DE2302347C3 - - Google Patents

Description

The invention relates to a steam jet condenser, in which at least one condensation pipe in the Water protrudes into a chamber partially filled with water with a free water surface.

A steam jet condenser of the type mentioned at the beginning is known from DT-OS 1 802 940. In which known steam jet condenser is a simple, smooth, continuous tube, which at the immersion end is open, used for venting into the water of the chamber

Such devices have the disadvantage that the walls of the chamber at the start of the blow-off process are heavily stressed by pressure fluctuations in the water.

At the beginning of the blow-off process there is a water column in the condensation pipe corresponding to the Filling level of the chamber and above it air at atmospheric pressure. By the incoming steam or the steam-air mixture, the air is compressed, and as a result of the overpressure in the condensation pipe the water column is driven out. When the water column is expelled from the condensation pipe, the compressed air flows in; the air expands when it has the water reserve below the condensation roller reaches the ambient pressure prevailing there. This expansion occurs very quickly and leads to an increase in pressure in the surrounding water, which extends up to the boundary walls of the chamber continues. The walls of the chamber are stressed by these pressure oscillations. The stress is the higher, the higher the pressure build-up in the condensation pipe, the faster the water column is expelled.

The object of the invention is to create a steam jet condenser in which when the initiation of the Condensation process the dynamic mechanical load on the walls of the chamber compared to the known » Device is degraded.

According to the invention, this object is achieved in a device of the type mentioned at the outset by that an air-vapor storage container is provided, which with the condensation pipe via at least a connecting line is connected in such a way that at the beginning of the condensation process from the condensation pipe Air-steam mixture reaches the air-steam storage tank

The advantages of the invention are that with little structural effort, the pressure build-up in the condensation pipe during the ejection of the water column and the ejection process is slowed down, thereby stressing the walls of the chamber is reduced.

Embodiments of the invention are shown in the drawing and are explained below It shows

ίο F i g. 1 condensation pipe with air / steam storage tank; The connection line flows into the air / steam storage tank above the normal water level,
F t g. 2 condensation pipe with air / steam storage

tank, confluence of the connecting line in the air / steam storage tank below the normal water level,

F i g. 3 Condensation pipe with air vapor storage tank with two connecting lines to the air

Steam storage tank.

In all! Embodiments is the condensation pipe 1 with an air-vapor storage container 3 - shown here in a toroidal shape. Form this storage container 3 can be different and depends on the respective spatial conditions in the chamber. The air-vapor storage container 3 is connected to the condensation pipe by connecting lines 4 tied together. In addition, a drainage line 5 is provided on the storage tank, which into the

Water in the chamber (normal level 2) opens.

If the pressure in the condensation pipe 1 rises above the pressure in the air / steam storage container due to the inflow of steam on, some of the air in the condensation tube 1 is released from it into the air

Steam storage tank 3 displaced

Through the branched off from the condensation pipe 1 and flowing into the air · vapor storage container 3 The amount of air is the pressure build-up in the condensation pipe; 1 reduced and the expulsion of the water column This slows down the pressure loads on the walls of the chamber when the air is blown out Condensation pipe 1 and the subsequent expansion of the incoming air is reduced by the Choice of the size of the storage volume, the size of the cross section of the connecting lines 4 and the location the confluence of the connecting lines 4 in the condensation pipe 1, the time course of the Pressure build-up in the entire system can be influenced. If the connecting line 4 is above the original Water level opens into the condensation tube 1 (Fig. 1) is the amount of air that is in the Storage tank 3 flows in, proportional to the connection cross-section, and, as long as the pressure ratio in the condensation pipe to the air-vapor storage tank is smaller than the critical pressure ratio, vom Back pressure in the air / steam storage tank 3 dependent

The back pressure in the air-steam accumulator 3 builds up according to the inflowing amount of the air-steam mixture. The greater the storage volume, the lower the counter pressure and the greater the amount of mixture branched off from the condensation pipe 1.
When the connecting line 4 opens into the condensation pipe 1 below the original water level in the chamber (FIG. 2), the overflow process into the air-steam accumulator 3 does not begin until the connecting line 4 has been cleared of the water.

sen is

Also a combination of connecting lines 4 that are above and below the original water level the chamber open into the condensation tube 1 is possible (FIG. 3).

This combination can be used to advantage with great immersion depths.

1 sheet of drawings

Claims (2)

Patent claims: 1. Steam jet condenser, in which at least one condensation pipe in the water for a Part of the water-filled chamber protrudes with a free water surface, characterized in that that an air-vapor storage container (3) is provided, which is connected to the condensation pipe (1) is connected via at least one connecting line (4) in such a way that at the beginning of the condensation process passes from the condensation pipe (1) air-steam mixture into the air-steam accumulator (3) 2. Steam jet condenser according to claim 1, characterized characterized in that a drainage line (5) is provided on the air-steam storage container (3) is.