RU1441973C - Integral reactor for superheating foam - Google Patents

Abstract

The invention relates to atomic engineering and can be used in nuclear thermal power plants. with boiling water-type water reactors. The aim of the invention is to increase the reliability of the reactor and independence from external sources. electricity. The dripping bypass reactor contains a boiling 2 and 6 overheating hot zones, a steam generator 4, a superheater 5 of the second circuit, a steam channel 8 connecting a separator 7 of wet steam, submerged under the level of the heat carrier, overheating the active zone and a superheater. The steam circulation in the superheat circuit is carried out due to the pressure created by the difference in coolant levels in the reactor and in the separator. As a result, the generator plays the role of a circulation tool. 1 ill. (L e

Description

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The invention relates to nuclear technology and can be used in the field of electric and heat plants with boiling water-type water reactors.

The aim of the invention is to increase the reliability of operation of the reactor,

The drawing shows a dual-circuit integrated reactor for superheating steam with natural circulation of water and steam of the primary circuit.

The reactor consists of a casing 1, in which the boiling core 2s of the steam compensator 3, the steam generator 4j are connected to the water coolant circuit, as well as the superheater 5, the overheating active zone 6, the separator 7, the overheated steam outlet channel 8, section 9 of the reactor. The separator 7 has on the side surface of the hole 10

- The reactor works as follows.

The primary coolant is heated and partially evaporated in the boiling core 2, water enters the steam generator 4, where it gives up part of its heat, is cooled, and then returned to the inlet of the boiling active soity 2. Separated from the boiling coolant the steam in the separator 7 accumulates in its upper part, and the leak enters the superheating core 68 overheats and is taken to the superheater 5, where the second-circuit steam gives off its superheating heat, condenses and merges into the lower section 9 of the multi-circuit charge circulation The amount of steam paj separated in the separator 7, which passed the active zone 2, and the superheater 5, is returned as condensate to the inlet of the boiling active zone 2,

The multiple circulation circuit transfers heat from the core to the steam generator 4, and the steam circuit transfers heat from the overheating core 6 to the superheater 5. Both circuits are interconnected and circulate in parallel flows.

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Tenjrotinrite.ch rn opoi o of the circuit heats up and runs out into the steam generator 4, the p-pci pf Hap-TCfl in the transmitter 5, and then sends to the consumer.

The circulation of the coolant g: the primary circuit (water and vapor phase) is carried out using natural circulation without the use of forced circulation, this improves the reliability of operation of the reactor and eliminates the need for electricity to ensure circulation of the primary circuit and to increase the efficiency of the installation, reduce the cost of i 3-ready-installation by eliminating the primary circuit pumps and control panels, increase the compactness of the reactor installation and reduce the length of pipelines the first circuit

Claims (1)

Formula invented Integral reactor for superheating steam, containing a pr-o case,. perferium; -;, part of which there is a tegtlokos - with a loop body - multiply the second kgsh-jul - 1SCHI, to the steam generator, overheating the core in the connection to the E.p-5pennchCh with a steam channel such as a pipe and a pipe superheater, replacing the superheater, the level of heat supply and re-circuits in the annular chamber, separated from the steam pressure compensator, circulating means ivepes pressure regulator for overheating: I feel the hot and cold zone, but the heat, In order to make it easier to use the means of Dirku, W 1cki is made in the form of a separator vlaipyugs p macaw. located beneath the coolant level in the reactor, the input of which is connected to the boiling a / pumping zone ZO5, and then the steam is connected to the overheating active zone NOY5; moreover, holes are made on the side surface of the separator below the coolant level in the tank, e. from the annular chamber of the steam boiler Steam water Editor N, Col yes Compiled by V.Klimov Tehred M. Didgk Proofreader M. Maximishnets