CS210277B1 - Element of the inserted circuit exchanger for the nuclear heating plant - Google Patents

Description

Various embodiments of the intermediate circuit heat exchanger are known. These exchangers are designed either as sectional or corpus with straight tubes between two tube plates, above which the collecting chambers of the intermediate circuit medium are formed, into which the inlet and outlet pipes are connected.

_: There are also known embodiment Fieldovými exchanger and pipes. A common disadvantage of these embodiments is that they always need two feed-through and secondary feed-through conduits for passage through the reactor vessel. Such pressure vessel bushings are technologically very demanding and are the most common source of leaks, leading to reduced reliability of the equipment.

This disadvantage is overcome by a pool-type VVER reactor with a heat exchanger tube having a heat exchanger tube bundle, two tube plates, their lids and a feed and discharge tube, the heat exchanger tubes of the intermediate heat exchanger element. of the circuit are fastened with their upper end to the upper tube sheet and with their lower end to the lower tube sheet according to the invention. SUMMARY OF THE INVENTION The heat exchanger tubes of the intermediate circuit heat exchanger element are disposed around the intermediate circuit supply pipe passing through the upper tube sheet and the intermediate circuit exhaust pipe passing through the reactor vessel is connected with its upper end to the intermediate circuit supply tube and its lower end to the lid. upper tube sheet. The supply tube is tightly connected to the lower tube sheet via an expansion compensator.

An advantage of such an intermediate circuit heat exchanger element is that the number of bushings in the reactor vessel is substantially reduced. This not only improves the safety of the entire plant, but also simplifies the installation of the plant and, if necessary, dismantles it in case of repair or revision of the plant.

An exemplary embodiment of the exchanger is shown in the accompanying drawing, in which FIG. 1 is a longitudinal section through the reactor vessel in which the intermediate circuit elements are located; and FIG. 2 is a cross section through the reactor vessel at the location indicated A-A in FIG.

The intermediate circuit heat exchanger element 2 consists of heat exchange tubes 1 anchored by the upper ends to the upper tube sheet 3 and the lower ends to the lower tube sheet 4. Above the upper tube sheet 3 there is an upper cover 5 which passes into the drain tube 8. an intermediate circuit tube 7 which is tightly connected to the upper tube sheet 3 through which it is passed and is fixed through the expansion compensator 10 into the lower tube sheet 4. A lid 6 is formed under the lower tube sheet 4. The entire link 2 is placed in a reactor vessel 9 in which a core 11 is also provided.

Operation of the device is as follows: the primary medium passes through the active zone 11 in the direction of arrows R. In the active zone 11 it is heated to the desired temperature and is driven upwards by mass difference of hot and cold columns. , on whose heat transfer tubes 1 it transmits heat, it is cooled and returned to the core 11.

The intermediate circuit medium enters in the direction of the arrow X to the intermediate circuit supply pipe 7 which extends as far as the lower tube plate 4, where in the lower lid 6 it turns and passes through heat exchange tubes 1 to the upper tube plate 3. In upper lid 5 the secondary medium is collected and passed then, an expansion compensator 10 is installed between the intermediate circuit supply pipe 7 and the inner wall of the intermediate circuit discharge pipe 8 in the direction of the arrows Z out of the reactor vessel 9. To compensate for the dilatation differences on the intermediate circuit supply pipe 7 and the heat exchange tubes 1, an expansion compensator 10 is installed. The circuit is firmly connected via a bushing to the reactor vessel 9.

Claims (2)

OBJECT OF THE INVENTION 1. An intermediate circuit heat exchanger element for a pool type VVER nuclear reactor, which heat exchanger is located in the reactor vessel of the nuclear heating plant and consists of a slope of heat exchange tubes, two tube plates, their lids and an inlet and outlet tube. are mounted around their upper end to the upper tubesheet and their lower end to the lower tubesheet and are spaced around the inlet pipe of the intermediate circuit, characterized in that the inlet pipe (7) of the intermediate circuit passes tightly through the top tube sheet (3); it is connected by its upper end to the supply pipe (7) of the intermediate circuit and by its lower end to the cover (5) of the upper tube plate (3). The intermediate circuit heat exchanger element according to claim 1, characterized in that the supply tube (7) is tightly connected to the lower tube sheet (4) via an expansion compensator (10).