CS200895B1 - Apparatus for separating gaseous and aqueous phases from each other - Google Patents

Description

The invention relates to an apparatus for uniformly distributing the gaseous and liquid phases into the heat exchanger tubes as they flow upwardly as the two phases flow.

In the evaporation of the refrigerants, the fractionation of the gases produced, or the evaporation of liquids into the gas stream in the heat exchanger tubes, the two phases need to be uniformly distributed throughout the tubes to ensure good heat exchange.

It has a device for separating the gaseous and liquid phases into heat exchanger tubes consisting of an apertured tray, to which liquid is transferred through a pressurized pipe and the gas passes through the bottom of the tray and thus forms a two-phase saeset before entering the pipes. Although this embodiment is simple, it has a number of disadvantages. Above the palate, the gas is dropped with liquid dripping and only at a certain distance from the inlet to the tubes is the biphasic flow direction created corresponding to the flow diameter and the physical wave phase.

When using a soft constructional material, such as aluminum, the flying droplets may be erosive. When the liquid enters the tray from one other height, the liquid layer adversely affects the liquid layer to separate the gaseous and liquid phases into the tubes.

Disadvantages of the prior art are eliminated by the apparatus for separating the gaseous and liquid phases into the heat exchanger tubes, in the upward flow, in the form of a distribution tray and a liquid inlet to the tray and gas inlet below the tray. o Drilling · Tubesheets · Nipples with an outer diameter equal to · 6 and 9 dss · are inserted · The inner hole of the bead tube / inlet extends into the bead tubes to the depth of the iodine half of the jodenapfil multiple of the nozzle flange.

The introduction of a device for separating the gaseous liquid phase into the heat exchanger tubes offers these advantages as well as the space of the distributing tray blade and the sleeves and the tube sheet are completely switched off by the liquid. The co-anilones, the liquid and gaseous phases, occur in their own tubes. The liquid phase aa feeds the inner tents of the tubes (as shown in the two-phase rollers) as they flow upwardly in the tubes. The liquid flows down the floor and through the palate, and the tubesheet / flow has an adverse effect of the inlet on the uniform distinction of the liquid and gaseous phases into the tubes is negligible.

An exemplary embodiment of the invention is apparent from the following description and figure.

The two-phase aalsl separating device is a tray 6 fastened by a pair of spacers and screws 2 to the tube plate 6. There are rigidly bound sleeves 4 into the tray 6 which extend into the tubing of the protrusion 4 fixed to the tube sheets. Cylindrical burners 6 forming a hydraulic closure 6 are connected to the cartridge 6. Tube 7 is closed from underneath wolf · 7 and throat · 8 for liquid supply and throat · 9 for gas supply equipped with · striker 10. For the passage of the gas of the nozzle £ a pressure epade / other is required and at the same time transfers the liquid from below. The walls of the wolf 7 into the space above the floor and further pushed our nipples into the tubes, where a and clay entrain the gas stream. In order to achieve the above-mentioned effect, it is necessary that the sleeve diameter (6) of the inner tube (4) and the depth of insertion of the sleeve (6) are within a certain range.

Externally, they were found to be the most suitable sockets 6 outside the diameter of 6 to 9 tenths of the inner opening of the tube 6 extending into the tubes 8 to a depth of the half-half of one and a half times the penetration of the tube. In order to ensure a uniform gas and liquid phase separation into the individual tubes, the tray 6 must be divided and the tubesheet 3 drilled.

Claims (1)

SUMMARY OF THE INVENTION Apparatus for separating the gaseous liquid phase into the tubes of the bulletin board heats (upwardly flowing in the shape of a separating tray and liquid inlet into the tray by the gas inlet below the tray (marked by three) into the apertures of the distributing tray (1) and drilling · tubesheet 73 / are properly inserted with sleeves / 47 o11 outer diameter · equal to or equal to 9 and · inner tube bore / 5 / protrusion / bore! the nozzles (4) extend into the tubes (5) in the thickness of the iodine half and one and a half times the diameter of the nozzle (4).