Patent Number: 
Section: claims

1. A high-reliability safety valve, comprising:a conduit for a fluid;a barrier in the conduit completely preventing flow of the fluid through the conduit;a ballistic projectile targeting the barrier, wherein the projectile is independent of the conduit such that the projectile flows out of the conduit in the flow of the fluid after impacting and breaking the barrier;a catcher paired with the conduit, wherein the catcher is permeable to the flow of the fluid and impermeable to the projectile and the barrier; anda catcher sensor completing an electrical current through the catcher, wherein the catcher conducts electricity, and wherein the sensor is configured to generate a valve opening indication upon loss of the electrical current. 2. The valve of claim 1, wherein the ballistic projectile is a bullet propelled by gunpowder. 3. The valve of claim 1, wherein the catcher is a metallic mesh envelope with an elastic opening, and wherein the catcher is configured to enter the flow of the fluid after enveloping at least one of the projectile and at least a portion of the broken barrier. 4. The valve of claim 1, wherein the barrier is a glass plate extending throughout a cross-sectional flow area of the conduit, and wherein the glass plate is configured to shatter upon impact from the projectile. 5. The valve of claim 1, wherein the barrier is a flexible cone topped by a cap, and wherein the projectile is targeted at the cap, and wherein the flexible cone is configured to flex toward an inner surface of the conduit in the flow of the fluid after the cap is broken off. 6. The valve of claim 5, wherein the flexible cone includes a thin sheet of stainless steel incompletely extending through a flow area of the conduit, and wherein the cap is a carbon steel rod welded to the stainless steel sheet. 7. The valve of claim 1, wherein the barrier is a hinged door rotatable and joined to the conduit, and wherein the hinged door includes a cap rigidly joined to the conduit so as to prevent the rotation. 8. The valve of claim 1, wherein the ballistic projectile is a .22 caliber bullet, the valve further comprising:an actuator configured to strike the bullet at four points about a rim of the bullet, wherein the four points are separated by at least 90 degrees about the rim. 9. A high-reliability safety valve, comprising:a conduit for a fluid;a barrier in the conduit completely preventing flow of the fluid through the conduit, wherein the barrier is configured to break into multiple pieces smaller than the conduit, and wherein at least one of the pieces is configured to freely flow in the fluid so as to exit the conduit and the valve without blocking the conduit;a projectile configured to impact and break the barrier into the multiple pieces, wherein the projectile is on an opposite side of the barrier from the fluid when the barrier is intact; anda plurality of actuators for the projectile, wherein at least one of the actuators is configured to fire the projectile at the barrier with an electrical current, and wherein at least one of the actuators is configured to fire the projectile at the barrier upon loss of the electrical current. 10. The valve of claim 9, further comprising:a catcher paired with the conduit and configured to retain the multiple pieces. 11. The valve of claim 10, wherein the catcher is a metallic mesh envelope with an elastic opening, and wherein the catcher is configured to detach and freely flow in the fluid after enveloping the multiple pieces. 12. The valve of claim 11, further comprising:a catcher sensor completing an electrical current through the catcher, wherein the catcher conducts electricity, and wherein the sensor is configured to generate a valve opening indication upon loss of the electrical current. 13. The valve of claim 9, wherein the barrier is a frangible material configured to withstand at least 10,000 psi static pressure differential and break upon impact from the projectile. 14. The valve of claim 13, wherein the barrier is at least one of glass and a metal. 15. The valve of claim 14, wherein the barrier is a glass plate, the valve further comprising:a rim in the conduit retaining the glass plate in the conduit; anda gasket between the rim and glass plate. 16. A method of operating a safety valve, the method comprising:firing a projectile at a barrier preventing fluid flow in the valve, wherein the projectile disrupts the barrier to cause the fluid to flow through the valve, wherein the firing is executed with a plurality of actuators each independently controlled to fire the projectile at the barrier ; andcollecting the projectile with a catcher in the fluid flow at an exit of the valve. 17. The method of claim 16, further comprising:collecting pieces of the barrier in the catcher; andreleasing the catcher in the fluid flow after the collecting the projectile and the pieces.