DE1551002C

DE1551002C - Device to keep constant the pressure of a liquid heat carrier in the Pnmarkreis of an indirectly heated steam generator

Info

Publication number: DE1551002C
Authority: DE
Inventors: Chaville Ha vard Jean Paris Chevalher Jacques (Frankreich)
Original assignee: Commissariat a lEnergie Atomique CEA
Current assignee: Commissariat a lEnergie Atomique et aux Energies Alternatives CEA
Publication date: 1971-01-21

Claims

1 21 2

The invention relates to a device for condensing. A heat source 7 keeps the water constant the pressure of a liquid heat carrier 1 at a higher temperature, compared to in the primary circuit of an indirectly heated steam generator that of the primary circuit and compensates for the gers with a displacement tank in the primary circuit. Heat losses caused by the facility

Such devices are known. 5 become.

The invention is based on the object of The inlet line 2 of the water in the container 1

To design the displacement tank so that it is connected to the pipe 3 at a point A largely constant pressure of the heat, which between the check valve 4 and the carrier without spatial enlargement and connection point of the heat exchanger 6 in the pipe 3 plication of the apparatus or of the operating sequence 10 is
has a greater capacity than before. So the primary circuit is in with the facility

According to the invention, this task is combined in the following way: The water comes in that in the upper part of the displacement tank a through the pipe 2 in A , it cannot be arranged through the heat exchanger through which the exit at opening B , because the non-return valve 4 temperature increase of the heat carrier displaced 15 prevents this. It flows through the heat exchange component of the heat carrier in whole or in part, flows shear 6 and the constriction 5, which is parallel to it and that a heating device is provided, is arranged through, and occurs at C. out.

that of the heat in the displacement tank The mode of operation of the device is as follows:

carrier is heated from saturated steam temperature. When the performance required by the system

A displacement 20 designed in this way reduces, heats up the water in the primary gravel container and works as follows: If the _{S flows,} it expands. The displaced water volume heat transfer medium due to a temperature increase _me n flows through the line 2 to the device and into the displacement tank, so it flows out completely through the line 3 into the tank 1. On or partly through the heat exchanger. As a result of the higher resistance caused by the constriction of the steam surrounding the heat exchanger, part of the water flow passes through the cooled. The steam contracts and passes heat exchanger 6 through.

as a result, space is free for the heat transfer medium; this by the heat exchange between the in the

can flow into the displacement tank. With primary medium flowing in the container and the steam, a decrease in temperature of the heat carrier that flows above the water level of the container outside the displacement container, a reduction in the steam volume of the heat carrier emerges from the displacement container. _e ; _n , so that the primary medium is taken up into the container. The pressure in the vapor phase can be increased without a substantial next step, but increases again immediately because the pressure increases.

liquid heat transfer medium, especially by boiling, if the performance required in the heating system

new steam is generated. 35 grows, the water of the primary circuit cools down,

There is thus a further development of the invention. The warmer water in that the heat exchanger parallel to a line of the device has the tendency to lie in the primary, which is located in the displacement tank, and to return to a circle where the pressure drops. This has the shape of an inverted U, that one passes through the opening B and the non-return leg of the U is connected to the primary circuit 40 valve, which opens in the direction from B to A and the other leg into the liquid phase of the valve . The pressure of the steam that flows out higher than the heat carrier. There is pressure that prevails in the primary circuit, is pressing

A system of the type according to the invention is both the water through B and A in the primary circuit,
for example usable in nuclear reactors. If there is an increased evaporation of the

If the performance thereof decreases, ₄₅ located saturated steam temperature water heated one, so that the water of the primary circuit and expands will largely offset conse- a pressure reduction, which made. If the output of the reactor is increased, it is well understood that it is necessary in more detail

then the water cools down and increases in volume and diameter. which lines, the characteristics of the exchange

The following is an _{exemplary embodiment based on hand 5} o shear and the diameter of the constriction to beder drawing is described in which the only figure is correct so that the exchanger plays its control role schematically an embodiment of the device and shows in the most perfect way possible according to the invention. Compensates for changes in pressure that is in the

After the execution device shown in the drawing prevails.

tion, the device contains a closed 55. The device according to the invention shows insbe-Bchält 1, which contains water and steam. A special one has the advantage that it has no external organs Line 2 opens into the lower part of the container 1 and only requires static organs. From it and is responsible for directing the primary circuit (does not result in a remarkably safe and effective placed) connected to a thermal system. Function, which is largely dependent on the introductory

To the line 2 closes in the container 1 of the 60 approximate speed of the displaced water and Set up a tube 3 in an inverted U shape, regardless of the level of the water in the facility a check valve 4 is pending in the lower end.

one of the legs of the U as well as one in the horizon- Of course, the invention is not limited to the

Constriction 5 placed in the valley part of the pipeline and limited described embodiment, contains. A warmth 65 formed by a snake 6

exchanger short-circuits the constriction 5. The pipe 3 claims:

contains two outlet openings B and C, the under- 1. Device for keeping the pressure constant

half of the liquid level of the device mün- a liquid heat carrier in the primary circuit of a

indirect - heated steam generator with a displacement tank in the primary circuit, thereby characterized in that in the upper part of the displacement tank (1) a heat exchanger (6) is arranged, through which the proportion displaced when the temperature of the heat carrier increases of the heat transfer medium flows in whole or in part and that a heating device (7) is provided, through which the heat transfer medium in the displacement tank (1) is brought to saturated steam temperature is heated.

2. Device according to claim 1, characterized in that the heat exchanger (6) in parallel to a line (3) which is located in the displacement tank (1) and the shape of an inverted U has that one leg of the U is connected to the primary circuit (2) and the other leg opens into the liquid phase of the heat transfer medium.

3. Device according to claim 2, characterized in that in the line (3) between the places where the heat exchanger (6) opens into the line (3), a constriction (5) is located.

4. Device according to claim 3, characterized in that the pipeline at a point (B) which is located in the vicinity of the stop point (A) between the one leg and the primary circuit (2) is in communication with the liquid phase via an opening and that there is a check valve (4) in the opening which, when it is opened, allows the liquid phase to return to the primary circuit.

1 sheet of drawings