BG63134B1 - Fuel element for a nuclear reactor - Google Patents

Abstract

The fuel element is used in the nuclear power industry in water-water reactors with pressure water, for example of the WWER-440 type. By it the costs for the storage and operating of the working cassettes for the active zone of nuclear reactors are reduced, and the required radioactive safety is guaranteed. The fuel element (10) includes a housing (1) in the form of a regular hexahedron comprising a central zone (1c) around its longitudinal axis (1d) and supporting space (1b) formed between the surface (1a) of the housing (1) and the central zone (1c). In the supporting space (1b) a fuel bunch is fitted including fuel stems (2) and stems with burning poison (3). The latter are three in number and are fitted in the supporting space (1b), in close proximity to the central zone (1c) so that they form between them a central angle alpha of 120 degrees looked from the longitudinal axis (1d) of housing (1).In a preferred option of implementation of the invention the fuel stems (2) are of two types. The first ones have larger concentration of fuel and occupy positions in the vicinity of the central zone (1c) of the supporting space (1b). The second fuel stems (2b) have smaller fuel concentration and are positioned at the end part of the supporting space (1b), close to the external wall (1a) of housing (1). 4 claims, 1 figure

Description

Technical field

The fuel element is used in nuclear power, in particular in water-pressure reactors with pressurized water, for example WWER-440 type. The fuel element comprises a bundle of fuel stems (heat separating elements) arranged in a hexagonal grid. In order to reduce the initial reactivity of the fuel element, a burning poison (burning absorber) has been added to several of the fuel stalks. The number of poisonous stems and their location in the fuel element are so selected that they allow the cost of storing and operating the cartridges for the core of the nuclear reactors, part of which is the proposed fuel element, to be reduced, while providing the necessary radioactive safety.

BACKGROUND OF THE INVENTION

The continuous increase in energy consumption by industry, agriculture, trade and the population is increasingly reducing the amount of natural energy available on Earth. Self-renewable energy sources are increasingly being used to address this problem. Under the influence of this fact, many nuclear reactors have been built in recent decades that utilize nuclear energy.

The storage and use of fuel elements containing radioactive material used in the operation of nuclear reactors are regulated by strict safety precautions due to the known harmful effects of radioactivity on living organisms.

One of the basic requirements for fuel cells, in particular their fuel bundles, is that unused fuel bundles, so-called fresh bundles, must be such that critical initial reactivity is not allowed during storage. In other words, they must exclude the possibility of starting an uncontrolled and self-sustaining nuclear reaction chain. It is advisable to use boric acid dissolved in water in the environment surrounding the fuel cells to carry out subcriticality during storage and to reduce reactivity at the start of operation. A disadvantage of boric acid protection is the fact that during storage, it is necessary to anticipate, in the event of an emergency, higher concentration of boric acid, but the high level of boric acid adversely affects the self-regulating effect of the reactor. property.

However, for different types of reactors, combustion absorbers, also known as burning poisons, are often used, which are added to the fuel stalks of the fuel element. The essence of such burning stems with burning poison is that the burning poison reduces the initial reactivity of the burning stems and, when storing the fuel element, the reactivity is maintained below the critical level. However, during the operation of the reactor, reducing the amount of combustible poison results in an increase in the reactivity of the fuel stalks and thus increases the usable energy of the nuclear fuel.

There are various ways of assembling fuel elements including stems with burning poison. The arrangement of the stems with burning poison in the fuel cells is in accordance with the shape of the bundles, in particular the type of grille and the conditions for compulsory symmetry.

One way of arranging fuel stems and stems containing burning poison in a fuel cell is described in T. Lefvert: "Improving fuel economy by optimized in-core fuel management" / 1988, Kemtechnik 52 No. 4, 228 - 233 Old./ . A common feature of the various fuel elements is that the stems containing the burning poison are arranged in a fuel cell with a square grid so that they form an angle of 90 degrees with each other. In the case of a hexagonal grille fuel element, the stems containing the burning poison conclude a central angle of 60 degrees.

For proper alignment, taking into account the symmetry requirements, the stems of the burning poison are arranged farther from the central zone of the beam or the fuel element. J. Mikus, F. Hudec, J. Rocek, M. Trgina, L. Vrba, K. Zalesky show in their work an example of constructing a bundle of fuel stalks in a hexagonal fuel element: “Gadolinium absorbers in WWER 1000 type fuel lattices ”, / IAEA - TECDOC 678, December 1992 /. This material describes a fuel element in which the fuel stems (heat separating elements) are arranged on the walls of concentric hexagons, thus forming a hexagonal beam. Some of the ordinary fuel stems (in this case 18) have been replaced by fuel stems containing the gadolinium poison burn. These burning poison stems are located far from the central area of the fuel element.

An indisputable advantage of combustion elements incorporating poison-burning stems is that the latter make it possible to store them safely before being placed in the reactor core and at the same time ensuring satisfactory control during operation.

The disadvantage of the known fuel elements including poison stems is that when arranged according to symmetry requirements, the number of stems containing poison is large and this significantly increases the cost.

SUMMARY OF THE INVENTION

It is an object of the invention to avoid the disadvantages of the known solutions and to create a fuel element that optimizes the number of stems containing burning poison, thereby reducing fuel costs. In this case, the location of these burning poison stems in the fuel cell shall be so selected that it meets safety requirements on the one hand and is consistent with the cycle of use of the fuel in the operation of the nuclear reactor.

In the arrangement of the stems in the fuel element according to the invention, if the stems containing the burning poison are placed near the center of the fuel element, the distance of the end stalks from the central zone and from the burning poison stems placed there is such a limit when their action is no longer affected by the arrangement of stems with burning poison other than the usual symmetry. Such arrangement of the stems in the fuel element is not actually a deviation from the rule of symmetrical arrangement, and thus, in contrast to the commonly used arrangement, only three pieces of combustible poison can be used, because the bundle of the fuel element, in this form of arrangement , virtually retains the 60 degree rotation symmetry.

In addition, if the stems containing burning poison are located close to the central zone of the fuel element and stack fuel stems with a higher concentration of fuel around them, the fuel concentration in the stems placed at the end of the fuel element close to its periphery, as opposed to its usual position, may be lower. In this way, the uneven capacity of the fuel stalks in the fuel cells can be maintained to the required limit.

The fuel element for an atomic reactor includes a regular hexagonal housing consisting of a central zone around its longitudinal axis and a support space formed between the surface of the housing and the central zone. A fuel bundle comprising fuel stems is located in the carrier space. ie stems containing only nuclear fuel and stems provided with an additive to reduce initial reactivity, i. e. stems with burning poison. The stems are located in the bearing space on the walls of concentric regular hexagons, thus forming a fuel beam with a hexagonal grid.

According to the invention, the poisons with burning poison are three in number and are located in the carrier space, close to the central zone so that they conclude with each other a central angle of 120 degrees, viewed along the longitudinal axis of the housing.

According to a preferred embodiment of the invention, fuel stalks containing only nuclear fuel are of two types. The former have a higher concentration of fuel and the latter have a lower concentration. The first fuel stems occupy positions in the vicinity of the central area of the carrier space, and the second, respectively, at the end of the carrier space, near the surface of the housing.

According to another variant embodiment of the fuel element, the stems with burning poison occupy positions on the innermost hexagon of the grille relative to the longitudinal axis of the housing.

In a preferred embodiment of the fuel element according to the invention, the additive reducing the initial reactivity of the stems with burning poison contains gadolinium.

The ways in which the stems in the fuel element are arranged have several positive properties. The most important of these is that the use of a small number of stems with burning poison reduces the cost of the fuel element and, at the same time, during storage and transportation of the latter, without any difficulty, to ensure its subcriticality and improve the ability about its manageability.

Another advantage of the fuel element is that the irregularity in the capacity between the fuel stalks can be overcome by appropriately selecting the concentration of fuel in the outer and inner fuel stalks, thus reducing the adverse impact of the burning poisons located near the central area.

It is also advantageous that the fuel elements having a reduced initial reactivity, due to the smaller than the prescribed subcriticality, are eligible for storage and operation, and thus there is no need for processing of rest units, portable and storage units.

Another advantage is that fuel elements whose initial reactivity is reduced by the use of burning poison and a higher concentration of fuel can be placed inside the atomic reactor, thereby reducing the leakage of neutrons, increase fuel economy and reduce neutron emission reaching the wall of the reactor vessel.

Description of the attached figures

An exemplary embodiment of the fuel element according to the invention is shown in FIG. 1, which is a cross-section of the fuel element.

Examples of carrying out the invention

As shown in the figure, the fuel element 10 includes a hexagonal shape 1, fuel stems 2 containing only nuclear fuel and stems provided with an additive to reduce initial reactivity, i. E. stems with burning poison 3. The housing 1 has a surface 1a, a central zone 1c coaxial to its longitudinal axis Id and a bearing space 1b formed between the surface 1a and the central zone 1c.

In the carrier space lb there is a fuel bundle formed by fuel stems 2 and stems with burning poison 3. All stems are arranged on the walls of concentric regular hexagons, thus forming a fuel bundle with a hexagonal lattice. The stems with burning poison 3 are three in number and are located in the support space lb, close to the central zone 1c so that they conclude with each other a central angle of 120 °, viewed along the longitudinal axis Id of the housing 1. All other positions in the grid are borrow from the fuel stalks 2.

The figure shows a preferred embodiment of the invention, wherein the fuel stalks 2 containing only nuclear fuel are of two types. The first fuel stems 2a have a higher concentration of fuel and the second 2b - with a lower concentration. The first fuel stems 2a occupy positions in the vicinity of the central area 1c of the carrier space lb. The second fuel stems 2b are located at the end of the carrier space lb, near the surface 1a of the housing 1, i. farther from the central area 1c.

The amount of the first fuel stalks 2a with a higher fuel concentration and the second 2b - with a lower concentration, it is expedient to determine that the fuel concentration in the fuel element 10 thus formed will ultimately vary about its normal value. The arrangement of the two types of fuel stems 2a and 2b in the grate of the fuel cell 10 must also comply with the symmetry requirements thereof.

In the exemplary embodiment of the fuel element 10 shown in the figure, the stems with burning poison 3 occupy positions on the inner hexagon of the grille relative to the longitudinal axis Id of the housing 1.

The figure does not show the fuel elements 10 in working condition, ie. placed in the nuclear reactor core. They operate under normal conditions in the reactors, so we will not dwell on them in detail. An important difference of the invention with the known fuel elements is in the positioning of only three stems with burning poison 3 and the fuel stems 2, which during work can reduce the usual irregularity in the capacity of the campaign and can favorably resolve the issue of regulation of the reactor provided with fuel cells 10.

The fuel element according to the invention can be used in different types of hexagonal-lattice reactors, but most of all it will be used in WWER-440 reactors using a BNEL NOVA-E3 and NOVCA-E3 type cassette.

Claims (4)

Claims 1. An atomic reactor fuel element comprising a regular hexagonal housing comprising a central zone about its longitudinal axis and a bearing space formed between the surface of the housing and the central zone, wherein a fuel beam comprising fuel stems, i. e. stems containing only nuclear fuel and stems provided with an additive to reduce initial reactivity, i. e. poisons with burning poison, the two types of pockets being located in the bearing space, on the walls of concentric rectangular hexagons, thus forming a hexagonal grille, characterized in that the poisons with poisonous poison (3) are three in number and are located in the carrier space (lb) near the 10 center zone (1c) such that they conclude with each other a central angle (a) of 120 °, viewed along the longitudinal axis (Id) of the housing (1). An atomic reactor fuel element according to claim 1, characterized in that 15 that the fuel stems (2) containing only nuclear fuel are of two types, the first and the second, with the first fuel stems (2a) having a higher fuel concentration and the second fuel stems (2b) having a smaller concentration 20 and the first fuel stems (2a) occupy positions in the vicinity of the central area (1c) of the carrier space (lb) and the second (2b> respectively in the end of the carrier space (lb), near the surface 25 (1a) of the housing (1). An atomic reactor fuel element according to claim 1 or 2, characterized in that the poison combustion stems (3) occupy positions on the innermost sixth 30 bars of grille relative to the longitudinal axis (Id) of the housing (1). Nuclear reactor fuel element according to claim 1, 2 or 3, characterized in that the additive reducing the initial The reactivity of the stems with burning poison (3) contains gadolinium. Attachment: 1 figure