KR0150109B1 - Supporting structure for nuclear fuel assemblies in rectangular arrangement - Google Patents

Abstract

The present invention relates to a lattice fuel assembly support structure suitable for a lattice lower support structure, wherein the upper part of the lattice constituting the lattice lower support structure can be inclined to guide the fuel assembly and the inclination ends. The fuel assembly is guided and supported directly on top of the lattice lower support structure by constructing a wall surface for supporting the fuel assembly in the lateral direction and a jaw for supporting the fuel assembly in the axial direction at the end of the wall. , The intersection of the grating plate is concave, so that the thickness of the intersection is minimized.

Description

Lattice Fuel Assembly Support Structure

1 is a three-dimensional view of a lower reactor support structure including a conventional finned fuel assembly support structure.

2 is a three-dimensional view of the lattice fuel assembly support structure of the invention.

3 is a three dimensional view of a modified fuel grid support assembly of the invention with reduced thickness of grid intersections.

4 is a three dimensional view of a modified invention grating fuel assembly support structure with reduced thickness of grating cross-sections and grating bottoms.

* Explanation of symbols for main parts of the drawings

1: guide surface 2: transverse support surface

3: axial support surface 4: horizontal grid

5: longitudinal grating

6: conventional fin-type fuel assembly support structure

7: intersection of the lower support structure grating

8: lower part of the lower support structure grating

The present invention relates to a lattice of a fuel assembly support structure suitable for a lattice lower support structure.

At the center of the PWR reactor is the core (generally referred to as the fuel assemblies arranged regularly inside the reactor), and the lower support structure at the bottom of the core supports the core. The fuel assembly must be precisely arranged and firmly supported, even at high temperature changes that occur during the operation of the reactor, and at significant hydraulic loads due to the flow of coolant. On the upper surface of the lower support structure, a structure having a function of guiding each fuel assembly to be seated at a predetermined position and a function of supporting the seated nuclear fuel assembly in the lateral and axial directions are required.

In the conventional fuel assembly support structure of the pressurized light-water reactor reactor, in the case of the lattice lower support structure, a separate fin-shaped structure 6 is attached to the upper surface of the intersection of the lower support structure lattice to guide and support the fuel assembly ( See Figure 1). U.S. Patent No. 4,192,716 concerning the use of a finned fuel assembly support structure in a lattice lower support structure proposes that the edges of the end fittings of each fuel assembly are supported on one quarter of the fins. As a method of fixing this pin-like structure to the lower support structure, a screw fastening method is used to avoid deformation of the lower support structure grating due to welding. When the pinned structure is fixed to the upper surface of the lower supporting structure by screwing, the austenitic stainless steel, which is the material of the lower supporting structure, cannot be used as the material of the lower supporting structure. Should be. A hole for this screw is needed on the upper surface of the intersection of the lower support structure grating. Since the thickness of the grating plate of the grating lower support structure must be designed in consideration of the load of the fuel assembly delivered through the hole, this hole makes the grating thickness of the grating lower support structure thicker. The greatest difficulty in fabricating the lower support structure is to minimize the weld deformations involved when welding the intersections of the gratings, which are known to be approximately proportional to the square of the grating thickness under the same conditions.

The primary object of the present invention is to omit the conventional fin-type fuel assembly support structure by allowing the upper portion of the lattice lower support structure of the pressurized light-water reactor to directly guide and support the fuel assembly.

According to this object, the present invention is to be able to guide the fuel assembly by inclining the upper portion of the lattice constituting the lattice lower support structure, and constitute a wall surface for supporting the fuel assembly in the transverse direction at the end of the inclination, By constructing the jaws for supporting the fuel assembly axially at the end of the wall, the fuel assembly is guided and supported directly on top of the lattice lower support structure, the intersection of the grids being concave like a third degree so that the thickness of the intersection Its feature is that it is minimized.

The present invention of such a feature can be used in various ways, such as the lattice fuel assembly support structure of the lower support structure of the reactor and the fuel assembly support structure of the fuel assembly storage rack, the present invention will be described in detail with reference to the accompanying drawings. Is as follows.

2 is a three-dimensional view of the grid-shaped fuel assembly support structure of the invention, the guide surface (1) for guiding the fuel assembly on top of the transverse grating 4 and the longitudinal grating 5 constituting the grating of the lower support structure The transverse support surface 2 which supports a nuclear fuel assembly in the lateral direction, and the axial support surface 3 which supports the nuclear fuel assembly in the axial direction are shown.

3 is a three-dimensional view of the modified grating fuel assembly support structure of the modified invention with reduced thickness of the grating intersections, the intersection of the transverse grating 4 and the longitudinal grating 5 constituting the grating of the lower support structure. It is shown that (7) is concave.

4 is a three-dimensional view showing the top of a modified invention grid-shaped fuel assembly support structure with reduced thickness of the grid intersection 7 and the grid bottom 8.

As an effect of the present invention, by omitting the conventional fin-shaped structure, the use of martensitic stainless steel, which is relatively vulnerable to the stress corrosion cracking used as the material of the flattened structure, is excluded, thereby improving the structural integrity of the lower support structure, Since the hole for the pin-shaped structure is omitted at the intersection of the grating, the thickness of the grating is optimized to minimize the welding deformation caused by the welding, thereby facilitating the fabrication of the lower support structure. In addition, since the structure under the fuel assembly may be a simple square, it is expected that the fuel assembly manufacturing cost can be reduced.

Claims (3)

The upper part of each lattice of the lattice structure which consists of the horizontal grating 4 and the vertical grating 5 is comprised by the guide surface 1, the lateral support surface 2, and the axial support surface 3, The fuel assembly can be guided along the guide surface (1), the transverse support surface (2) and the axial support surface (3) the lattice fuel assembly and the transverse and axial support surface (3) the lattice fuel assembly A grid-shaped fuel assembly support structure, characterized in that for supporting in the transverse and axial direction. 2. A lattice fuel assembly supporting structure according to claim 1, wherein the thickness of the intersection is reduced by concave the intersection 7 of the lattice structure consisting of the transverse lattice 4 and the longitudinal lattice 5. . The thickness of the grating plate according to claim 1 or 2, which can constitute the guide surface 1, the transverse support surface 2 and the axial support surface 3 only in the case where the thickness of the grating plate is an upper portion thereof. Grating type fuel assembly supporting structure, characterized in that the thickness of the grating plate (8) is reduced so that only the structural integrity of the grating plate can be satisfied.