Double valve block and actuator assembly including same

What is claimed is: 1. A valve for controlling the flow of a fluid in a subsea assembly, comprising: a housing comprising a longitudinal axis and including a first chamber, a second chamber, and a neutral chamber positioned axially between the first chamber and the second chamber; an elongate stem slidable within the housing and extending axially through the neutral chamber, the stem comprising a first end and a second end opposite the first end; a first valve member at least partially located in the first chamber and connected to the first end of the stem, wherein the first valve member has a closed position seated in a first annular valve seat positioned axially between the first chamber and the neutral chamber and an open position spaced apart from the first valve seat; a second valve member at least partially located in the second chamber and connected to the second end of the stem, wherein the second valve member has a closed position seated in a second annular valve seat positioned axially between the second chamber and the neutral chamber and an open position spaced apart from the second valve seat; and a biasing member positionable in at least one of the first chamber, the second chamber, and the neutral chamber, the biasing member being configured to bias at least one of the first valve member and the second valve member. 2. The valve of claim 1 , further comprising: a first port extending through the housing and in fluid communication with the first chamber; a second port extending through the housing and in fluid communication with the second chamber; and a neutral port extending through the housing and in fluid communication with the neutral chamber. 3. The valve of claim 1 , further comprising: a first fluid flow path extending axially from the neutral chamber to the first valve seat; and a second fluid path extending axially from the neutral chamber to the second valve seat. 4. The valve of claim 3 , wherein: the housing includes a first wall axially positioned between the first chamber and the neutral chamber and a second wall axially positioned between the second chamber and the neutral chamber; the stem extends axially through a throughbore in the first wall and a throughbore in the second wall; and the first fluid flow path extends through the first wall and the second fluid flow path extends through the second wall. 5. The valve of claim 4 , wherein: the first fluid flow path comprises an annulus disposed about the stem and extending axially from the first valve seat and a plurality of circumferentially spaced bores disposed about the stem and extending from the annulus to the neutral chamber; and the second fluid flow path comprises an annulus disposed about the stem and extending axially from the second valve seat and a plurality of circumferentially spaced bores disposed about the stem and extending from the annulus to the neutral chamber. 6. The valve of claim 1 , wherein: the first chamber is in fluid communication with the neutral chamber when the first valve member is in the open position; and the second chamber is in fluid communication with the neutral chamber when the second valve member is in the open position. 7. The valve of claim 6 , wherein: the first chamber is not in fluid communication with the neutral chamber when the first valve member is in the closed position; and the second chamber is not in fluid communication with the neutral chamber when the second valve member is in the closed position. 8. The valve of claim 1 , wherein the biasing member is positioned in the neutral chamber. 9. The valve of claim 1 , wherein the valve is in fluid communication with an actuator assembly of a blowout preventer (“BOP”), the actuator assembly configured to transition at least one of an opposed pair of rains located on the BOP from an open position withdrawn from a main bore of the BOP to a closed position extending into the main bore of the BOP. 10. A system for drilling a subsea wellbore, the system comprising: a blowout preventer (“BOP”) comprising a main bore and a pair of opposed rams, each rain having an open position withdrawn from the main bore and a closed position extending into the main bore; and a valve configured to facilitate actuation of the BOP rams, the valve comprising: a housing comprising a longitudinal axis and including a first chamber, a second chamber, and a neutral chamber positioned axially between the first chamber and the second chamber; a first valve member at least partially located in the first chamber, wherein the first valve member has a closed position seated in a first annular valve seat and an open position spaced apart from the first valve seat; a second valve member at least partially located in the second chamber, wherein the second valve member has a closed position seated in a second annular valve seat and an open position spaced apart from the second valve seat; and a biasing member positionable in at least one of the first chamber, the second chamber, and the neutral chamber, the biasing member being configured to bias at least one of the first valve member and the second valve member. 11. The system of claim 10 , wherein the valve includes a stem slidably disposed in the housing, wherein the stem comprises a first end connected to the first valve member and a second end connected to the second valve member. 12. The system of claim 10 , wherein the biasing member is configured to bias the second valve member to the closed position and the first valve member to the open position. 13. The system of claim 10 , further comprising: an actuator assembly configured to transition one rain between the open position and the closed position, wherein the actuator assembly comprises: a cylinder comprising an inner cavity; a piston slidingly disposed in the cylinder, wherein the piston divides the inner cavity of the cylinder into a close chamber, an open chamber, and a neutral chamber positioned between the open chamber and the close chamber; and a connecting rod coupled to the piston and the ram. 14. The system of claim 13 , wherein: the first valve member is engaged with the first valve seat in the closed position and is axially spaced from the first valve seat in the open position; and the second valve member is engaged with the second valve seat in the closed position and is axially spaced from the second valve seat in the open position. 15. The system of claim 14 , wherein the first valve member forms an annular metal-to-metal seal with the first valve seat in the closed position and the second valve member forms an annular metal-to-metal seal with the second valve seat in the closed position. 16. The system of claim 15 , wherein the close chamber has a diameter and the open chamber has a diameter less than the diameter of the close chamber. 17. The system of claim 13 , wherein: the close chamber is in fluid communication with the first chamber, the valve neutral chamber, and the cylinder neutral chamber when the first valve member is in the open position; and the open chamber is in fluid communication with the second chamber, the valve neutral chamber, and the cylinder neutral chamber when the second valve member is in the open position. 18. The system of claim 13 , wherein: the inner cavity includes a central axis and extends axially through the cylinder between a first end and a second end, wherein the inner cavity includes a first portion having a first radius and a second portion having a second radius that is less than the first radius; and