SE441569B - Installation with reactors for the cleaning of liquids - Google Patents

Description

- 15 20 25 30 35 'reactors - can be separated from the plant in 780-2581-4 2 series. The liquids to be purified thus flow through, whereby, however, purification ex Al 2 O 3 means that the first reactors one after the other, the agents or the purifying substance, t -powder are consumed to different extents. This agitator in the series reactor is consumed faster than the subsequent ones, which means that this reactor must first be replaced. For this, however, the plant must be stopped. Depending on the degree of consumption of the detergent in the subsequent reactors, the exchange procedure can be repeated several times within the same week. The loss of time is large and the resulting pollution is a significant inconvenience. The present invention thus has for its object to summarize reactors in a plant with more than two reactors required for purification in such a way that it becomes possible that the currently most consumed reactor - usually the first reactor in a series and for replacement of the solid cleaning agent, without the entire plant having to be stopped and thus the entire cleaning process being interrupted.

The solution of this problem is characterized according to the invention in that the individual reactors, each provided with a sludge outlet, are arranged in a sectoral manner around a common outlet for the purified liquid and have a circumferentially arranged common inlet chute for the liquid to be purified. and wherein each reactor can be connected to or shut off by means of shut-off connecting elements from the common inlet chute and the outlet, respectively, and have overflow drains therebetween, and wherein the reactors are connected in series so that the overflow of the previous reactor is connected to the next reactor inlet and wherein one or more reactors can be disconnected from the series circuit by closing the overflow drain by means of a shut-off element.

According to a particularly advantageous embodiment of the plant according to the invention, the general outlet can be designed as an additional sedimentation basin. The invention will now be explained in more detail in connection with an exemplary embodiment shown in the accompanying drawing.

In the drawing, the reactors have been designated by the reference numerals 1-8 and have a trapezoidal or circular section-shaped cross-section. They are connected in series and form a circle respenimanghorn around a general outlet9.

According to the figure, they thus form circular ring segments. A supply channel 11 for the liquids is arranged around the reactor outer walls or the common reactor outer wall 10. The common inner wall 12 of all reactors 1-8 also forms a circle. The individual reactors 1-8 have substantially the same structure as the quadratic agitator reactors according to the main patent, ie with outlet recesses 13, suspension plates 14 at the inlet 15 in question, suspension plates 16 with vortex brakes 17 at the respective board 13 outlet 18 to the general outlet 9. Through the annular placement, each chamber can be used as the first agitator reactor. The inlets 15 and the outlets 18, respectively, can be provided with shut-off connecting elements 21 and 22, while the overflow drains 13 can be closed by means of shut-off elements 23 against adjacent reactors.

The various outlets 18 are connected, for example, via pipes 24 to the general outlet 9. The general outlet 9 can be designed as an additional sedimentation basin, the pipes 24 opening into an inlet pipe 25, which extends down to the basin 26 on may be connected to overflow conduits 27. The space of the outer wall 28 of the intermediate sedimentation basin 26 and the inner wall 12 may also be formed as a common overflow gutter, which communicates with downwardly directed conduits not shown in more detail. The extra sedimentation basin 26 has the task of holding back washed-off fine-grained cleaning agents.

By the annular arrangement of the reactors 1-8, each individual reactor chamber can be used as the first reactor. A stirring element 29 is arranged in each chamber, which ensures that the cleaning substance is swirled up. Only in the first use can all eight agitator reactors be connected in series. Only the last reactor 8 and the first reactor 1 are then separated from each other, i.e. the outlet 13 of the reactor 8 is closed by means of the shut-off element 23. All the inlets 15 of the reactors 2-8 and all the outlets 18 of the reactors 1-7 are also closed. inlet 15 and outlet 18 of reactor 8 remain open for the time being. After one hundred percent consumption of the oxide in the first agitator reactor 1, its inlet 15 and outlet 13 are also closed, ie the reactor 1 is disconnected from the reactor series. The reactor 1 can be completely cleaned. The inlet reactor 15 inlet 15 is opened. Now the series consists of only seven If reactor 2 is run out, it is separated from the series and the corresponding reactor 3 now forms the first reactor of the reactor series 3-8, whereby the inlet 15 of the reactor 3 is opened and the outlet 18 of the reactor 8 is closed, the outlet 13 of the reactor 8 is opened, the inlet 15 of the reactor 2 is closed and the outlet of the reactor 1 to the sedimentation basin 9, 25,26 is opened.

Through this approach, the spent purifier in the most consumed reactor, ie the reactor in the series designated as the first reactor, can be exchanged via the drain opening 19, without having to stop the entire plant.

Claims (2)

1. 0 15 20 7802581-4 PATENT REQUIREMENTS 1. Plant with several individual reactors for purification of liquids by treatment with solid cleaning agents, each reactor consisting of a mixing zone in which a stirring element provides intensive contact between the cleaning agents and the liquids. , furthermore by an inlet for the liquids and by a deposition zone and outlet following the mixing zone, characterized in that the individual reactors, each provided with a sludge outlet (19), are arranged in a sectoral manner around a common outlet (9) for the and has a circumferentially arranged common inlet chute (II) for the liquid to be purified, and wherein each reactor can be connected to or shut off by means of shut-off connecting elements from the common inlet chute and the outlet, respectively, and have overflow drains therebetween and the reactors are connected in series so that the overflow drain (13) of the previous reactor is connected to the inlet (15) of the next reactor and wherein one or more r actuators can be disconnected from the series circuit by closing the overflow drain (13) by means of a shut-off element (23). Plant according to claim 1, characterized in that the general outlet (9) is designed as an additional sedimentation basin (25,26,27,28).