SU969279A1 - Heat mass exchange apparatus - Google Patents

Description

The invention relates to instrumentation. The processes occurring in the system gas (vapor) - liquid, such as absorption, rectification.

A heat and mass transfer apparatus is known, including the body, the height of which includes plates made in the form of a base with supports,. equipped with contact elements in the form of flakes arranged in rows, partitioned by transverse partitions attached without a gap to the base, and flow-through channels for the liquid 1.

A heat and mass transfer apparatus is known, which includes a body, the height of which includes plates with partitioning sections, made in the form of a base with supports, provided with contact elements in the form of groups of scales arranged. in mutually opposite directions between partitioning partitions, flow-through channels for liquid

A disadvantage of the known apparatus design is the low phase interaction efficiency due to the fact that the re-entrenchment channels, made in the form of a receiving and drainage

pockets, reduce the working area of the base of the plate.

The purpose of the invention is to intensify the process of heat and mass transfer by increasing the homogeneity of the two-phase layer and increasing the working area of the tray.

The goal is achieved by

10 that in a heat and mass transfer apparatus, including a body, the height of which is fitted with plates with sectioning partitions, made in the form of a base with supports, provided with contact elements in the form of groups of scales located in mutually opposite directions between the sectioning partitions and flow channels, flow flows

20 channels are made in the form of groups of holes and are located between the groups of scales above the supports of the underlying plate.

It is advisable to perform partitioning of the partition wall in the lower part with the flow windows located above the burs.

FIG. 1 shows a heat exchanger, a longitudinal section through

30 of FIG. 2 is a portion of the base of the tray, accoHOMGTpHHt in FIG. 3 - the base of the plate, - top view,;

The heat and mass transfer apparatus includes a housing 1, the height of which is placed on the plates 2 and 3, made in the form of a base, equipped with con. clock elements in the form of flakes 4. The base of the plate 3 is attached to the housing Ij by means of the supports 5 and is equipped with section-breaking devices. transverse partitions b, in the lower part of which flow-through windows 7 are made, located above supports 5, Adjacent, groups of flakes 8 and 9 are oriented in mutually opposite directions, with flow-through channels arranged in the form of holes 10 or slots 11 with bent edges 12.

The support 5 of the underlying plate 2 is located by the support channels 10 of the overlying plate.

Heat and mass transfer apparatus operates as follows.

Gas (vapor) enters the lower part of the housing 1 of the heat and mass transfer apparatus, and liquid, which moves in countercurrent, flows into the upper part of the apparatus.

The liquid on the plate 3 enters through the overflow channels of the overlying plate, made in the form of holes 10 or slots 11 with bent edges 12. Liquid flows into the place where the supports 5 are attached, to which the base 3 of the plates 5 is attached. , Bottom gas (steam), passage through the contact elements in the form of cups 4, interacts with the liquid, throwing it to the partitioning transverse partitions b.

The contacted liquid, through the cut hole 10, flows onto the underlying plate 2, and the gas (vapor) rises onto the overlying plate, where the process of phase interaction is repeated. The redistribution of fluid along the plane of the base 3 of the tray 2 is carried out through the overflow ports 7.

Orientation of adjacent groups of 8 and 9 flakes, in mutually opposite directions, between which the overflow channels are located, to transfer liquid to the lower plate in the zone of location of the supports 5, increases the uniformity of the two-phase layer and the absence of liquid dip in the zone of its entry to the plate, which leads to the intensification of the process of heat exchange.

The economic efficiency of the proposed apparatus includes a decrease in metal consumption in comparison with the known dish structures by 18–20% due to an increase in the upper limit of the gas – liquid load, as well as a decrease in the number of plates by 10% due to an increase in the mass transfer efficiency.

Claims (2)

1. A heat and mass sorbent apparatus, including a housing with a height that includes plates with sectional partitions made in the form of a base with supports, provided with contact elements in the form of groups of scales arranged in mutually opposite directions between sectional partitions and flow-through channels for a liquid, and that, in order to intensify the process of heat and mass transfer by increasing the homogeneity of the two-phase layer and the working area of the plate, the overflow channels are made in the form of groups openings and are positioned between groups of flakes over supports nizhelezhschey plates. 2. The apparatus according to claim 1, characterized in that the partitioning partitions in the lower part are made with overflow windows located above the supports. Sources of information taken into account in the examination 1. Chemical industry abroad, 1976, No. b, c. 64. 2. GCCP copyright certificate No. 7474J9, cl. B 01 D 3/30, 1976., 969279 .6 .J -five FIG. 2 ten