Passive integral isolation valve

I claim: 1 . A valve assembly configured for connection to a vessel penetration of a reactor pressure vessel of a nuclear reactor, the valve assembly including: a flange configured to connect with the vessel penetration; a valve body disposed inside the flange or arranged to protrude from the flange into the vessel penetration when the flange is connected with the vessel penetration; a valve comprising a valve seat and a movable valve member, the valve disposed inside the valve body with the movable valve member positioned so that pressure inside the reactor pressure vessel urges the movable valve member against the valve seat to close the valve; and a plenum defined between the valve body and the movable valve member and having an inlet, the plenum configured such that pressurization of the plenum via the inlet urges the movable valve member away from the valve seat to open the valve. 2 . The valve assembly of claim 1 wherein the valve body is disposed inside the flange and is one of (i) formed integrally with the flange and (ii) separate from the flange and mounted inside the flange. 3 . The valve assembly of claim 1 wherein the valve body is mounted on the flange and arranged to protrude from the flange into the vessel penetration when the flange is connected with the vessel penetration. 4 . The valve assembly of claim 1 wherein the plenum comprises a plurality of plenum regions arranged around the movable valve member and the movable valve member includes protrusions extending into the plenum regions. 5 . The valve assembly of claim 4 wherein the plurality of plenum regions comprises a plurality of slots arranged around the movable valve member and aligned with the direction of travel of the movable valve member, and the protrusions of the movable valve member extend into the slots. 6 . The valve assembly of claim 1 wherein the valve assembly does not include a valve actuator. 7 . A system for protecting a vessel penetration of a nuclear reactor pressure vessel of a nuclear reactor, the system comprising: a valve assembly comprising: a flange connected with the vessel penetration; a valve body disposed inside the flange or arranged to protrude from the flange into the vessel penetration when the flange is connected with the vessel penetration; a valve comprising a valve seat and a movable valve member, the valve disposed inside the valve body with the movable valve member positioned so that pressure inside the reactor pressure vessel urges the movable valve member against the valve seat to close the valve; a plenum defined between the valve body and the movable valve member and having an inlet, the plenum configured such that pressurization of the plenum via the inlet urges the movable valve member away from the valve seat to open the valve; a valve assembly control line comprising a fluid line connected with the inlet of the plenum of the valve assembly; and a pilot valve disposed on the valve assembly control line. 8 . The system of claim 7 further comprising: a reactor coolant inventory and purification system (RCIPS) including a make-up line supplying make-up coolant water to the reactor pressure vessel; wherein the valve assembly control line is connected with the make-up line. 9 . The system of claim 8 wherein the valve assembly is connected to a let-down line of the RCIPS to remove let-down coolant water from the reactor pressure vessel. 10 . A valve assembly configured for connection to a vessel penetration of a reactor pressure vessel of a nuclear reactor, the valve assembly comprising: a flange configured to connect with the vessel penetration; a valve disposed inside the flange or arranged to protrude from the flange into the vessel penetration when the flange is connected with the vessel penetration, the valve including a valve seat and a movable valve member positioned so that pressure inside the reactor pressure vessel urges the movable valve member against the valve seat to close the valve; wherein the valve assembly further includes a plenum having an inlet via which the plenum can be pressurized to apply pressure to the movable valve member that urges the movable valve member away from the valve seat to open the valve. 11 . The valve assembly of claim 10 wherein the flange is a spool flange including spaced apart first and second flange lips connected by a hollow channel, and the valve is disposed inside the spool flange. 12 . The valve assembly of claim 10 further comprising: a cylindrical valve body mounted on the flange, the cylindrical valve body containing the valve, the cylindrical valve body sized to insert coaxially into a vessel penetration comprising a cylindrical bore passing through a wall of the reactor pressure vessel when the flange is connected with the vessel penetration. 13 . The valve assembly of claim 10 wherein the plenum comprises a plurality of plenum regions arranged around the movable valve member, and the movable valve member includes protrusions extending into the plenum regions, wherein pressurizing the plenum regions via the inlet applies pressure to the protrusions to urge the movable valve member away from the valve seat to open the valve. 14 . The valve assembly of claim 13 wherein the plurality of plenum regions comprises a plurality of slots arranged around the movable valve member and aligned with a direction of travel of the movable valve member, and the protrusions of the movable valve member extend into the slots. 15 . The valve assembly of claim 10 wherein the plenum is defined in part by a surface of the movable valve member. 16 . The valve assembly of claim 10 wherein the valve assembly does not include a valve actuator. 17 . A system comprising: a nuclear reactor comprising a reactor pressure vessel having a vessel penetration and a nuclear reactor core including fissile material contained in a lower portion of the reactor pressure vessel; a valve assembly comprising: a flange connected with the vessel penetration; a valve disposed inside the flange or arranged to protrude from the flange into the vessel penetration when the flange is connected with the vessel penetration, the valve including a valve seat and a movable valve member positioned so that pressure inside the reactor pressure vessel urges the movable valve member against the valve seat to close the valve; wherein the valve assembly further includes a plenum having an inlet via which the plenum can be pressurized to apply pressure to the movable valve member that urges the movable valve member away from the valve seat to open the valve; a valve assembly control line comprising a fluid line connected with the inlet of the plenum of the valve assembly; and a pilot valve disposed on the valve assembly control line. 18 . The system of claim 17 further comprising: a reactor coolant inventory and purification system (RCIPS) including a let-down line connected with the vessel penetration via the valve assembly to remove let-down coolant water from the reactor pressure vessel. 19 . The system of claim 18 wherein the RCIPS further includes a make-up line supplying make-up coolant water to the reactor pressure vessel, the make-up line also connected to the valve assembly control line to pressurize the plenum of the valve assembly with make-up coolant water from the make-up line. 20 . The system of claim 17 further comprising: a radiological containment structure including a reactor cavity in which is disposed the lower p