SU1648526A1 - Fractionating tower - Google Patents

Description

The invention relates to the design of distillation packed columns and can be used in the rectification of heat-insulating products.

The aim of the invention is to increase the developed condensation surface, decrease the hydraulic resistance and the residence time of the processed product in the condensation zone,

Figure 1 shows a distillation column, and its main structural elements, a general view; figure 2 - node I in figure 1.

The distillation column includes a housing 1, a partial dephlegmator, including a removable coil 2, placed inside the housing 1 of the column, and an outer jacket 3. In the upper zone, the coil 2 is attached to the upper (removable) cover 4, and in the lower zone is supported by the lower turn on the conical redistributor 5 , the upper screening of which is inserted inside the lower turn of the coil 2. In various zones along the height of the jacket 3, the refrigerant outlet lines 6 are made. The coil 2 is connected to the jacket 3 by an external pipe 7. Under the distribution cone 5 are distributed distribution elements, the upper of which is made in the form of an annular groove 8, which is connected to the downstream liquid distributor 9 by an external overflow pipe 10 with a viewing lamp 11. The bottom ends of the distributor 9 are - emitted to the surface of the nozzle 12. To the upper zone, the lamp 11 is attached to an equalizing line from nozzle 13. The column case is also equipped with fittings for refrigerant inlet 14, for supplying pi 15, for steam inlet and outlet, respectively, 16 and 17, and for liquid outlet 18.

The distillation column works as follows.

The feed fluid through the nozzle 15 enters the liquid distributor (not shown), from which flows to the surface of the nozzle 12. Product vapors through the nozzle 16 enters the body of the column and through the nozzle channels 12, the distributors 9 rise to the partial reflux condenser cooled with refrigerant. The refrigerant is supplied through the nozzle 14 to the coil 2, from which through the external pipe 7 is supplied to the lower zone of the outer jacket 3, from which through any of the pipelines 6 is removed from the reflux condenser. The amount of vapor (reflux liquid) condensed in a reflux condenser is controlled with good accuracy by

condensation surfaces in the outer jacket 3 by removing the refrigerant from different pipelines 6 of the outlet located in different zones along the height of the jacket 3. Thus, in a reflux condenser, a predetermined amount of product vapors condenses and the refluxing liquid flows along the surface of the coil 2 turns and along the walls of the housing 1 columns in the annular chute 8.

Thanks to the appropriate implementation and the selected ratios of the diameters of the upper D8 and lower Bottom flanging of the redistribution cone 5 and the internal diameter of the turns of the coil 2 Dz and the diameter of the inner wall of the ring groove 8 J -. (Fig. 2) a calm and orderly flow of the reflux liquid moving along the coils of the coil 2 onto the surface of the redistribution cone 5 and into the annular chute 8 is provided. fluid from which flows to the surface of the nozzle 12. This implementation virtually eliminates the possibility of disordered movement and failure of the reflux liquid to the surface of the nozzle 12, i.e. an orderly and uniform supply and run-off of the reflux liquid over the surface of the nozzle 12 and its active exchange of heat and mass with an upward flow of steam is provided. In the area of the power supply through the nozzle 15, the reflux and feed liquid is mixed and the total flow of the liquid flows off and in contact with the steam flow. If it is necessary to condense a very precise amount of reflux liquid, the adjustment due to the chosen size of the condensation surface is corrected and supplemented by fine adjustment of the flow rate (decrease or increase) of the refrigerant. This is provided by the possibility of very accurate measurement of the refrigerant consumption by a calibrated viewing lamp 11. To remove the vapor phase, when taking measurements from the head part, the lantern 11 is provided with an equalizing line from fitting 13 in the upper cover 4.

The liquid flowing down through the nozzle 12 is discharged from the body 1 of the column through the nozzle 18, and the steam flow is discharged through the nozzle 17.

Claims (2)

1. A distillation column comprising a housing with a lid, an integrated reflux condenser, distribution and redistribution elements, characterized in that, in order to increase the developed condensation surface, reducing the hydraulic resistance and the residence time of the product being processed in the condensation zone, the dephlegmator is made in the form of a coil and placed outside the jacket body with height-fitting fittings, the upper coil of the coil is fixed in the column cover, and the bottom is mounted on the redistribution element, the last of which is a cone with upper and lower flanging, the upper flanging has a diameter smaller 0 internal diameter of the coil loop, and is located inside the lower coil coil, and the bottom flange has a diameter larger than the inner wall of the distribution element. 2. A column according to claim 1, characterized in that the coil is connected to the outer jacket by an external pipeline, and the distribution elements are arranged coaxially and interconnected by an external pipeline to a viewing lamp. U Dz Shchi 2