CS244943B2 - Apparatus for thermal or material transfer between liquids and gases or steams - Google Patents

Abstract

1. Apparatus for heat and/or mass exchange between flowing liquids and gases or vapours flowing oppositely or transversely thereto, so that the liquids and the gases or vapours at least partly contact each other and wherein the liquid is carried by at least one liquid-guiding surface (1) having apertures (2) through which the liquid flows, characterized in that a turbulence element (3) projecting from the surface (1) is arranged in front of each aperture (2), taken in the direction of flow.

Description

The present invention relates to a device for thermal and / or mass transfer between liquids and gases or vapors, wherein the liquids and gases or vapors are at least partially in contact, and the liquid is supported by a liquid guide surface having openings through which the liquid flows.

Such devices are widely used in the power industry, for example in power plants as thermal separators, in the chemical industry or in water management, for example as columns. As is well known, thermal and / or mass transfer occurs wherever the flowing means at least partially touch each other.

The difficulty of operating existing devices for simultaneous heat transfer and mass transfer is due to the surface tension of the liquid and the laminar nature of the fluid flow. The surface tension prevents the pressure difference that causes gas to diffuse from the liquid. And laminar flow not only prevents gas diffusion but also heat transfer due to long diffusion paths and heat transfer paths.

In one well known degasser, the plates are arranged one above the other and a layer of liquid is formed on them. The plates are provided with openings through which liquid flows down. Gas or vapor to flow upwards against the direction of liquid, or ¹ · perpendicularly thereto in the transverse direction. These widespread so-called cascade devices have a preference for a relatively large area density, i.e. a relatively large area of liquid can be achieved in a given volume of the device, thereby maintaining relatively small dimensions of the device. These devices are designed primarily as a vertically standing cylinder and therefore need a relatively small base surface.

However, these devices are equally burdened with the drawback that the liquid flowing through the holes in the plates has a linear flow. This effect is also reinforced by the fact that, in order to reduce the volume, the cross-sections of the holes in the plates are kept small, and consequently the Reynolds number of the liquid flow is also small. In order to eliminate this drawback, the dimensions of the apparatus were constantly increased. Despite this, the expected effect, for example the desired degree of degassing, cannot be achieved. · In this case, for example, an additional post-distiller is used.

Up to now, it has been recommended to gently spray the water entering the device to reduce diffusion paths, possibly heat conduction paths, and to increase the area of the liquid. However, the surface tension is even greater in small drops and the laminar character of the flow has been maintained. In addition, additional energy is used to spray the water. Therefore, no noticeable improvement is not achieved by spraying and the use of an additional distillator cannot often be avoided.

SUMMARY OF THE INVENTION The object of the present invention is to provide a device for thermal and / or mass transfer between liquids and gases or vapors which can eliminate the drawbacks of known solutions which exhibit phenomena preventing gas diffusion and heat transfer and thereby make it simpler. less expensive and more reliable operation.

The invention is based on the finding that the liquid streams flowing through the openings in the plates are to be produced with a high degree of turbulence and at the same time a turbulent flow is to be induced on the liquid guide surfaces. In this way, perfect turbulence can be achieved in the interior of the plant at an optimum "surface density".

The above-mentioned deficiencies are overcome and the object is solved by a device for thermal and / or mass transfer between liquids and gases or vapors, where the liquids and gases or vapors meet at least partially and are guided over a surface having openings flowing thereon A turbulent element protruding from the surface is fixed to the surface in the direction of the liquid flow exiting the inlet in front of each opening.

According to the invention, the surface can be designed as a plate or trough or as an open channel.

The liquid supply to the surface may be a tube whose longitudinal axis is parallel to the surface. The longitudinal axis may also form an acute angle with the surface. In a preferred embodiment, the outlet opening of the lance is arranged at a distance above the surface.

According to the invention, the surface can be arranged obliquely to the horizontal.

In order to create a turbulent element, two possibilities are offered according to the invention. On the one hand, it can be formed as a fining wire firmly connected to the surface, for example welded, or it can also be made in one piece of the surface material.

In the solution according to the invention, the projecting beams are very turbulent and also additional turbulent jet surfaces are formed on the surface of the part carrying the acid layer. As the turbulent flow changes the portions of the liquid located inside and at the edge of the stream quickly and often their places, the nature of the heat flow also changes. Slow heat conduction is replaced by much more efficient convective heat transfer. Here, gas separation is also much more efficient, because instead of slow diffusion, gas evolution from the surface occurs. Due to the turbulent surface of the fabric, the dimensions of the original heat and mass transfer devices can be noticeably reduced, with the performance capability being increased and the additional boiling required in known devices can simply be removed.

Further details will be explained in connection with the embodiments of the invention with reference to the accompanying drawing. In the drawing: FIG. 1 shows a schematic cross-section of one embodiment of the device according to the invention, and FIG. 2 'shows the same section as in FIG. 1, but for another embodiment.

As can be seen from the cross-section in FIG. 1, a liquid layer 5 is formed on the liquid conducting surface 1. Openings 2 are provided in the surface 1 through which the liquid flows in the form of a liquid stream 6. A lance 4 is arranged above the surface 1 at a certain distance, the longitudinal axis of which is parallel to the surface 1 in this embodiment.

According to the invention, the liquid layer 5 on the surface 1 is brought into flow as indicated by the arrow 7 in FIG. 1. In the flow direction 7, i.e. in the arrow direction, a firmly turbulent surface 1 is arranged on the surface 1 before each opening. an element 3 that projects out of the surface 1. The turbulent element 3 is here formed in the form of a fining wire, which is welded on the plate of the surface 1 at the openings 2 arranged in the set and perpendicular to the figure.

As said, the liquid flows on the surface 1 in the direction 7. This flow is achieved here by the liquid from the inlet pipe 4 being discharged onto the surface 1 with a certain speed-and with a certain pulse, indicated by the arrow 9. This impulse maintains the flow of the liquid layer 5.

FIG. 2 shows another embodiment of the device according to the invention, wherein the turbulent elements 3 are formed in one piece directly from the material of the surface 1. These turbulent elements can be produced, for example, in a single operation by pressing, i.e. by punching the surface 1 and perpendicularly bending the turbulent element 3.

Here, the surface 1 is arranged obliquely to the horizontal. The flow of the liquid layer 5 in the direction 7 here can be caused by gravity, so that the design and arrangement of the inlet pipe 4 is not absolutely critical here.

The device according to the invention operates as follows. The liquid forms a layer 5 on the surface 1, which can be in the form of a plate, trough or channel, and the flow is introduced either by the inlet pipe 4 or by the inclined arrangement of the surface 1. the 5-liquid layer is subjected to intense turbulence. However, the flow immediately downstream of the turbulent element 3, where openings 2 are located in the surface 1, will be particularly turbulent. Thus, the flow of the liquid stream 6 flowing in direction 8 becomes completely turbulent.

Experiments with a test specimen of the device according to the invention have shown that the total turbulence of the liquid layer 5 and the liquid stream 6 arises not only above the critical Reynolds number 2,320, but much lower, starting at approximately Reynolds number 1 θθ0. Despite the mitigating effect of the confusion flow, the basic flow is strongly turbulent. An additional turbulent flowing layer is formed on the surface 1. This fully accomplishes the set tasks and achieves the set goal.

Claims (8)

A device for the thermal and / or mass transfer between liquids and gases or vapors, wherein the liquids and gases or vapors are at least partially in contact with each other and the flow of liquid exiting the inlet is guided over a surface having orifices flowing through the liquid. - by having a turbulent element (3) protruding from the surface (11) attached to the surface (1) in the direction of the flow of liquid exiting the inlet before each opening (2). Device for thermal and / or mass transfer between liquids and gases or vapors according to claim 1, characterized in that the surface (1) is designed as a plate or trough or an open channel. Device for thermal and / or mass transfer between liquids and gases or vapors according to claim 1 or 2, characterized in that the liquid supply is formed by a tube (4j) whose longitudinal axis is parallel to the surface (1). 4. Device for thermal and / or mass transfer between liquids and gases or vapors according to claim 1 or 2, characterized in that the longitudinal axis of the tube (4j) forms an acute angle with the surface (1). Device for thermal and / or mass transfer between liquids and gases or vapors according to one of the preceding points, characterized in that the outlet opening of the tube (4) is arranged above. flat (1). 6. The thermal and / or nobody transfer device between liquids and gases or vapors according to any one of the preceding claims, characterized in that the surface of the clay is inclined. Device for thermal and / or mass transfer between liquids and gases or vapors according to one of the preceding points, characterized in that the turbulent element (3J) is designed as a fining wire firmly connected to the surface (1). Device for thermal and / or mass transfer between liquids and gases or vapors according to any one of the preceding claims, characterized in that the turbulent element [3] is made of a material of the surface (1j) in one piece.