DE1501480C3 - - Google Patents

Description

3 4

Inlet nozzle 11 of the coolant, approximately lowering. The formation of foam is preferred on the grate to its longitudinal axis, intermediate floor 12 seen with the air flow on the interior alternating side provided edge passages is carried along with the bundle tubes 2. Here ordered that the flow of the cooling liquid so the foam is further in by the air flow direct that the cooling liquid from the inlet nozzle 5 direction and over the entire length of the tube bundle 10 to the outlet connection 11 through the jacket 1 alternately taken along up to the separator 9. in the either in approximately perpendicular directions to the separator 9, the water separates from the air, Longitudinal axis of the heat exchanger flows around the bundle tubes 2 and the cooled air flows through the outlet. clip 8 to the place of consumption. The speed

The interior of the separator 9 is above an io of the flowing air is chosen so that it is not Return line 13 with the inflow opening 14 which only comes to the formation of foam on the grate 6, foam-forming auxiliary liquid to the grate 6 but that also this foam by the air binding, the inflow opening 14 under the underflow with sufficient speed in straightening Tube sheet 3, but in the vicinity of the grate 6, device and over the entire length of the tube bundle is provided. It is possible to take several 15 with you.

Line branches with inflow openings 14, which the flow of the swirling foam through

provided on the entire circumference of the transition piece 4, the tube bundle leads to a high intensity of the

hen are to be ordered. In the return line 13 there is heat transfer to the inner pipe walls

between separator 9 and inflow opening 14 a whole surface thereof, which is cleaner when flowing

Storage container 15 and a control element, for example 20 air, would be much lower. From the pipe bundle

wise a valve 16, switched on. The heat is then transferred to the storage tank through the cooling

hältl5 also opens a supplementary feed water discharged through the outlet nozzle

for foam-forming auxiliary liquid (not drained,

represents). Contaminants,

The gas to be cooled, e.g. B. air, flows with a 25 such as oil or dust that is in the flow of the to be cooled

high speed through the gas inlet tube - air are contained, are secreted,

zen 5, flows through the individual elements in the grate 6.

open openings where it is to be included with the foam-forming. The heat exchanger can both as

Auxiliary liquid, e.g. B. water, comes into contact. Work cooler as well as gas heater.

1 sheet of drawings

Claims (1)

1 2 generated between air and water, so that an inten-patent claim siver heat transfer between air and water and the other way round takes place. Heat exchanger, in which at least the inner- According to this principle, mixed or contact half of the bundle tubes flowing fluid with 5 built in heat exchangers, which do not heat exchange Auxiliary liquid is mixed gas, with a seeing wall, so that the heat exchange Device for distributing the auxiliary liquid in between gas and liquid only in the Gas near the entry of which into the bundle tubes, foam fluid is going on. A separator for the auxiliary liquid stream- There are also surface heat exchangers with known downwards from the exit of the gas from the bundle foam operation (Die Kälte, April 1964, tubes and a return line from separating p. 221, 222), in which tube bundles essentially which is marked to the distribution device, thereby perpendicular to the direction of the cooling air flow, that the foaming are ordered. The foam forms a layer around the auxiliary liquid with the gas, the tube bundle to be cooled. The speed of the Gas flow in the bundle tubes (2) from below 15 cooling air must be moderate, in order to entrain the is directed upwards, the distribution device foaming liquid through the air to de (grate 6) prevent the bundle below the gas inlet. Through British Patent 463 200 tubes (2) and the separator (9) above the is also already a tube bundle heat exchanger be-gas outlet arranged from the bundle tubes, in which there is a longitudinal flow in the shell space and in the return line (13) the return 20 of a foamed mixture of a cooling gas and Flow of the foam-forming auxiliary liquid provided by means of a cooling liquid around the bundle tubes Gravity is provided. is. Any separation and recycling of the Cooling liquid is not mentioned. Based on the above-mentioned known 25 th heat exchanger, it is the object of the invention The invention relates to a tube bundle heat to intensify the heat transfer even more exchanger, with at least that within the bundle and the effort for the return of the auxiliary pipes to reduce the flowing fluid with an auxiliary liquid. This object is achieved according to the invention by distributing it the auxiliary liquid in the gas close to 30 dissolves that the foaming of the auxiliary liquid with Entry into the bundle tubes, a separator for the gas is provided, the gas flow into the bundle Auxiliary liquid is directed downstream from the outlet of the delpipes from bottom to top, the VerGases from the bundle tubes and a return device below the gas inlet into the bundle line from the separator to the distributor. pipes and the separator above the gas outlet In a known heat exchanger of this type 35 occurs from the bundle tubes are arranged and in (French patent 1 322 236) that occurs to the return line the reflux of the foaming cooling Gas is provided at the highest point in the pipe - the auxiliary liquid by means of gravity bundle in and leave it at the lowest point. is. There is an advantage of the subject invention at the upper end of the tube bundle Chamber provided, which via small openings with the heat exchangers without clear foam Pipes is connected and one of the drive consists in the fact that the two-phase flow of the Separator-fed storage tank the Ililfs- gas and the liquid in the form of foam a liquid gets fed, the distribution of which in a relatively large increase in the intensity of the Gas flow in droplets or as a film at the heat transfer to the foam flushed inner wall of the bundle tubes is provided. This results in 45 pipe walls. it comes at most unintentionally and imperfectly. men lead to foam formation. In addition, it needs exchangers is shown in the drawing, for example the well-known heat exchanger for maintaining visibility. The heat exchanger according to the drawing consists of zes a separate pump, which apart from the 50 a cylindrical jacket 1, in which a bundle increased manufacturing costs also the necessary of long tubes 2 is installed, the ends of which in constant energy supply. a lower and an upper tube sheet 3 loading There are also methods of increasing the level of war-solidified. At the lower tube sheet 3 is a transition transition as well as the known heat exchanger 4 with a gas inlet connection 5 angcden, where the so-called foam was clearly decided. The conical transition piece4 is with drive is intended, which is provided by a two-phase a built-in grate 6, which in the flow of gas and liquid in the form of foam away from the flowing through the inlet nozzle 5 is marked. The foam produced is a gas and essentially before the entry of the turbulent mixture of gas and foam-forming gas is arranged in the tubes of the tube bundle 2. Liquid z. B. on a grate, a perforated 60 to the upper tube sheet 3 is a cylindrical Plate or sieve running water and connected through dome 7 with a gas outlet nozzle 8, the grate flowing through, with the water. In front of the gas outlet nozzle 8 is a separator 9 for mixing air has been formed. Arranged by the foam-forming auxiliary liquid. the the individual openings of the grate with sufficient casing 1 is in the vicinity of the upper tube sheet 3 the speed of air flowing through it becomes 65 with an inlet nozzle 10 and in the vicinity of the '.. iridas Water on the grate in a strong swirling of the lower tube sheet 3 with an outlet nozzle 11 and thereby a foam-like product for coolant is provided. Inside the jacket 1 Exchange fluid with a large contact area are between the inlet nozzle ί (! and the outlet