Application of Adjoint-Based Optimal Control to Intergo-Differential Forward System
Alena Kadyrova, Aleksey Khlyupin

TL;DR
This paper develops an adjoint-based optimal control method for a memory-influenced integro-differential model of fluid flow in reservoirs, demonstrating the significance of memory effects in optimizing gas production.
Contribution
It introduces a novel adjoint model for media with memory, extending classical methods to integro-differential systems for reservoir optimization.
Findings
Memory significantly affects pressure and density evolution.
The new adjoint model enables effective optimization of gas production.
Memory inclusion improves reservoir management strategies.
Abstract
In recent years researchers in oil-gas industry have established that the contribution of memory is significant for the modeling of fluid flow in unconventional reservoirs. Mathematically, a memory-based fluid flow model can be described by the system of integro-differential equations. Despite the fact that a large number of journal articles are devoted to numerical methods for the forward solution of such equations, the problems of optimization and optimal control of these systems are actual and insufficiently studied. We consider the one-dimensional model of gas filtration and diffusion as a model with memory. The system includes a partial differential equation for filtration in fractures and weakly singular Volterra integral equation of the second kind, which describes the diffusion of gas from blocks with closed nanopores. Numerical simulation, obtained using a Navot-trapezoidal…
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Taxonomy
TopicsReservoir Engineering and Simulation Methods · Mining Techniques and Economics · Hydraulic Fracturing and Reservoir Analysis
