Title :
Optimal control solving of polymer flooding based on a hybrid genetic algorithm
Author :
Li Shurong ; Lei Yang ; Zhang Xiaodong ; Zhang Qiang
Author_Institution :
Coll. of Inf. & Control Eng., China Univ. of Pet., Dongying, China
Abstract :
This paper researches the optimization of injection strategies of polymer flooding in oil recovery. An optimal control problem (OCP) of a distributed parameter system (DPS) is established, in which the functional of performance index is profit maximum and the governing equations are the fluid equations in porous media. The control variables are chosen as the polymer concentrations and the switching time of a slug. The constraint conditions include boundary constraints and other inequality constraints. A hybrid genetic algorithm (HGA), which makes use of the position displacement strategy of the particle swarm optimizer (PSO) as a mutation operation, is applied to solve the OCP. Finally, an example of the OCP for polymer flooding is exposed and the results show that the HGA method is effective and feasible.
Keywords :
constraint handling; distributed parameter systems; flow through porous media; genetic algorithms; injection moulding; multiphase flow; oil refining; optimal control; particle swarm optimisation; performance index; position control; HGA method; boundary constraints; distributed parameter system; fluid equations; hybrid genetic algorithm; inequality constraints; injection strategies optimization; mutation operation; oil recovery; optimal control; particle swarm optimizer; performance index; polymer concentrations; polymer flooding; porous media; position displacement strategy; profit maximum; slug switching time; Equations; Floods; Mathematical model; Optimal control; Optimization; Petroleum; Polymers; Hybrid Genetic Algorithm; Optimal Control; Polymer Flooding;
Conference_Titel :
Control Conference (CCC), 2010 29th Chinese
Conference_Location :
Beijing
Print_ISBN :
978-1-4244-6263-6
