SE446569B - INTEGRATED REACTOR HEAD UNIT TO REDUCE THE TIME REQUIRED TO REMOVE AND INSTALL A STANDARD REACTOR CONTAINER DURING FUEL REPLACEMENT OPERATIONS - Google Patents

Description

.. = ..., ... w. 446 569 2 the main unit can then be lifted with all cables and the cable supports still attached thereto, as disclosed in US-A-B 836 430 to expose the reactor core.

US-A-B 836 429 discloses the consolidation of properties of the upper part of a nuclear reactor to incorporate the integrated main unit of the fast fuel exchange reactor. During the fuel change, all components and child devices that were individually disassembled from the reactor tank of the standard type reactor remain attached to the closable head of the tank by the rapid fuel change reactor. These components and subordinate devices include all cables, all components belong to the upper inner unit, such as the upper support plate, support pillars and in the upper core plate, the drive mechanisms of the guide rods and the drive shafts of the guide rods. The control rod bundles are also removed as part of the integrated main unit of the fast fuel change design.

The rapid fuel change reactor involves significant structural changes compared to the design of the standard type reactor to facilitate attachment of the upper interior unit to the container's closable head in a structurally satisfactory manner. As a result, the rapid fuel change reactor cannot be implemented as a re-fit of existing standard reactors. Consequently, there is still a significant problem associated with the long fuel change times regarding standard type reactors in operation and generally under construction.

Accordingly, it is an object of the present invention to provide a main unit for a reactor structure which allows both rapid fuel change and implementation on standard reactor structures.

This object is achieved according to the invention with an integrated reactor main unit for reducing the time required to disassemble and assemble a standard reactor container during the fuel change operations, said head consisting of an integrated device comprising a closing head for the pressure vessel for sealingly sealing a reactor container. to regulate the position of the control rod bundles inside a reactor core, a cooling casing to enclose the drive mechanisms of the control rods and to retain the cooling environment therein, a hard shield to provide lateral support to said control rod drive mechanisms and to prevent ejection of said control rod from said control mechanism. means for attaching a crane to said main unit for lifting said main unit on and off the reactor vessel, a plurality of vertical lifting rods hinged attached to said crane mounting means with said m-ß-f 446 569 3 closed head for providing structural support for said main unit, a plurality of winch devices for handling bolt tightening tools and bolt removal tools, means for supporting said winch devices, a plurality of cooling fans attached to said cooling height for directing the cooling air flow inside said cooling height placed between said main unit and an operating floor, which trough device can be quickly disassembled from said main unit, said device comprising a connection plate for facilitating the rapid removal of said cable trough device from said main unit, and a trough for supporting the cables between said connection plate and penetration points into said cooling casing.

With the device according to the invention, the time required to change fuel in a standard reactor is considerably reduced by using an integrated main unit which consolidates many components and subordinate devices of the upper reactor construction and which can be removed from the reactor tank by a single lift.

The invention is described in more detail below with reference to the accompanying drawing, which in perspective, partially sectioned, shows a preferred embodiment of an integrated main unit for a nuclear reactor.

The most common components of a reactor are the head of a pressure vessel with control rod drive mechanisms, a lifting rig, a hard protective part, lifting rods, a cooling casing, cable trays and cables, cooling fans, an operator's seat and winch devices. Detailed description of the construction and function of these components is available in the prior art and will not be made here. The description below is directed to a combination of these components which results in an improved integrated main unit for the standard reactor.

It should be noted from the outset that the present invention, incorporated as a standard integrated main unit, does not include an upper internal unit or control rod device as present in the main unit of the previously described rapid fuel change reactor, due to the addition of these minor devices would necessitate large structures. - technical changes to the standard reactor tank.

The drawing shows a standard integrated main unit. A three-legged lifting rig 12 for the main unit is connected by pins to a hard protection device 14. The hard protection device 14 is supported on three lifting rods 16 which are attached to a reactor unit main unit 18. The hard protection device 14 is usually a strongly reinforced steel plate for to prevent and separate a greenhouse for the control rods in the event of a major problem. A cooling housing 20 is mounted directly on an upper part of the main unit and surrounds the control rod drive mechanisms 22 which control the movement of the control rod bundles in and out of the core. The cooling housing 20 forms a support structure for the main unit as well as defines an enclosure that provides a cooling environment for the control rod drive mechanisms 22. Cooling fans 24 are mounted directly on the cooling housing 2D. Lifting rods 16 are tightened at the cooling housing 20 to provide additional stability to the structure and to transfer a lifting load from the hard guard plate 11 to the main body of the container 18. Cables 26 are located from the upper part of the control rod drive mechanisms 22 around the upper part of the standard entrance. - the main unit 10 to a connection plate 28 on the side of the structure.

From the connection plate 28, the cables are routed along a cable pull 3D to the respective cable connection.

The cable tray 30 is shorter than the cable tray of the fast fuel change reactor to adapt to the special geometry of the standard reactor plants. The cable tray is supported at the reactor end of the cooling casing 20 and at the other end on the support of a wall generator (not shown).

As part of the fuel change operations, the cables 26 are disconnected at the connection plate 28 and stored on the cable tray 3D. The cable tray 30 can then be pivoted at the upper floor end to a storage position away from the reactor vessel. This arrangement differs from the arrangement of the cable tray of the fast fuel change reactor, where the construction within limits allows the cable tray to remain attached to the main unit during the fuel change.

A cooling casing 20 made in four bolted sections as opposed to three sections on the fast fuel exchange reactor. A lower housing portion 20a, or first section, is bolted directly to the upper portion of the container main unit 18. The lower housing portion 20a includes a plurality of doors 32 that allow access for maintenance to thermocouple columns (not shown) for isolating and instrumentating the container main unit. The lower housing portion 20a also carries baffle plates (not shown) surrounding the control rod drive mechanisms 22 and is used to direct the flow of cooling air.

A center housing portion 2Db is bolted to the upper portion of the lower housing portion 20a. This section carries baffle plates as well as winch supports 34.

The winch supports 311 comprise two tracks running around the circumference of the middle housing part 20b. An outer web carries main rollers 36 on the winch devices 38. An inner web is used as a counterweight support for the winch devices 38. The winch devices 38 are turned to operate the bolt pulling tools and the bolt removal tools during the fuel change activities. 44.6 569 An upper housing part 20c is bolted to the upper part of the middle housing part 20b and supports baffle plates (not shown) and a plurality of cooling fans 24 for the drive rod drive mechanisms. The cooling fans 24 circulate air in the housing 2D to transfer dissipating heat from the control rod drive mechanisms 22.

A cable pulling device 20d extending around the circumference of the upper casing member 20c is used to support cables 26 for power take-off and instrumentation for the control rod drive mechanisms. Cables from the control rod drive mechanisms 22 and from the thermocouples (not shown) pass along line supports (not shown) to the cable carrying device 20d. All cables converge at an attachment plate which forms a joint of the cable tie 30 to the cable tie device 20d.

The use of the cable tray device 20d and the connection plate 28 facilitates rapid disconnection and feedback of the cable tray from the integrated main unit, a procedure necessary for the rapid fuel change reactor.

The three vertical lifting rods 16 are attached to the head 18 of the container by means of pins and are attached to the cooling height 2D in two places along their length. The lifting rods 16 serve to transmit a lifting force which is imparted by means of a crane from the hard protection device 14 to the head 18 of the container 18. The lifting rods 16 are allowed to move vertically relative to the housing, but are prevented from horizontal movement. A rounded tip is machined on the upper end 42 of the lifting rods 16 to provide guidance as the hard guard 14 is lowered on the lifting rods 16.

The hard protection device 14 comprises a circular flat plate. 44 which is bolted to lifting tabs 46 which by means of pins are fixed to the lifting rig 12. The flat plate 44 is perforated by means of a plurality of bevelled hales 48 to allow penetration of the projections 50 onto the drive mechanism housing of the guide rods.

This arrangement provides lateral support for the drive mechanism 22 of the guide rods and prevents any part of the mechanism 22 from penetrating into the enclosed housing (not shown) in the event of a major break. The tail 48 of the hard guard 14 of the invention is chamfered to facilitate installation. The bolted flat plate design of the hard guard device 14 of the integrated main unit 10 differs from the welded edge crater pattern of the hard guard devices in the prior art.

The bolted-on flat plate design technically improves the device 14, provides a safer and more comfortable operator work surface and eliminates certain requirements regarding welds (American Society of Mechanical Engineers Boiler and Pressure Vessel Code, Section III). An operator platform S2 which is screwed directly onto the hard guard plate 44 provides safe and convenient access to the eye of the lifting rig 12 for connection of the polar crane hook (not shown) thereto.

The standard integrated main unit consequently achieved, through a neat, compact design, a system that reduces the reactor downtime and reduces the requirement for manual operation by reducing the number of operations required to assemble and disassemble the standard reactor container during fuel change.

Claims (4)

446 569 PATENT REQUIREMENTS Integrated reactor head unit for reducing the time required to disassemble and assemble a standard reactor vessel during fuel change operations, the main unit being formed by an integrated device consisting of a pressure vessel closing head (18) for sealingly closing a reactor vessel, control rod drive mechanism (22) for regulating the position of the control rod bundles in a reactor core, a housing (20) for enclosing the control rod drive mechanisms (22), a protective plate (14) for providing side support for the control rod drive mechanisms (22) and for preventing ejection of the control rod drive shaft (22). ), means for attaching a crane to the main unit and lifting the main unit on and off the reactor tank, a plurality of vertical lifting rods (16) hingedly connecting the crane mounting means (12) to the closing head (18) to support the main unit, a a plurality of winch devices (38) for handling bolt tightening tools and bolt removal tools, means (34, 36) for supporting winch devices (38), a cable support device (28, 30) for supporting cables drawn between the main unit and an operating floor, which cable tray device (28, 30) is quickly removable from the main unit, the cable tray device comprising a connection plate (28) for facilitating rapid removal of the cable tray device (28, 30) from the main unit, characterized in that the housing (20) forms a cooling housing, that a plurality of cooling fans (24) are arranged at the cooling housing for directing. flow of cooling air in the cooling housing (20) and that a trough (ZOd) is arranged around and connected to the upper part of the housing to support the cables between the connection plate (28) and feed-through points in the cooling housing, the cooling housing (20) comprising a plurality of sections (20a, b, e) stacked on top of each other and bolted to each other, and that a lower part (20a) of the cooling housing (20) comprises a plurality of doors which provide access for maintenance in the interior of the unit. IN Main unit according to claim 1, characterized in that the protection plate (14) comprises a flat plate with a plurality of chamfered halls to facilitate installation of the protection plate over the control rod mechanisms and that the protection plate forms an upper part of an enclosing housing formed by the cooling casing. Main unit according to claim 1 or 2, characterized in that the vertical lifting rods (16) have a rounded tip (42) at their upper end, which facilitates installation of the protection plate (lli) thereon. u ..- _..-- 446 569 A main unit according to any one of claims 1-3, characterized in that the means (34, 36) for supporting the winch devices (38) comprise two concentric grooves which run around the circumference of the cooling housing (20) and are attached thereto.