Floating valve seat for a rotary control valve for use in severe service applications

The invention claimed is: 1. A valve seat for use in a rotary valve comprising a valve body and a floating ball element movably disposed in the valve body, the valve seat comprising: a seat body adapted to selectively engage a portion of the floating ball element; a sealing element disposed in a first groove formed in the seat body and adapted to prevent fluid flow between the seat body and the valve body; a first bearing disposed in a second groove formed in the seat body; and a second bearing disposed in a third groove formed in the seat body, wherein the second and third grooves are formed immediately adjacent the first groove such that the first and second bearings are disposed immediately adjacent the sealing element to protect the sealing element, wherein each of the first bearing and the second bearing has a portion that is positioned radially outwardly of an outer perimeter surface of the seat body, wherein the seat body comprises the outer perimeter surface and an inner perimeter surface opposite the outer perimeter surface, and wherein the first, second, and third grooves are formed in the outer perimeter surface, and further comprising a biasing element disposed in the first groove and configured to bias the sealing element away from the inner perimeter surface. 2. The valve seat of claim 1 , wherein the first groove is formed between the second and third grooves, such that the sealing element is disposed between the first and second bearings. 3. The valve seat of claim 1 , wherein the first and second bearings each comprise a split-ring. 4. The valve seat of claim 1 , further comprising a first bushing disposed in a fourth groove formed in the seat body, wherein the fourth groove is formed between an inner side of the seat body and the second groove, such that the first bushing is disposed between the inner side of the seat body and the first bearing. 5. The valve seat of claim 4 , further comprising a second bushing disposed in a fifth groove formed in the seat body, wherein the fifth groove is formed between an outer side of the seat body and the third groove, such that the second bushing is disposed between the outer side of the seat body and the second bearing. 6. A valve seat for use in a rotary valve comprising a valve body and a floating ball element movably disposed in the valve body the valve seat comprising: a seat body adapted to selectively engage a portion of the floating ball element; a sealing element disposed in a first groove formed in the seat body and adapted to prevent fluid flow between the seat body and the valve body; a first bearing disposed in a second groove formed in the seat body; a second bearing disposed in a third groove formed in the seat body, wherein the second and third grooves are formed immediately adjacent the first groove such that the first and second bearings are disposed immediately adjacent the sealing element to protect the sealing element; and a biasing element disposed in the first groove and configured to bias the sealing element radially outward. 7. The valve seat of claim 6 , wherein the sealing element comprises an elastomeric seal. 8. A trim assembly for use in a rotary valve comprising a valve body, the trim assembly comprising: a valve stem; a floating ball element adapted to be disposed in the valve body and coupled to the valve stem, the floating ball element movable between an open position and a closed position; and a valve seat, comprising: a seat body adapted to engage a portion of the floating ball element when the floating ball element is in the closed position; a sealing element disposed in a first groove formed in the seat body and adapted to prevent fluid flow between the seat body and the valve body; a first bearing disposed in a second groove formed in the seat body; and a second bearing disposed in a third groove formed in the seat body, wherein the second and third grooves are formed immediately adjacent the first groove such that the first and second bearings are disposed immediately adjacent the sealing element to protect the sealing element, wherein each of the first bearing and the second bearing has a portion that is positioned radially outwardly of an outer perimeter surface of the seat body, wherein the seat body comprises the outer perimeter surface and an inner perimeter surface opposite the outer perimeter surface, and wherein the first, second, and third grooves are formed in the outer perimeter surface, and further comprising a biasing element disposed in the first groove and configured to bias the sealing element away from the inner perimeter surface. 9. The trim assembly of claim 8 , wherein the first groove is formed between the second and third grooves, such that the sealing element is disposed between the first and second bearings. 10. The trim assembly of claim 8 , wherein the first and second bearings each comprise a split-ring. 11. A trim assembly for use in a rotary valve comprising a valve body, the trim assembly comprising: a valve stem; a floating ball element adapted to be disposed in the valve body and coupled to the valve stem, the floating ball element movable between an open position and a closed position; a valve seat, comprising: a seat body adapted to engage a portion of the floating ball element when the floating ball element is in the closed position; a sealing element disposed in a first groove formed in the seat body and adapted to prevent fluid flow between the seat body and the valve body; a first bearing disposed in a second groove formed in the seat body; and a second bearing disposed in a third groove formed in the seat body, wherein the second and third grooves are formed immediately adjacent the first groove such that the first and second bearings are disposed immediately adjacent the sealing element to protect the sealing element; and a biasing element disposed in the first groove and configured to bias the sealing element radially outward. 12. The trim assembly of claim 11 , wherein the sealing element comprises an elastomeric seal. 13. A rotary valve, comprising: a valve body and an adapter coupled to one end of the valve body, thereby defining a valve inlet, a valve outlet, and a valve interior in fluid communication with the valve inlet and the valve outlet; a floating ball element pivotably mounted in the valve interior via a valve stem to control fluid flow between the valve inlet and the valve outlet, the floating ball element movable between an open position, allowing fluid to flow between the valve inlet and the valve outlet, and a closed position, preventing fluid from flowing between the valve inlet and the valve outlet; and a first valve seat movably disposed in the valve interior proximate to the valve outlet, wherein the first valve seat comprises: a seat body configured to engage a first portion of the floating ball element when the floating ball element is in the closed position; a sealing element disposed in a first groove formed in the seat body and configured to prevent fluid flow between the valve body and the seat body; a first bearing disposed in a second groove formed in the seat body; a second bearing disposed in a third groove formed in the seat body, wherein the second and third grooves are formed immediately adjacent the first groove such that the first and second bearings are disposed immediately adjacent the sealing element to protect the sealing element; and a biasing element disposed in the first groove and configured to bias the sealing element radially outward, wherein each of the first bearing and the second bearing has a portion that is positioned r