CS198120B2 - Device for concentrating the solution of the substance in the solvent - Google Patents

Abstract

1411862 Concentrating phosphoric acid by evaporation PROREA 22 June 1973 [22 June 1972] 29910/73 Heading C1A [Also in Division B1] Aqueous phosphoric acid having a concentration equivalent to a P 2 O 5 content of 25-35% by weight is concentrated to 50-60% by weight by evaporation by introducing the solution at 17 at 2080 kg./hr. to tank 1 so that it passes in countercurrent to hot air at 500‹ C. introduced from duct 4 at 20,000 m<SP>3</SP>./hr., the air passing over the top of the solution. Stirrers 10 disperse drops of liquid in the gas, and device 21 measures the acid concentration and adjusts gas heater and flow controller 20 if necessary to achieve the desired concentration.

Description

(54 J Device for concentrating a solution of a substance in a solvent

The invention relates to an apparatus for concentrating a solution of a substance in a solvent by contacting the solution in the chamber with a stream of hot gas circulating in the space above the solution, the hot gas being able to evaporate and entrain the solvent.

In apparatus of this kind, contact between the gas and the solution is achieved, in particular, either by means of bulkheads extending to one another or by forming one or more orifices of droplets of solution in the path of said gas.

However, it has been found that such devices are associated with considerable charge losses and that the interaction between solution and gas is insufficient. This implies that in such devices concentration of the solution with insufficient yield is carried out despite the fact that a large amount of energy is consumed, which results in increased costs.

The present invention overcomes these drawbacks and is intended to provide a device that allows the solution to be concentrated to a predetermined degree at maximum yield and at moderate operating costs so that the device can operate without particular supervision and high productivity.

The invention is based on the fact that the device for concentrating the solution of the substance in the solvent comprises rotary stirrers with vanes, a part of which is located above the solution, and further. means for adapting both the supplied amount and the temperature of the gas to the final stage - the concentration of the substance in the solution, wherein the space provided above the gas circulation solution has a rectangular cross-section.

Preferably, the vanes are inclined to the surface of the solution at an angle of between 90 ° and 30 °.

In another embodiment, the vanes are perpendicular to the surface of the solution.

According to a further embodiment of the invention, the stirrers are provided with wings at the shaft end.

The invention and its advantages will be explained in more detail with reference to the accompanying drawing showing an exemplary embodiment of the invention.

Giant. 1 schematically shows, in partial cross-section, a front view of one embodiment of a concentration device according to the invention.

Giant. 2 is a section along line A - A in FIG. 1.

In the illustrated embodiment, the concentrating device according to the invention consists essentially of a trough-shaped cauldron 1 having a substantially U-shaped profile and closed at the top as shown in FIG. 2.

The body 1 rests on a frame comprising supports 2 which also have a corresponding U-shape.

The body 1 is partially filled, for example, with an aqueous phosphoric acid solution 3, to a constant level. The space 5 for circulating gases above the surface of the solution 3 is substantially rectangular. '

The hot gas is introduced into the body 1 through a conduit 4 after passing through a device 20 comprising both a flow rate regulator and a gas heater, the device 20 being associated with a device 21 for measuring the concentration of solution 3.

According to the invention, the concentration of the solution is carried out by forming a network of interweaving sprays or droplets in space 5.

In the example shown, this is accomplished using two powerful agitators 0 which rotate at high speed.

These stirrers 6 are mounted on the upper part of the body 1. They consist of a shaft 7 driven by a motor 8 and carrying blades 9, which are partly located above the solution 3.

The shaft 7 is driven at a sufficiently high speed at which the vanes 9, which may be perpendicular or oblique to the surface of the solution 3, disperse the solution in the form of droplets or spatters into the interior of the space. modifications of several agitators create a tangled interlocking on the gas path. This, in conjunction with the virtually rectangular cross-section of chamber 1, ensures excellent contact between gas and solution. These stirrers may still be provided with means, for example, wings 10, which allow mixing in the depth of the concentrated solution.

At the outlet of the chamber 1, the gas containing the water vapor is introduced into the expansion chamber 11. It preferably passes first through a cushion 12 consisting of synthetic finely interlocked fibers interposed between two perforated plates, which cushion is preferably accessible from the outside.

The cushion 12 is fed with the solution to be concentrated in countercurrent to the gas by means of the device 17 in a predetermined amount.

The gas containing the water vapor is then passed to the discharge conduit 13. Into this conduit is sucked in by a fan 14, for example of the centrifugal type, which is shown only schematically. As a result of the great tangential speed ⁷ . . ⁴ i.

By means of the gas-wing bearings of the fan wings, the droplets entrained in the form of gas bubbles are also thrown on the inner wall of the fan and are collected at its lower part, where they are discharged towards the housing 1 via a suitable duct 15.

Concentrated solution: by evaporation and entrainment of its water flows from the body 1 through the outlet 16 located on the front side of the body 1, for example to its lupotrfeben 7

According to the desired result, it is possible to equip the concentrating devices with several bodies 1 which are arranged in the series. ‘/

The efficiency of the concentrating device according to the invention is given by the fact that the gases are brought into a very close and violent contact with the solution dispersed by these stirrers by means of agitators.

Thus, the gas that is circulated on the surface of the solution reaches a very large number of droplets having completely different directions and high velocities. As an illustration, the velocity of the gas and solution relative to each other may be higher than 70 km. and the gas circulation rate is approximately 15 m / s.

This intensive droplet gas bombardment with negligible charge loss ensures excellent concentration-yielding with minimal energy consumption, without the need for special supervision of the device of the invention.

However, the concentration of the phosphoric acid solution 3 is a function of the flow rate, or its supply and the temperature of the gas, which concentration can be predetermined by the device 20 being associated with a device 21 for measuring the concentration of phosphoric acid in solution 3.

It will be understood, however, that the device according to the invention is made of a material chemically inert to phosphoric acid.

By way of example, the phosphoric acid solution at a concentration of 25-35 wt% P2O5 at a rate of 2080 kg per hour is injected through the device 17 while the air is blown at 20,000 m ³ / h at 500 ° C through line 4. From the outlet 16, a phosphoric acid solution having a concentration of 50 to 60 wt. % P2O5, the yield of the order being 99.5%.

However, the invention is not limited to the exemplary embodiment described and illustrated.

Claims (4)

BEFORE THE INVENTION An apparatus for concentrating a solution of a substance in a solvent by contacting the solution in a chamber with a stream of hot gas circulating in the space above the solution, wherein the hot gas is able to evaporate and entrain the solvent, characterized in that it comprises rotary stirrers (6) with vanes (9), some of which are located above the solution (3), and means (20, 21) for adapting both the supplied amount and the gas temperature to the final degree of concentration of the substance in the solution; 3) has a rectangular cross-section for gas circulation. Device according to claim 1, characterized in that the vanes (9) are inclined relative to. the surface of solution (3) at an angle between 90 ° and 30 °. 3. Equipment according to item. 1, characterized in that the vanes (9) are perpendicular to the surface of the solution (3). Device according to any one of claims 1 to 3, characterized in that the stirrers (6) are provided with wings (10) at the end of the shaft (7).