Inverted shroud for submersible well pump

The invention claimed is: 1. A well pump assembly, comprising: a pump having a pump intake and a discharge for connection to a string of tubing; a submersible motor operatively engaged with the pump for driving the pump; a shroud surrounding the pump intake and the motor, the shroud having an upper portion with an opening for drawing well fluid along an upper flow path down the shroud into the pump intake; a tubular member extending downward from a lower end of the shroud below the motor and having a smaller outer diameter than an outer diameter of the shroud, the tubular member being in fluid communication with a portion of the shroud surrounding the motor; a recirculation passage extending downward alongside the motor within the shroud from a portion of the pump, the recirculation passage diverting a portion of the well fluid being pumped by the pump and having an open lower end; wherein: the tubular member has a closed lower end, defining a closed debris chamber for collecting debris from well fluid flowing in the opening in the upper portion of the shroud; the tubular member has a drain port; and a drain valve is operatively mounted to the drain port. 2. The assembly according to claim 1 , wherein the recirculation passage has a lower end proximal a lower end of the motor. 3. The assembly according to claim 1 , wherein the drain valve is remotely actuated. 4. The assembly according to claim 1 , wherein the drain valve is configured to open by dropping a bar into the shroud after the pump and motor have been retrieved from the shroud. 5. The assembly according to claim 1 , wherein the outer diameter of the tubular member is less than 65% of the outer diameter of the shroud. 6. A well pump assembly, comprising: a pump having a pump intake and a discharge for connection to a string of tubing; a submersible motor operatively engaged with the pump for driving the pump; a shroud surrounding the pump intake and the motor and adapted to be supported by the string of tubing, the shroud having an upper portion with an opening for drawing well fluid down the upper portion of the shroud into the pump intake; a tubular member extending downward from a lower end of the shroud below the motor and having a smaller outer diameter than an outer diameter of the shroud, the tubular member being in fluid communication with a portion of the shroud surrounding the motor; a closed lower end on the tubular member, defining a closed debris chamber for collecting debris from well fluid flowing in the opening in the upper portion of the shroud; a drain port located in the tubular member; and a valve operatively mounted to the drain port. 7. The assembly according to claim 6 , further comprising: a recirculation passage extending downward within the shroud from a portion of the pump alongside the motor, the recirculation passage diverting a portion of the well fluid being pumped by the pump to below the motor. 8. The assembly according to claim 6 , wherein the closed lower end of the tubular member comprises a threaded cap that is selectively removable while the shroud is retrieved to remove debris from the chamber. 9. The assembly according to claim 6 , wherein the drain valve is remotely actuated. 10. The assembly according to claim 6 , wherein the drain valve is configured to open by dropping a bar into the shroud after the pump and motor have been retrieved from the shroud. 11. The assembly according to claim 6 , wherein the outer diameter of the tubular member is less than 65% of the outer diameter of the shroud. 12. A well pump assembly, comprising: a pump having a pump intake and a discharge for connection to a string of tubing; a submersible motor operatively engaged with the pump for driving the pump; a shroud surrounding the pump intake and the motor, the shroud having an upper portion with an opening for drawing well fluid along an upper flow path down the shroud into the pump intake: a dip tube secured to and extending downward from a junction with a lower end of the shroud, the dip tube being in fluid communication with the pump intake and having a lower portion with an opening for drawing well fluid along a lower flow path up the dip tube to the pump intake; wherein the upper flow path has a minimum flow area that is smaller than a minimum flow area of the lower flow path; and the assembly further comprises: a recirculation passage extending downward from a portion of the pump alongside the motor, the recirculation passage diverting a portion of the well fluid being pumped by the pump to below the motor. 13. The assembly according to claim 12 , further comprising: a gas anchor sleeve surrounding a lower portion of the dip tube, the gas anchor sleeve having a closed lower end below the dip tube, and the gas anchor sleeve having an upper portion with an opening for well fluid to flow down between the gas anchor sleeve and the dip tube, then upward to the opening in lower portion of the dip tube, then up the dip tube and the shroud to the pump intake; a debris chamber mounted to the lower end of the gas anchor sleeve for collecting debris from well fluid flowing into the shroud and the gas anchor sleeve; a drain port in the debris chamber; and a drain valve operatively mounted to the drain port. 14. The assembly according to claim 13 , wherein the drain valve is configured to open by dropping a bar into the shroud after the pump and motor have been retrieved from the shroud. 15. The assembly according to claim 12 , wherein the outer diameter of the dip tube is less than 65% of the outer diameter of the shroud. 16. The assembly according to claim 12 , further comprising: a gas anchor sleeve surrounding a lower portion of the dip tube, the gas anchor sleeve having a closed lower end below the dip tube, and the gas anchor sleeve having an upper portion with an opening for well fluid to flow down between the gas anchor sleeve and the dip tube, then upward to the opening in lower portion of the dip tube, then up the dip tube and the shroud to the pump intake. 17. The assembly according to claim 12 , wherein the dip tube has a smaller outer diameter than an outer diameter of the shroud.