Self-relieving ball valve seat

The invention claimed is: 1. A seat system, comprising: a first unitary annular seat configured to be disposed within a first groove of a body of a ball valve and to contact a ball of the ball valve, wherein the first unitary annular seat comprises: axially opposite first and second surfaces, the first surface comprises a first straight angled portion and a second straight angled portion, the first straight angled portion defines a first length and the second straight angled portion defines a second length, the second length is greater than the first length, the first and second straight angled portions are radially offset from each other and acutely angled relative to a central axis of the first unitary annular seat, the radial offset is configured to block contact between the first straight angled portion and the ball such that the first straight angled portion does not contact the ball while the ball valve is in a closed position with the first unitary annular seat downstream such that a first pressure in a first passage on a first side of the ball adjacent to the first unitary annular seat is less than a second pressure in a second passage on a second side of the ball opposite from the first unitary annular seat, and the first unitary annular seat is configured to self-relieve. 2. The seat system of claim 1 , wherein the second surface of the first unitary annular seat is configured to contact the body to form a first seal at a first diameter, the second straight angled portion of the first surface of the first unitary annular seat is configured to contact the ball to form a second seal at a second diameter. 3. The seat system of claim 1 , wherein the first unitary annular seat comprises a first main body section, a first lip section extending from the first main body section, and a first seat groove between the first main body section and the first lip section, wherein an annular spring is disposed within the first seat groove, and the annular spring is configured to bias the first and second surfaces of the first unitary annular seat axially away from one another along the central axis. 4. The seat system of claim 3 , wherein the annular spring comprises a first leg that biases the first lip section in a first axial direction along the central axis and a second leg of the annular spring biases the first main body section in a second axial direction along the central axis opposite to the first axial direction. 5. The seat system of claim 4 , wherein the annular spring biases the first lip section against a first surface of the first groove, and the annular spring biases the first main body section away from the first surface of the first groove and against the ball. 6. The seat system of claim 1 , wherein the first and second straight angled portions are radially separated by a connecting portion, and the connecting portion is perpendicular to the central axis. 7. The seat system of claim 1 , comprising a second unitary annular seat configured to be disposed within a second groove of an adapter of the ball valve and to contact the ball, wherein the second unitary annular seat comprises axially opposite third and fourth surfaces, and the second unitary annular seat is configured to self-relieve. 8. The seat system of claim 7 , wherein the second unitary annular seat comprises a second main body section, a second lip section extending from the second main body section, and a second seat groove between the second main body section and the second lip section, wherein a second annular spring is disposed within the second seat groove, the second annular spring is configured to bias the third and fourth surfaces of the second unitary annular seat axially away from one another along the central axis. 9. The seat system of claim 8 , wherein the second annular spring comprises a second leg that biases the second lip section in a third axial direction along the central axis and a fourth leg of the second annular spring biases the second main body section in a fourth axial direction along the central axis opposite to the third axial direction. 10. The seat system of claim 1 , comprising the body. 11. The seat system of claim 7 , comprising the adapter. 12. A system, comprising: a unitary annular ball valve seat disposed within an annular groove of a valve housing for use in a ball valve, wherein the unitary annular ball valve seat comprises a main body section and a lip section, the main body section defines opposite first and second axial surfaces and radially-inner and radially-outer circumferential surfaces, and the lip section is recessed below the radially-outer circumferential surface; and an annular spring disposed within a seat groove of the unitary annular ball valve seat, wherein the seat groove extends radially into the radially-outer circumferential surface of the unitary annular ball valve seat at a position axially between the first and second axial surfaces of the unitary annular ball valve seat, the annular spring biases the opposite first and second axial surfaces of the unitary annular ball valve seat axially into contact with a ball and the valve housing, and the annular spring comprises a first leg and a second leg that are configured to be parallel to one another such that respective radially-outer ends of the first leg and the second leg are separated by a first axial distance during certain pressure conditions within the ball valve and to be angled relative to one another such that the respective radially-outer ends of the first leg and the second leg are separated by a second axial distance that is less than the first axial distance during other pressure conditions within the ball valve. 13. The system of claim 12 , wherein the first leg of the annular spring biases the lip section in a first axial direction, and the second leg of the annular spring biases the main body section in a second axial direction opposite the first axial direction. 14. The system of claim 12 , wherein the unitary annular ball valve seat comprises an angled surface configured to interface with the ball, the angled surface comprises a first surface configured to make contact with the ball, a second surface configured not to make contact with the ball, and a tapered section connecting the first and second surfaces. 15. The system of claim 12 , wherein the annular spring is a u-shaped spring. 16. The system of claim 12 , wherein the annular spring comprises a metallic cantilever spring. 17. A system, comprising: a valve housing comprising an annular groove; a ball disposed in the valve housing; a unitary annular ball valve seat disposed within the annular groove, the unitary annular ball valve seat comprising axially opposite first and second axial surfaces, the first surface comprises a first straight angled portion and a second straight angled portion, the first straight angled portion defines a first length and the second straight angled portion defines a second length, wherein the second length is greater than the first length, wherein the first and second straight angled portions are radially offset from each other and acutely angled relative to a central axis of the unitary annular ball valve seat, wherein the radial offset is configured to block contact between the first straight angled portion and the ball such that only the second straight angled portion, and not the first straight angled portion, contacts the ball while the ball is in a closed position within the valve housing with the unitary annular ball valve seat downstream such that a first pressure in a first bore on a first side of the