Method and apparatus for producing well with backup gas lift and an electrical submersible well pump

The invention claimed is: 1. A method of producing a well having a casing with perforations, comprising: lowering into the casing a string of production tubing containing a side pocket mandrel having a gas lift valve, a packer below the side pocket mandrel, a tubing valve below the packer, and an electrical submersible pump assembly (ESP) below the tubing valve, the ESP having a pump driven by a motor and a pressure gauge mounted to the motor; setting the packer in the casing above the perforations, defining a lower sealed end of an upper casing annulus and an upper sealed end of a lower casing annulus; connecting a controller at an upper end of the well to the ESP, the pressure gauge, and the tubing valve; connecting a gas source at the upper end of the well to the upper casing annulus; with the controller, selectively producing the well in a gas lift mode by shutting off the motor and shifting the tubing valve to a gas lift position, allowing well fluid to flow from the perforations up the lower casing annulus around the ESP through the tubing valve and into the production tubing, and flowing gas from the gas source down the upper casing annulus through the gas lift valve into the production tubing to lower the density of the well fluid flowing up the production tubing; while in the gas lift mode and with the controller and the pressure gauge, monitoring a flowing bottom hole pressure of the well fluid in the lower casing annulus; in response to a change in the flowing bottom hole pressure monitored by the pressure gauge and the controller, switching from the gas lift mode to an ESP mode by stopping the flow of gas from the gas source, shifting the tubing valve to an ESP position and turning on the motor, causing well fluid to flow from the perforations through a pump intake and the tubing valve into and up the production tubing; and while in the ESP mode, monitoring the flowing bottom hole pressure in the lower casing annulus with the pressure gauge and the controller. 2. The method according to claim 1 , wherein: the motor is filled with a dielectric lubricant, and the ESP has a pressure equalizer that reduces a pressure differential between the lubricant and well fluid in the lower casing annulus; the pressure gauge directly senses a lubricant pressure of the lubricant, which correlates with the flowing bottom hole pressure; and the pressure gauge communicates the lubricant pressure to the controller both while in the gas lift mode and the ESP mode. 3. The method according to claim 2 , wherein: lowering into the casing further comprises deploying a power cable from the controller alongside the production tubing and through the packer to the motor for supplying power to the motor; and wherein the pressure gauge superimposes a signal corresponding to the lubricant pressure on the power cable. 4. The method according to claim 1 , wherein while in the gas lift mode, the tubing valve closes a lower end of the production tubing from a discharge of the pump and opens access of well fluid in the lower casing annulus to the lower end of the production tubing. 5. The method according to claim 4 , wherein while in the ESP mode, the tubing valve opens the lower end of the production tubing to the discharge of the pump and prevents well fluid in the lower casing annulus from bypassing the intake of the pump and flowing directly into the lower end of the production tubing. 6. The method according to claim 1 , wherein the controller automatically switches between the gas lift mode and the ESP mode based on changes in the bottom hole pressure sensed by the pressure gauge. 7. The method according to claim 1 , further comprising: mounting a discharge pressure gauge between the pump and the tubing valve; during the ESP mode, sensing a discharge pressure of the pump with the discharge pressure gauge and communicating the discharge pressure to the controller; and with the controller, controlling a speed of the motor in response to the discharge pressure. 8. A method of producing a well having a casing with perforations, comprising: lowering into the casing a string of production tubing containing side pocket mandrels, each having a gas lift valve, a packer below the side pocket mandrels, a tubing valve below the packer, and an electrical submersible pump assembly (ESP) below the tubing valve, the ESP having a pump with an intake, a motor containing a dielectric lubricant, a pressure equalizer that reduces a pressure differential between the lubricant and well fluid on an exterior of the motor, and a pressure gauge mounted to the motor that senses pressure of the lubricant; setting the packer in the casing, defining a lower sealed end of an upper casing annulus and an upper sealed end of a lower casing annulus; connecting a controller at an upper end of the well to the ESP and to the tubing valve; connecting a gas source at the upper end of the well to the upper casing annulus; with the controller, selectively producing the well in a gas lift mode by shutting off the motor and shifting the tubing valve to a gas lift position, which allows well fluid to flow from the perforations up the lower casing annulus around the pump through the tubing valve and into the production tubing, and flowing gas from the gas source down the upper casing annulus, which flows through the gas lift valves into the production tubing to lower the density of in the well fluid flowing up the production tubing; while in the gas lift mode, monitoring the lubricant pressure with the pressure gauge, which correlates with a flowing bottom hole pressure of the well fluid in the lower casing annulus, and sending signals to the controller in response; in response to a reduction of the flowing bottom hole pressure determined by the controller, switching from the gas lift mode to an ESP mode by stopping the flow of gas from the gas source, shifting the tubing valve to an ESP position and turning on the motor, causing well fluid to flow from the perforations through the pump intake and the tubing valve into and up the production tubing; and with the controller and the pressure gauge during the ESP mode, monitoring the lubricant pressure and correlating the lubricant pressure to the flowing bottom hole pressure in the lower casing annulus. 9. The method according to claim 8 , wherein lowering into the casing further comprises: deploying a power cable from the controller alongside the production tubing and through the packer to the motor for supplying power to the motor; and wherein the pressure gauge superimposes signals corresponding to the lubricant pressure on the power cable. 10. The method according to claim 8 , further comprising: mounting a discharge pressure gauge between the pump and the tubing valve; during the ESP mode, sensing a discharge pressure of the pump with the discharge pressure gauge and communicating the discharge pressure to the controller; and with the controller, controlling a speed of the motor in response to the discharge pressure. 11. The method according to claim 8 , wherein while in the gas lift mode, the tubing valve closes a lower end of the production tubing from a discharge of the pump and opens access of well fluid in the lower casing annulus to the lower end of the production tubing. 12. The method according to claim 11 , wherein while in the ESP mode, the tubing valve opens the lower end of the production tubing to the discharge of the pump and prevents well fluid in the lower casing annulus from bypassing the intake of the pump and flowing directly into the lower end of the production tubing. 13. An assembly for producing a well having a casin