DE554705C - Mercury vapor jet pump for venting the absorber - Google Patents

Description

Mercury vapor jet pump for venting the absorber The main patent 533 698 describes an absorption process in which mercury vapor jet pumps are used to vent the absorber.

The present invention relates to an absorption device for performing the absorption process.

The invention consists in that the mercury vapor pump with the absorber is a structural unit with a common suction nozzle for sucking in the Forms air vapor mixture.

The invention is shown in the drawings, FIGS. 1 and 2, in two exemplary embodiments partly in section, partly shown schematically in view.

Fig. I illustrates an embodiment in which the cooling water jacket 46 of the condenser 47 of the mercury vapor jet pump with a further tubular jacket .4.8 forms the vacuum absorber. The absorption liquid, primarily sulfuric acid, enters the vacuum absorber through line 13 and trickles over the water-cooled wall of tube 46, which is expediently equipped with rings 54 to distribute the sulfuric acid. The water vapors that come from the evaporator flow through the line 5, which forms the suction port of the pump, into the vacuum absorber 49 and are absorbed here by the sulfuric acid. Gaseous admixtures, in particular air that is present or has penetrated, are pumped out by the mercury vapor jet pump through the suction gap 52. A particularly simple construction results from the arrangement shown in FIG. The operating water of the water jet pump enters through the nozzle 53, flows through the pipe 46 and is then used to operate the water jet pump 6. The water jet pump 6 has two lines at its suction chamber, one of which, 55, opens into a dome 56 and the fore-vacuum for the mercury; over-vapor jet pump forms, while the second line 7 leads to the absorber and serves to discharge the used acid. The line 7 is equipped with a storage device for the used acid. She is z. B. performed in one knee. The used acid then forms the liquid seal s, through which the water vapor pressure area of the water jet pump is shut off from the water vapor pressure area of the absorber.

Fig. 2 illustrates another embodiment. Here, a mercury vapor jet pump 30 of the usual design is combined with a unit through its suction line 31, the cooling water line 36 and the fore-vacuum line 32, which in turn unites an absorber and a water jet pump. The vacuum absorber is formed by the space between the tube 2 a and the tube 26. The pipe 2a is connected to the cooling water line 36 and the operating water from the water jet pump 6 flows through it. The wall of the pipe 2a serves as a trickle surface for the sulfuric acid which enters through the line 13a. The absorber is connected to the mercury vapor jet pump by line 31 and to a vacuum chamber 27 by line 29. In the vacuum chamber, the good I ja, from which water vapor is to be removed, is conveniently in shallow bowls f oa. The vacuum chamber can be closed by a cover 28 which is expediently designed in the manner of a door. Depending on whether the evaporation of water is to be used to dry moist substances or to concentrate aqueous solutions or - without supply of heat - to generate cold, the vacuum chamber 27 is or is not equipped with heating devices of the usual type.

The present invention provides a specific pump for the Pumping of water vapor created low voltage. Should the pump be temporarily be used in the previous type as a high vacuum pump for pumping gases, so the line 7 is either shut off by a tap, or it becomes the fluid bag 25 filled with mercury. To facilitate this measure, the knee 25 can with be connected to a line that can be shut off by a tap, through which mercury, e.g. B. in connection with a level vessel, introduced into the knee 25 or removed therefrom can be.

Claims (4)

PATENT CLAIMS: i. Mercury vapor jet pump for venting the absorber according to patent 533 698, characterized in that the high vacuum pump (30) and the absorber (26, 48) form a structural unit with a common suction nozzle (5) for sucking in the air vapor mixture. 2. Q corner steam jet pump after Claim i, characterized in that its cooling water jacket (46) is the trickle surface forms for the absorption liquid. 3. mercury vapor jet pump according to claim i, characterized in that its suction nozzle (So, 54 52) within the absorber (49) lies. 4. Ouecksilberdampfs.jet pump according to claim i, characterized in that the connecting line (7, 7a) between the absorber and the backing pump (6) of the Ouecksilberdampfs.jet pump can be shut off.