Packer for annular blowout preventer

The invention claimed is: 1. An annular blowout preventer, comprising: a housing; an annular packer positioned within the housing; an annular piston positioned within the housing, wherein an annular contacting surface of the annular piston is configured to contact the annular packer while the annular blowout preventer is in an open position; and a plurality of inserts extending axially through the annular packer and arranged circumferentially within the annular packer, wherein the annular piston is configured to drive the annular packer in an axial direction within the housing, thereby compressing the annular packer, causing the plurality of inserts to each rotate about a respective axis in the axial direction of the annular blowout preventer as the plurality of inserts are directed radially inwardly, and moving the annular blowout preventer from the open position to a closed position. 2. The annular blowout preventer of claim 1 , comprising an annular donut positioned circumferentially about the annular packer within the housing, wherein the annular contacting surface of the annular piston is configured to simultaneously contact and drive the annular packer and the annular donut in the axial direction to move the annular blowout preventer from the open position to the closed position. 3. The annular blowout preventer of claim 2 , wherein the annular packer and the annular donut each comprise a flexible material. 4. The annular blowout preventer of claim 2 , wherein a first thickness of the annular packer is greater than a second thickness of the annular donut. 5. The annular blowout preventer of claim 1 , wherein at least 5 percent of the annular contacting surface contacts the annular packer when the annular blowout preventer is in the open position. 6. The annular blowout preventer of claim 1 , wherein a portion of the annular packer is positioned between respective top plates of the plurality of inserts and the housing along a radial axis when the annular blowout preventer is in the open position. 7. The annular blowout preventer of claim 1 , wherein the annular contacting surface extends from a radially-outer edge of the annular piston to a radially-inner edge of the annular piston, and the annular contacting surface includes a curved portion that is configured to contact the annular packer while the annular blowout preventer is in the open position. 8. An annular blowout preventer, comprising: a housing; an annular piston positioned within the housing; an annular packer positioned within the housing; and an annular donut positioned circumferentially about the annular packer within the housing, wherein a first thickness of the annular packer is greater than a second thickness of the annular donut, and the annular piston is configured to drive the annular packer and the annular donut against a radially-inwardly extending surface of the housing to move the annular blowout preventer from an open position to a closed position; wherein an annular contacting surface of the annular piston is configured to simultaneously contact and drive the annular packer and the annular donut in an axial direction, and the annular packer and the annular donut are in contact with and are compressed between the annular contacting surface and the radially-inwardly extending surface of the housing as the annular blowout preventer moves from the open position to the closed position. 9. The annular blowout preventer of claim 8 , wherein the annular packer and the annular donut each comprise a flexible material. 10. The annular blowout preventer of claim 8 , wherein the second thickness is between 10 to 80 percent of the first thickness. 11. The annular blowout preventer of claim 8 , wherein an annular contacting surface of the annular piston is positioned axially below the annular packer and the annular donut when the annular blowout preventer is in the open position to enable the annular contacting surface to contact both the annular packer and the annular donut as the annular blowout preventer moves from the open position to the closed position. 12. The annular blowout preventer of claim 8 , wherein a radially-outer donut surface of the annular donut contacts an axially-extending surface of the housing, and a radially-inner donut surface of the annular donut extends along a radially-outermost packer surface of the annular packer while the annular blowout preventer is in the open position. 13. The annular blowout preventer of claim 8 , wherein the radially-inwardly extending surface comprises an axially-facing surface. 14. An annular blowout preventer, comprising: a housing; an annular piston positioned within the housing; an annular packer positioned within the housing; and an annular donut positioned circumferentially about the annular packer within the housing, wherein a first thickness of the annular packer is greater than a second thickness of the annular donut, and the annular piston is configured to drive the annular packer and the annular donut against a radially-inwardly extending surface of the housing to move the annular blowout preventer from an open position to a closed position; and a plurality of rigid inserts positioned within the annular packer, wherein the plurality of rigid inserts are configured to rotate radially inwardly as the annular blowout preventer moves from the open position to the closed position. 15. An annular blowout preventer, comprising: a housing; an annular piston positioned within the housing; an annular packer positioned within the housing; and an annular donut positioned circumferentially about the annular packer within the housing, wherein an annular contacting surface of the annular piston is configured to simultaneously contact and drive the annular packer and the annular donut in an axial direction to move the annular blowout preventer from an open position to a closed position, and a first surface area of the annular contacting surface that contacts the annular donut when the annular blowout preventer is in the open position is less than a second surface area of the annular contacting surface that contacts the annular donut when the annular blowout preventer is in the closed position. 16. The annular blowout preventer of claim 15 , wherein a third surface area of the annular contacting surface of the annular piston that contacts the annular packer while the annular blowout preventer is in the open position is less than the first surface area of the annular contacting surface of the annular piston that contacts the annular donut while the annular blowout preventer is in the open position. 17. The annular blowout preventer of claim 15 , wherein the annular packer and the annular donut each comprise a flexible material. 18. The annular blowout preventer of claim 15 , wherein a first thickness of the annular packer is greater than a second thickness of the annular donut. 19. The annular blowout preventer of claim 15 , comprising a plurality of rigid inserts positioned within the annular packer, wherein the plurality of rigid inserts are configured to rotate radially inwardly as the annular blowout preventer moves from the open position to the closed position.