CS197906B1 - Apparatus for reducing pulsation in monophase or biphase fluid bodies - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for limiting the pulsations of the amount of single-phase or two-phase fluid flowing from a radial supply line to an inlet cylinder chamber disposed on a coaxial rotary cylinder. The inlet cross-sections for fluid inlet to the rotary cylinder are in the interface between the inlet cylinder chamber and the rotary cylinder. An outlet tube of one fluid phase extends coaxially through both the inlet cylinder chamber and the rotary cylinder, so that the inlet cylinder chamber is divided into two branches from the inlet of the inlet pipe between which pulsations can occur.

In some types of vertical wet steam separators included in the turbine stages of nuclear power plants, wet steam is fed radially into the inlet cylindrical chamber located at the top of the separator body. This separator extends coaxially upwardly of the outlet pipe of the dried and possibly slightly overheated steam. Thus, the inlet cylindrical chamber is divided into two branches in which the flow rate of wet steam gradually decreases, starting from the inlet of the inlet pipe, as the wet steam flows from the inlet cylindrical chamber down to the separation devices, through the interface between the inlet cylindrical chamber and the separator itself. . At the point of the inlet chamber opposite the inlet of the inlet pipe, where the two branches meet again, the wet spring should be no longer in motion, that is mainly without tangential velocity. According to the tests carried out at this point, however, considerable tangential velocities of velocity were found in the radial section of one sense and the other in the opposite sense, such as

197 906

197 909, both branches would be dragged. This phenomenon causes the amount of fluid flowing at the inlet of the separating devices to be pulsed, resulting in a deterioration of their function or at least the need to increase their number to satisfy their function even when the flow rate is at maximum.

This drawback is eliminated by the pulsation limiting device of the amount of single-phase or two-phase fluid of the invention. It is the fluid flowing from the radial inlet pipe to the inlet cylindrical chamber located on the coaxial rotary cylinder through which the inlet chamber of the fluid phase passes through the inlet cylindrical chamber, so that the inlet cylindrical chamber divides into the two branches from the inlet pipe. between the inlet cylindrical chamber and the rotary cylinder there are inlet cross-sections for the inlet of fluid from the inlet cylindrical chamber to the rotary cylinder, which are evenly distributed over the entire contact surface alternating with solid beams or occupy the entire contact surface.

SUMMARY OF THE INVENTION The invention is characterized in that at least one lower baffle and at least one upper baffle are connected in the inlet cylindrical chamber on the side opposite the inlet of the inlet duct and at least one upper baffle connected by their sides to the inlet cylindrical chamber and to the outlet pipe. the height of the interface and the other end thereof extend below the upper bottom and the upper bulkhead begins at one end above the interface and its second cone extends in the upper bottom, wherein the height of the lower bulkhead is at least such as the height of the gap between the upper bulkhead and the interface.

An advantage of the device according to the invention is that the said positioning of the upper and lower baffles relative to each other reduces the pulsaee while the two branches of the fluid stream are connected at their ends for pressure equalization. Indeed, differences in the amount of fluid in the two branches can occur both due to manufacturing variations and due to the shape of the supply line upstream of the inlet cylinder chamber. At the same time, from the points of higher pressure in one branch, the steam stream cannot penetrate directly into the other branch, causing a pulsaee.

Two examples of embodiments of the device for limiting the pulsations of the amount of single-phase or two-phase fluid according to the invention are shown in the accompanying drawings. It is the upper part of the vertical separator, ranked among the turbine stages of the nuclear power plant. Figures 1, 2 and 3 show an embodiment e with one lower baffle and two upper baffles, respectively, in Fig. 1 in an axial cross-sectional view, Fig. 2 in a side view without the front half of the inlet chamber and the rotary cylinder; 3 ▼ sectional view through plane AA. Figures 4, 5 and 6 show an embodiment ee with two curved lower baffles and one upper baffle, respectively, in an axial sectional view of Figure 4, in a side view in Figure 5 without the front half of the inlet chamber and the rotary cylinder; FIG. 6 is a plan view, taken along the plane BB.

The wet steam supply line 1 is connected in a radial plane to the inlet cylindrical chamber 2, which is closed from above by an upper bottom 6. The outlet tube 6 extends coaxially through the rotary cylinder 6, the inlet cylinder chamber 2 and its upper bottom. In the contact surface 6 of the inlet cylinder 197 of the rotary cylinder chamber 6, the free inlet cross-sections g alternate for the inlet of the steam stream into the solid beam rotary cylinder 8.

1, 2 and 3 in the radial symmetry plane of the inlet cylinder chamber 2 passing through the inlet duct 1, but on the opposite side to the inlet duct 1, a vertical lower baffle g is provided which extends downwardly to the contact surface g; the cylindrical chamber 2 and the outlet tube g, at the top there is a gap between the lower partition g and the upper bottom g. In the vicinity of the lower bulkhead g in radial planes, two upper bulkheads 10 are connected to the upper bottom g and to the walls of the inlet cylindrical chamber 2 and the outlet tube g, between which a gap is left not exceeding the height of the lower bulkhead 2N in FIG. Figures 5 and 6 show two lower partitions g in the form of a part of a rotating cylindrical surface beginning at the bottom of the edges of a full beam 8 opposite the mouth of the supply line 1. In this case the single upper partition 10 lies in the symmetry plane of the inlet chamber. determined perpendicular to the contact plane 6 is at least as large as the gap between the upper partition 10 and the contact surface 6.

The wet spring flowing through the inlet pipe 1 is thus divided into two branches in the inlet cylinder chamber g. However, the arrangement of the lower baffles g and the upper baffles 10 does not impact both streams at the opposite mouth of the inlet pipe 1. the pressures at the end of both branches being equalized in the gaps left.

The device is applicable, for example, to vertical wet steam separators which are classified as high-pressure and low-pressure turbine stages of nuclear power plants.

Claims (1)

SUBJECT OF THE INVENTION A device for limiting the pulsations of the quantity of single-phase or two-phase fluid flowing from the radial inlet pipe to the inlet cylinder chamber located on a coaxial rotary cylinder through which the inlet pipe of one fluid phase coaxially passes through the inlet cylinder chamber. two branches, wherein in the contact surface between the inlet cylindrical chamber and the rotary cylinder there are inlet cross-sections for the inlet of fluid from the inlet cylindrical chamber to the rotary cylinder, which are evenly distributed over the entire contact surface alternating with solid beams; that at least one lower baffle (9) and at least one upper baffle (10) are connected to the inlet cylindrical chamber (2) and to the inlet cylindrical chamber (2) and to the inlet cylindrical chamber (2), an outlet pipe (5), wherein one end of the lower partition (9) is at the height of the contact surface (6) and the other end of the bottom wall (3) and the upper wall (10) with one end begins above the contact surface (6); its other end results in an upper bottom (3) where the height 197 908 of the lower partition (9) is at least such as the extension of the gap between the upper partition (10) and the ethylene surface (6).