Autonomous optimization of single-well and multi-well gas lift

What is claimed is: 1. A method for controlling gas lift in at least one production well, comprising: i) receiving, from a first flow meter, a measured first flow rate of gas injected into a production well; ii) receiving, from a second flow meter, a measured second flow rate of oil produced from the production well; iii) determining, via one or more processors of a controller, a quadratic function that relates the second flow rate of oil produced from the production well to the first flow rate of gas injected into the production well based on the measured first flow rate of gas injected into the production well and the measured second flow rate of oil produced from the production well; iv) determining, via the one or more processors of the controller, using the quadratic function, an optimal flow rate of gas injected into the production well; v) controlling, via a control valve, using the optimal flow rate of gas injected into the production well, an actual flow rate of gas injected into the production well; and vi) receiving, from the second flow meter, a measured third flow rate of oil produced from the production well at the optimal flow rate of gas injected into the production well. 2. A method according to claim 1 , further comprising: repeating the operations of iii) to vi), wherein for one or more iterations of iii) to vi), the quadratic function of iii) is based on the third flow rate of oil in the previous iteration of vi). 3. A method according to claim 2 , wherein: the measured third flow rate of oil in the previous iteration of vi) replaces a data point used to determine the quadratic function in the previous iteration of iii) and preserves non-monotonicity of the quadratic function. 4. A method according to claim 2 , wherein: the operations of iii) to vi) are repeated for one or more iterations until a predetermined criterion is satisfied. 5. A method according to claim 1 , wherein: the quadratic function relates the second flow rate of oil produced from the production well to the first flow rate of gas injected into the production well. 6. A method according to claim 1 , wherein: the quadratic function relates the second flow rate of oil produced from the production well to a shifted gas flow rate of gas injected into the production well, wherein the shifted gas flow rate is based on the first flow rate of gas injected into the production well being less a threshold gas flow rate. 7. A method according to claim 1 , wherein: the optimal flow rate of gas injected into the production well as determined in iv) is based on one or more coefficients of the quadratic function. 8. A method according to claim 1 , wherein: the operations of iii) are performed separately for a plurality of production wells to determine a corresponding plurality of quadratic functions, wherein each quadratic function relates a respective second flow rate of oil produced from one of the plurality of production wells to a respective first flow rate of gas injected into that one production well; the operations of iv) use the plurality of quadratic functions to determine optimal flow rates of gas injected into each one of the plurality of production wells; and the operations of vi) use the plurality of optimal flow rates of gas injected into each one of the plurality of the production wells to control the flow rate of gas injected into the plurality of production wells, and measure third oil flow rates produced from the plurality of production wells at the optimal flow rates of gas injected into the plurality of production wells. 9. A method according to claim 8 , wherein: the optimal flow rate of gas injected into at least one corresponding production well of the plurality of production wells as determined in iv) is based on coefficients of the quadratic function for the corresponding production well. 10. A method according to claim 8 , wherein: the optimal flow rate of gas injected into at least one of the plurality of production wells as determined in iv) is based on a constraint. 11. A method according to claim 10 , wherein: the constraint is based on a total available flow rate of injected gas from a common gas source shared by the plurality of production wells. 12. A method according to claim 10 , wherein: the constraint is based on a threshold rate of injected gas for at least one production well. 13. A method according to claim 10 , wherein: the optimal flow rates of gas injected into the plurality of production wells as determined in iv) is based on a system of nonlinear equations solved by a sequential quadratic programming (SQP) solver. 14. A method according to claim 1 , wherein: the quadratic function of iii) relates the second flow rate of oil produced from the production well to the first flow rate of gas injected into the production well at standard conditions. 15. A system for controlling gas lift in at least one production well, comprising: a first flow meter for measuring flow rate of gas injected into a production well; a control valve for controlling flow rate of gas injected into the production well; a second flow meter for measuring flow rate of oil produced from the production well; and a controller, operably coupled to the first flow meter, the control valve, and the second flow meter, wherein the controller is configured to: i) determine a quadratic function that relates oil flow rate produced from a production well to gas flow rate of gas injected into the production well based on flow rate measurements of gas injected into the production well performed by the first flow meter and corresponding flow rate measurements of oil produced from the production well performed by the second flow meter; ii) use the quadratic function to determine an optimal flow rate of gas injected into the production well; and iii) use the optimal flow rate of gas injected into the production well to control the control valve to control the flow rate of gas injected into the production well, and obtain a measurement of oil flow rate produced from the production well at the optimal flow rate of gas injected into the production well performed by the second flow meter. 16. A system according to claim 15 , wherein: the controller is further configured to repeat the operations of i) to iii), wherein for one or more iterations of i) to iii), the quadratic function of i) is based on the measurement of oil flow rate performed by the second flow meter in the previous iteration of iii). 17. A system according to claim 16 , wherein: the controller is further configured such that the measurement of oil flow rate in the previous iteration of iii) replaces a data point used to determine the quadratic function in the previous iteration of i) and preserves non-monotonicity of the quadratic function. 18. A system according to claim 16 , wherein: the controller is further configured to repeat the operations of i) to iii) for one or more iterations until a predetermined criterion is satisfied. 19. A system according to claim 15 , wherein: the quadratic function relates oil flow rate produced from the production well to injected gas flow rate of gas injected into the production well. 20. A system according to claim 15 , wherein: the quadratic function relates oil flow rate produced from the production well to shifted gas flow rate of gas injected into the production well, wherein the shifted gas flow rate is based on injected gas flow rate less a threshold gas flow rate. 21. A