CS197942B1 - Sectional steam generator - Google Patents

Description

The invention solves a sectional steam generator for high power nuclear power plants with a fast reactor.

High-power nuclear power plants with fast liquid-cooled reactors are currently being built as a three-circuit with pressurized steam generators. In the primary circuit, the active liquid metal flows, in the secondary circuit the inactive liquid metal flows in the tertiary water - spring.

The use of multi-stage steam generators seems to be advantageous in terms of production and operation. the cells, usually U-shaped, are connected in series into individual branches and these are connected in parallel through a connecting line on the switchgear and the collection chamber for water, steam and sodium. A number of branches with chambers of 30 to 100 MW heat output form the pressure part of the steam generator section. The articulated steam generators hitherto designed and constructed consist of branches comprising either separate U-shaped links or two U-shaped links connected in series and connected on a water or steam side by a bundle of tubes. For transport or assembly reasons, the individual sections in the production are divided into assembly and transport blocks.

The disadvantage of this solution is that in assembly conditions very many welded joints have to be made, which are subject to special conditions for quality and inspection. It is therefore necessary to have on site construction equipment for the production of welds, including modifications and theirs

197 942

7 9 4 2 control. Furthermore, such a device extends the assembly time, thereby increasing the maintenance requirements of the internal and external surfaces of the pressure part of the steam generator.

These disadvantages are overcome by a sectional steam generator formed from chambers and parallel branches consisting of U-shaped links, interconnecting piping and tube transition bundle according to the invention. SUMMARY OF THE INVENTION The liquid metal flow is provided from the sodium inlet chamber via a connecting conduit to the superheater elements interconnected by two on each side of the liquid metal connecting conduit, on the steam side by a bundle of tubes connected at one end to the inlet steam chamber and and through the evaporator cells to the outlet sodium chamber, the evaporator cells being each connected to each other on the liquid metal side by a connecting line, on the steam side by a tube transition bundle and connected at one end to the feed chamber of the steam inlet to the separator.

The steam generator section of the present invention, composed of a number of branches composed of three evaporator cells and two superheater cells, thus forms a power unit suitable for a high-power nuclear power plant with a sodium heat carrier. The shut down power unit at the time of failure of the heat exchange surface element represents a small energy part of the whole high-power nuclear power plant unit (approx. 3%).

The dimensions of the box of the steam generator section according to the invention make it possible to carry out the transport and assembly of the power unit as a whole, which is a great advantage allowing to assemble, test, preserve and equip the transported unit with the necessary measuring and control devices. This will eliminate a number of assembly work and related control and measurement operations during the previous assembly of units or individual parts of the power unit, shorten the assembly time at the power plant construction site and it is possible all the time from the end of production at the plant to keep the heat exchange surface in a protective inert atmosphere.

A further advantage of the sectional steam generator according to the invention is that its suitable construction height allows the steam generator to be adapted to the emergency situation of cooling the reactor by transferring heat through the steam generator to the ambient air which can flow through the box of the steam generator section through natural circulation.

An exemplary embodiment of a sectional steam generator according to the invention is shown in the attached drawing, which is a diagram of a section of U-shaped sections according to the invention.

The steam generator section 1 comprises a box 2 and a pressure part of a section consisting of parallel connected branches to the sodium inlet chamber 6, the outlet steam chamber 6, the inlet steam chamber 6, the separator steam inlet chamber 6, the feed chamber 6 and the outlet sodium chamber. 8. The branch of the steam generator section 1 is formed by two superheater elements 6 interconnected on the steam side by a transition bundle of tubes 10 and three vaporizer elements 11 interconnected on the water side and steam by a transition bundle of tubes 10. On the sodium side there are superheater cells 6. and the evaporator cells 11 interconnected in a junction branch

197 942 (sodium) pipe 12.

Claims (1)

SUBJECT OF THE INVENTION Sectional steam generator, made up of chambers and parallel branches consisting of U-shaped links, interconnecting piping and conduit bundle, characterized in that an interconnecting piping (12) leading to the superheater elements (9) is connected to the sodium inlet chamber (3). two interconnected on the liquid metal side by a connecting line (12), on the steam side by a bundle of tubes (10), and connected at one end to the inlet steam chamber (5) and at the other end to the outlet steam chamber (4); to this connecting pipe (12) are connected evaporator elements (11) leading to the outlet sodium chamber (8), the evaporator elements (11) are each connected to each other on the liquid metal side by connecting pipe (12), on the feather side by a transition tube bundle ( 10) and connected at one end to the feed chamber (6) of the steam inlet to the eeparator.