Title :
Nonlinear control of an oil well
Author :
Nikravesh, Masoud ; Soroush, Masoud ; Johnston, R. Michael
Author_Institution :
Div. of Earth Sci., Lawrence Berkeley Nat. Lab., CA, USA
Abstract :
Recent studies of waterflood and steamdrive in petroleum reservoirs have revealed that unwanted extension of hydrofractures is caused primarily by aggressive actions taken by conventional PI or PID controllers during injector start-up, or by operating near hydrofracturing pressure. The extension has resulted in reservoir damage and irreversible lost oil production. In this paper, we consider CalResources Phase III steam injection pilot in the South Belridge field of California. For each injector in this pilot, a neural network model is identified by using historical data on injection-fluid flow rate, well-head pressure, depth to the top of perforation, and the length of perforated interval. Differential geometric well-head pressure controllers are synthesized by using the neural network models. The satisfactory performance of the neural network model-based controllers is demonstrated, via numerical simulations
Keywords :
discrete time systems; identification; neurocontrollers; nonlinear control systems; oil technology; pressure control; process control; CalResources Phase III; California; South Belridge field; differential geometry; discrete time systems; hydrofractures; identification; neural network model; neurocontrol; nonlinear control systems; oil well; petroleum reservoirs; pressure control; steam injection pilot; Floods; Geoscience; Hydrocarbon reservoirs; Neural networks; Optimal control; Permeability; Petroleum; Pressure control; Production; Water resources;
Conference_Titel :
American Control Conference, 1997. Proceedings of the 1997
Conference_Location :
Albuquerque, NM
Print_ISBN :
0-7803-3832-4
DOI :
10.1109/ACC.1997.611899
