manner until all constraints are met. The rationale for this approach is simply to maximize performance and simulation throughput; one of its drawbacks is that the computed allocation may not be feasible with respect to the overall network balance, especially in cases where not all wells can be choked individually. In the work presented here, the authors integrate the well allocation process into the network flow solver, in the form of an optimization engine, to ensure that the solution conforms to the network rate and pressure balance equations. Results for three stand-alone test cases are discussed.

[1] Alberto Cominelli,et al. The Benefits of Integrated Asset Modelling: Lessons Learned from Field Cases , 2008 .

[2] Kassem Ghorayeb,et al. Field Planning Using Integrated Surface/Subsurface Modeling , 2005 .

[3] Hui Cao,et al. Integrated Asset Modeling of a Deep-Offshore Subsea Development Using 2 Complementary Reservoir-Surface Coupling Workflows , 2019, Day 1 Wed, April 10, 2019.

[4] Elyes Draoui,et al. Coupling Production and Injection Systems with Multiple Reservoir Models: A Novel Method of Optimizing Development Strategies in a Mature Giant Oilfield , 2016 .

[5] Baris Guyaguler,et al. A New Rate-Allocation-Optimization Framework , 2008 .

[6] G. S. Shiralkar,et al. A Generalized Wellbore and Surface Facility Model, Fully Coupled to a Reservoir Simulator , 2004 .

[7] Bret L. Beckner,et al. Integrated Optimization for Rate Allocation in Reservoir Simulation , 2003 .

[8] Kassem Ghorayeb,et al. A General Purpose Controller for Coupling Multiple Reservoir Simulations and Surface Facility Networks , 2003 .

[9] Pierre Samier,et al. A Fully Coupled Network Model, Practical Issues and Comprehensive Comparison with Other Integrated Models on Field Cases , 2015, ANSS 2015.

[10] Wade A. Bard,et al. Integration of a Field Surface and Production Network With a Reservoir Simulator , 1997 .

[11] Leonardo Patacchini,et al. Fully Implicit Coupling of Multiple Reservoir Models with Common Water Injection Facilities , 2016 .