Valves having removable internal actuation mechanisms

What is claimed is: 1. An apparatus comprising: a body having a valve seat disposed in a fluid flow passageway between an inlet and an outlet; a flow control member operatively coupled to the body, the flow control member to move between a first position to engage the valve seat to restrict fluid flow through a valve and a second position to move away from the valve seat to allow fluid flow through the valve; and an actuator removably coupled to the body via an opening non-parallel relative to a longitudinal axis of the fluid flow passageway, the actuator being removable from the body while the inlet and outlet are to remain coupled in-line with a system, the actuator being operatively coupled to the flow control member to cause the flow control member to move between the first and second positions, a portion of the removable actuator defining a fluid control chamber being cantilevered in the fluid flow passageway between the inlet and the outlet when the removable actuator is coupled to the body, the fluid control chamber of the removable actuator being fluidly isolated from the fluid flow passageway. 2. An apparatus as described in claim 1 , wherein the actuator is responsive to a fluid pressure independent of a pressure of a process fluid to flow through the passageway. 3. An apparatus as described in claim 1 , wherein the actuator is removably coupled to the body via threaded fasteners. 4. An apparatus as described in claim 1 , wherein the actuator is selected from a first plurality of removable actuators that is interchangeable with a second removable actuator selected from a second plurality of removable actuators. 5. An apparatus as described in claim 4 , wherein the actuator selected from the first plurality of removable actuators comprises an internal pneumatic actuator. 6. An apparatus as described in claim 1 , further comprising an equalization member to engage a bleed port integrally formed with the flow control member, the equalization member to move between at least a first operating position to engage the bleed port to restrict fluid flow through the bleed port and a second operating position to move away from the bleed port to allow fluid flow through the bleed port. 7. An apparatus as described in claim 6 , further comprising a valve stem operatively coupled to the equalization member, the actuator to engage the valve stem to position the equalization member to the at least second operating position. 8. An apparatus as described in claim 6 , wherein the equalization member is movable to a third operating position to allow an increased flow of fluid through the bleed port. 9. An apparatus as described in claim 1 , wherein the opening has an axis substantially perpendicular relative to a longitudinal axis of the fluid flow passageway. 10. An apparatus comprising a body having a valve seat disposed in a fluid flow passageway between an inlet and an outlet; a flow control member operatively coupled to the body, the flow control member to move between a first position to engage the valve seat to restrict fluid flow through a valve and a second position to move away from the valve seat to allow fluid flow through the valve; an equalization member to engage a bleed port integrally formed with the flow control member, the equalization member to move between at least a first operating position to engage the bleed port to restrict fluid flow through the bleed port and a second operating position to move away from the bleed port to allow fluid flow through the bleed port, wherein the equalization member is movable to a third operating position to allow an increased flow of fluid through the bleed port; and a removable actuator coupled to the body and operatively coupled to the flow control member to cause the flow control member to move between the first and second positions, a portion of the removable actuator being cantilevered in the fluid flow passageway between the inlet and the outlet when the removable actuator is coupled to the body, wherein the removable actuator comprises an internal pneumatic actuator comprising: a housing having a piston disposed between a first chamber in fluid communication with an external pressure source and a second chamber in fluid communication with an atmospheric pressure, a decreased pressure in the first chamber is to cause the piston to move to a first piston position and an increased pressure in the first chamber is to cause the piston to move to a second piston position; and an actuator stem coupled to the piston at a first end of the actuator stem and operatively coupled to the equalization member at a second end of the actuator stem so that the first piston position is to cause the equalization member to move to the at least first operating position. 11. An apparatus as described in claim 10 , further comprising a spring to bias the equalization member to move to the at least first operating position when the piston is at the first piston position. 12. An apparatus as described in claim 10 , wherein the actuator is to cause the equalization member to move to at least one of the second operating position or the third operating position when the piston moves from the first piston position toward the second piston position. 13. An apparatus comprising: a valve body defining an in-line fluid flow passageway between an inlet and an outlet, the valve body including an opening having an axis non-parallel relative to a longitudinal axis of the fluid flow passageway, the longitudinal axis of the fluid flow passageway being substantially parallel relative to the inlet and the outlet; a first flow control member positioned in the fluid flow passageway and being movable in a direction substantially parallel relative to the longitudinal axis between a first operating position and a second operating position; and an actuator removably coupled to the valve body via the opening, the actuator having at least one of a piston or a cam positioned inside the fluid flow passageway when the actuator is coupled to the valve body, the at least one of the piston or the cam to pass through the opening to removably couple the actuator and the valve body, the actuator to move in the direction substantially parallel relative to the longitudinal axis to cause the first flow control member to move between the first operating position and the second operating position. 14. An apparatus as described in claim 13 , wherein a portion of the actuator is cantilevered in the passageway when the actuator is coupled to the valve body such that the portion of the actuator projects into the fluid flow passageway. 15. An apparatus as described in claim 13 , wherein the actuator comprises an internal pneumatic actuator. 16. An apparatus comprising: a body having an inner surface that defines a fluid flow passageway between an inlet and an outlet, the fluid flow passageway to receive a process fluid; a flow control member operatively coupled to the body, the flow control member to move between a first position to engage a valve seat positioned in the body to restrict fluid flow through the passageway and a second position to move away from the valve seat to allow fluid flow through the passageway; a removable actuator removably coupled to the body via an opening formed through a wall of the body, the opening having an axis non-parallel relative to a longitudinal axis of the fluid flow passageway, the removable actuator having an actuation member movable within a housing between a first control chamber and a second control chamber, at least a portion of the housing to be suspended inside the fl