Trunnion ball valve seat with V-section spring

The invention claimed is: 1. A ball valve, comprising: a body; an adapter coupled to the body; a ball disposed between the body and the adapter and configured to rotate about a radial axis to allow or block a flow of fluid along a fluid flow path through a body passage and an adapter passage; and a first valve seat assembly disposed between the body and the ball, and a second valve seat assembly disposed between the adapter and the ball, both the first and second valve seat assemblies comprising: a valve seat; and a one-piece energizing device external from the valve seat, wherein the one-piece energizing device is configured to generate an energizing force in an axial direction to force the valve seat axially against the ball, wherein the energizing force is substantially directly proportional to an axial movement of the valve seat with respect to the respective body or adapter, such that the energizing force changes only in a substantially linear manner relative to the axial movement over a full range of movement of the valve seat, wherein the one-piece energizing device is disposed adjacent a lip of the valve seat at an intermediate position at offset distances from both first and second axial ends of the valve seat. 2. The ball valve of claim 1 , wherein the valve seat comprises an annular seat ring disposed within an inner bore of the respective body or adapter, and the one-piece energizing device comprises an annular spring disposed radially between the annular seat ring and the inner bore. 3. The ball valve of claim 2 , wherein the annular spring comprises a generally constant cross-sectional profile in a circumferential direction about an axis of the annular spring. 4. The ball valve of claim 1 , wherein the one-piece energizing device comprises an annular cantilevered spring having a generally v-shaped cross-sectional profile in a circumferential direction about an axis of the one-piece energizing device. 5. The ball valve of claim 4 , wherein the generally v-shaped cross-sectional profile of the cantilevered spring comprises first and second legs extending from a curved end. 6. The ball valve of claim 5 , wherein the first leg is configured to physically contact the valve seat, and the second leg is configured to physically contact an inner bore of the respective body or adapter. 7. The ball valve of claim 4 , wherein the annular cantilevered spring comprises a metallic annular cantilevered spring. 8. The ball valve of claim 5 , wherein the annular cantilevered spring comprises a series of alternating slots in the curved end and the legs of the cross-sectional profile of the annular cantilevered spring. 9. The system of claim 1 , wherein the lip comprises an annular lip, the valve seat comprises an annular seat ring having the annular lip, the one-piece energizing device is disposed adjacent the annular lip of the annular seat ring at the intermediate position at the offset distances from both the first and second axial ends of the annular seat ring, and the one-piece energizing device comprises an annular cantilevered spring disposed axially between the annular lip of the annular seat ring and a mating annular lip of an inner bore of the respective body or adapter. 10. The system of claim 9 , comprising at least one seal disposed in at least one respective groove along the annular seat ring, wherein the one-piece energizing device is disposed axially between the annular lip and the first axial end of the annular seat ring, and the at least one seal is disposed axially between the one-piece energizing device and the first axial end of the annular seat ring. 11. The system of claim 9 , wherein the annular seat ring comprises an annular seat insert disposed in an annular groove, and the annular seat ring comprises a lip portion extending over the seat insert. 12. The system of claim 9 , comprising a passage extending through the annular seat ring from a first opening to a second opening, wherein the one-piece energizing device is disposed axially between the annular lip and the first axial end of the annular seat ring, and the first opening of the passage is disposed axially between the one-piece energizing device and the first axial end of the annular seat ring. 13. The ball valve of claim 1 , wherein the one-piece energizing device of the first or second valve seat assembly is disposed about an outer circumference of an annular seat ring opposite from an inner circumference of the annular seat ring along the fluid flow path. 14. The ball valve of claim 1 , wherein the energizing force changes only in the substantially linear manner within a range of 10 percent or less of a linear curve relative to the axial movement over the full range of movement of the first or second valve seat assembly. 15. The ball valve of claim 1 , wherein the valve seat comprises an annular seat insert disposed in an annular groove of an annular seat ring, the annular seat ring comprises the lip being an annular lip, the one-piece energizing device comprises an annular spring disposed adjacent the annular lip, the annular seat insert comprises a plastic, the annular seat ring comprises metal, and the annular spring comprises metal. 16. The ball valve of claim 15 , wherein the ball comprises metal. 17. The ball valve of claim 15 , wherein the annular spring comprises a cross-sectional profile defined by first and second legs coupled together at an end, the cross-sectional profile extends in a circumferential direction about an axis of the annular spring, the annular spring comprises a plurality of slots spaced apart from one another in the first and second legs, and the annular spring having the first and second legs coupled together at the end is a single continuous structure made metal. 18. The ball valve of claim 17 , wherein the plurality of slots alternate between the first and second legs in the circumferential direction about the axis of the annular spring. 19. The ball valve of claim 18 , wherein the annular spring is configured to flex in the circumferential direction and an axial direction relative to the axis of the annular spring. 20. The ball valve of claim 17 , wherein the energizing force changes only in the linear manner relative to the axial movement over the full range of movement of the valve seat. 21. A ball valve, comprising: a body; an adapter coupled to the body; a ball disposed between the body and the adapter and configured to rotate about a radial axis to allow or block a flow of fluid along a fluid flow path through a body passage and an adapter passage; and a first valve seat assembly disposed between the body and the ball, and a second valve seat assembly disposed between the adapter and the ball, both the first and second valve seat assemblies comprising: a valve seat having an annular seat ring disposed within an inner bore of the respective body or adapter; and a one-piece energizing device external from the valve seat, wherein the one-piece energizing device is configured to generate an energizing force in an axial direction to force the valve seat axially against the ball, wherein the energizing force is substantially directly proportional to an axial movement of the valve seat with respect to the respective body or adapter, such that the energizing force changes only in a substantially linear manner relative to the axial movement over a full range of movement of the valve seat, wherein the one-piece energizing device comprises an annular spring disposed between the annular seat ring