System, method and apparatus for combined ball segment valve and check valve

What is claimed is: 1. A valve apparatus, comprising: a ball segment valve housing; a check valve housing coupled to the ball segment valve housing such that a longitudinal opening is defined through the ball segment valve housing and the check valve housing; a ball segment disposed within the ball segment valve housing, the ball segment operable to be rotated to a closed position wherein a generally curved end of the ball segment is in sealing engagement with a ball segment valve seat disposed within the ball segment valve housing to prevent the flow of a working fluid through an outlet of the longitudinal opening, and operable to be rotated to an open position wherein the generally curved end of the ball segment is at least partially disengaged with the ball segment valve seat to permit flow of the working fluid through the outlet; and at least one flapper door disposed within the check valve housing, the at least one flapper door operable to be rotated to: a closed position wherein the at least one flapper door is in sealing engagement with a flapper valve seat to prevent flow of the working fluid through the longitudinal opening in a first direction, wherein the at least one flapper door is longitudinally spaced from the ball segment when the at least one flapper door and the ball segment are both in their respective closed positions to define an isolated chamber within the longitudinal opening between the at least one flapper door and the ball segment; and an open position wherein the at least one flapper door permits flow of the working fluid through the flapper valve seat in a second direction, and wherein the at least one flapper door extends from the check valve housing into the ball segment valve housing such that the at least one flapper door longitudinally overlaps the ball segment when the at least one flapper door and the ball segment are both in their respective open positions. 2. The valve apparatus according to claim 1 , further comprising a bleed valve extending between the isolated chamber and an exterior of the valve apparatus. 3. The valve apparatus according to claim 1 , wherein the ball segment extends less than a full circumference and engages only a single ball segment valve seat. 4. The valve apparatus according to claim 1 , wherein the ball segment is operable to be rotated about a pivot axis that is generally orthogonal to a longitudinal axis extending through the longitudinal opening, and wherein the at least one flapper door is operable to be rotated about a flapper axis that is generally orthogonal to the pivot axis of the ball segment. 5. The valve apparatus according to claim 1 , wherein the at least one flapper door comprises a pair of flapper doors operable to rotate toward one another to a central location within the longitudinal opening. 6. The valve apparatus according to claim 5 , wherein further comprising a biasing member disposed within the check valve housing and operable to urge the pair of flapper doors to the closed position. 7. A fluid system fin handling a flammable working fluid, the fluid system comprising: an upstream fluid component; a downstream fluid component; a source of a pressurized non-flammable fluid; and a valve apparatus having an inlet fluidly coupled to the upstream component and an outlet fluidly coupled to the downstream component such that a flow path is defined between the upstream fluid component and the downstream component through the valve apparatus, the valve apparatus comprising: a ball segment operable to he rotated to a closed position wherein a generally curved end of the ball segment is in sealing engagement with ball segment valve seat to prevent flow of the working fluid through the outlet, and operable to be rotated to an open position wherein the generally curved end of the ball segment is at least partially disengaged with the ball segment valve seat to permit flow of the working fluid through the outlet; and at least one flapper door disposed operable to be rotated to a closed position wherein the at least one flapper door is in sealing engagement with a flapper valve seat to prevent flow of the working fluid through the inlet in a first direction, and operable to be rotated to an open position wherein the at least one flapper door is at least partially disengaged with the flapper valve seat to permit flow of the working, fluid through the inlet in a second direction; an isolated chamber defined between the at least one flapper door and the ball segment when the at least one flapper door and the ball segment are both in their respective closed positions; and a bleed port extending between the isolated chamber and an exterior of the valve apparatus, the bleed port fluidly coupled to the source of the pressurized non-flammable fluid to permit the non-flammable fluid to pressurize the isolated chamber and thereby urge the ball segment toward the ball segment valve seat and at least one flapper door toward the flapper valve seat. 8. The fluid system according to claim 7 , wherein the source or the pressurized non-flammable fluid comprises a pump operable to adjust a pressure of the non-flammable fluid within the isolated chamber. 9. The fluid system according to claim 8 , wherein the pump is operable to provide the non-flammable fluid to the isolated chamber at a fluid pressure of at least 10,000 psi. 10. The fluid system according to claim 7 , wherein the non-flammable fluid comprises a PTFE impregnated grease or paste. 11. The fluid system according to claim 7 , wherein the at least one flapper door extends toward the ball segment in the open position thereof such that the at least one flapper door longitudinally overlaps the ball segment when the at least one flapper door and the ball segment are both in their respective open positions. 12. The fluid system according to claim 7 , wherein the downstream component comprises at least one of a dehydrator, a separator and an accumulator pressure vessel operable to maintain the working fluid at a preselected pressure therein. 13. A method of fluidly isolating a downstream fluid component from an upstream fluid component in a fluid system for handling as flammable working fluid to facilitate safely maintaining the downstream fluid component, the method comprising the steps of: (a) providing a check valve at downstream location with respect to the upstream component, the check valve including at least one flapper door operable to be rotated to a closed position wherein the at least one flapper door is in sealing engagement with a flapper valve seat to prevent flow of the working fluid in a first upstream direction, and operable to be rotated to an open position wherein the at least one flapper door is at least partially disengaged with the flapper valve seat to permit flow of the working fluid in a second downstream direction; (b) providing a ball segment valve at a downstream location with respect to the check valve that is an upstream location with respect to the downstream component, the ball segment valve including a ball segment operable to be rotated to a closed position wherein a generally curved end of the ball segment is in sealing engagement with a ball segment valve seat to prevent flow of the working fluid through the ball segment valve, and operable to be rotated to an open position wherein the generally curved end of the ball segment is at least partially disengaged with the ball segment valve seat to permit flow of the working fluid through the ball segment valve; (c) inducing the ball segment to rotate to the closed position thereof; (d) inducing the at least one flapper door to rotate to the closed position the