RU41724U1 - MIXER FOR WATER TREATMENT SYSTEM BY COAGULATION - Google Patents

Abstract

The technical proposal relates to the field of organizing and providing water supply to large industrial and residential facilities, mainly to water purification and disinfecting equipment, namely to water treatment equipment, mainly used in reagent facilities of enterprises and structures of water treatment plants of specialized organizations such as Mosvodokanal. The mixer for the coagulation water purification system contains an external drive mechanism and is made in the form of a vertical tank, and in order to increase the uniformity and efficiency of mixture formation, a drive shaft with at least two blades connected to the respective adjusters of their installation angles is mounted parallel to its axis . In this case, the drive shaft is connected to the external drive mechanism by means of a guiding apparatus and a compensating clutch, and the guiding apparatus of the mixer is made in the form of two rolling bearings mounted on the guiding shaft, connected on the other hand through a rigid casing with a vertical-capacity housing. To increase the performance of the mixer, a number of drive shafts are installed in parallel in its vertical tank, equipped with blocks of blades and connected through their guiding devices and compensating couplings with the corresponding external drive mechanisms. And in order to increase the reliability of its design, the blocks of blades, starting from the second, with the regulators of their installation angles are connected to the drive shaft by means of reverse devices for the directions of their rotation. According to calculations, the efficiency of mixture formation is increased by 30%, the precipitation time of the mixture and the remainder of the coagulant is noticeably reduced, and the supply of purified water to the consumer increases.

Description

The technical proposal relates to the field of organization and provision of water supply to large industrial and residential facilities, mainly to water purification and disinfecting equipment, namely, water treatment equipment, mainly used in the reagent facilities of enterprises and structures of water treatment plants in specialized industry organizations such as Mosvodokanal.

In particular, it relates to technical devices for wet dosing of various reagents in a liquid medium, used to improve the effect of sedimentation of suspended solids in water using movable contact means. The proposed solution can also be used for similar tasks in other areas of human activity, for example, by mixing interacting reagents (components) in the chemical industry, research apparatuses for various purposes, in the oil industry and others.

Analogs of this technical solution are known and widely used, for example, mixers for a water purification system by coagulation, in particular, described in the book "Fundamentals of hydraulics, water supply and sewage", ed. P.V. Lobacheva, M., Stroyizdat, 1966

Such a system comprises a loading device connected in series, a container for liquid coagulum with a dispenser for its supply, a mixer for preparing a working solution and a settling structure for sedimentation and subsequent removal of the precipitate formed, in particular in the form of a bottom suspension of flakes.

The mixer in the system in question is a tray in which partitions with water passages are installed across the flow. Thanks to them, the direction of water movement changes alternately, and in the narrowed sections increased velocities of its flow are created and the resulting turbulences contribute to a satisfactory mixing of water with the reagent.

Another type of mixer often used in such systems at water treatment plants is a hole mixer. It is a tray blocked by perforated bulkheads. Usually there are at least three of them with holes of corresponding diameters, the calculation of which is given in the famous book "Purification of Natural Waters" by V.A. Klyachko, I.E. Apeltsin, Moscow, Stroyizdat, 1971

The main disadvantages of the above mixers of such a system include the impossibility of using solid coagulates for water treatment and the low efficiency of mixing reagents by gravity of the liquid, especially at high speeds and volumes of water supply.

Closest to the claimed proposal on the technical nature of its prototype, is a mixer of a water purification system by coagulation, described in the book of T. N. Nikoladze, M. A. Somov “Water Supply” - Uch. A manual for universities, M. Stroyizdat, 1995

Such a mixer (prototype) is made in the form of a vertical container in which a liquid-exciting element is vertically fixed, for example, a lattice frame kinematically connected with a drive mechanism rotating it. In the particular case, a pipe (or pipes) can be used as an exciting element of the mixer with holes through which air mixing liquid with a reagent is supplied from a compressor under pressure. The vertical mixer in the plan is usually round or rectangular.

The process of mixing water with a coagulant in the mixer is a rather complicated hydrodynamic phenomenon - during unilateral rotation of the exciting element, depending on the configuration of the mixer capacity, reagent particles inevitably adhere to its body in “stagnant” (not washed by the stream) zones. The same phenomena occur when air is supplied, since the pipes are not structurally built into the corner parts of the tank.

Other disadvantages of such a mixer include the low efficiency of mixing water with a coagulant, caused by the non-parallelism of the rotation axes of the drive mechanism with the exciting element and the axis of the mixer, as a result of which narrow-directed mixture flows occur and all stagnant zones are not affected. Similar disadvantages are observed when compressed air is supplied to it - the presence of stagnant zones and uneven fluid flows remain.

The indicated disadvantages of the mixer design under consideration can be quite effectively eliminated when using a drive shaft with propeller-type blades used in aviation as an exciting element placed coaxially with the housing in the mixer.

In this case, due to rotation of the drive shaft of the mixer, the mixture is forcedly mixed, the efficiency W of which, in the general case, is determined by the angles a _i , installation (tilt, attack) of the blades in individual ix blocks, their range B, its angular velocities W, depends on the diameter D, the depth H of the tank and many other factors, such as the parallelism of the b axes of the drive mechanism, the drive shaft with the blocks of blades and the actual vertical capacity of the mixer:

Moreover, in such a (present) general proposal, one can find a number of the shortcomings noted above.

So, with one-sided rotation of the drive shaft with the blocks of blades, depending on the configuration of the tank, "stagnant" zones can still occur, which reduce the efficiency of mixing the reagent with water and the adhesion of reagent particles to the housing in such zones. Due to the rigid connection of the drive shaft with the drive mechanism and the parallel installation of the drive shaft at an angle b in the mixer housing, irregular, narrowly directed water flows with the coagulant and, as a result, their ineffective mixing can occur.

Therefore, the proposed technical solution provides

relevant constructive measures for their unconditional elimination:

- firstly, by forced control, in particular discrete, during installation and preliminary adjustment of the mixer, the magnitude and direction of fluid flows in the tanks created by each of the blocks of blades, by individually setting their angles a _{i of} attack. This allows you to ensure continuous circulation of the mixture in the stagnant zones of the tank and the forced washing out of solid, undissolved reagent particles adhering to its body;

- or control, if necessary, the angular velocities W, rotation of the corresponding block of mixer blades and, accordingly, the direction and intensity of the flows of the mixture of water with the coagulant;

as well as through the use of guide joints, such as cardan, the drive mechanism and the drive shaft of the mixing blades, in particular using compensating couplings. In the case of using a vertical container with a rectangular shape or a cylindrical shape, but with a diameter D that is much larger than the span B of the blades, in order to increase the efficiency of mixture formation and ensure sufficient productivity, it is advisable to use a larger number of M drive shafts with blades

Thus, the task to which this technical proposal is directed, its goal, is to develop a mixer design that provides increased efficiency of mixing and productivity of the water treatment system.

The solution to this problem is achieved by the fact that in the known mixer for a water purification system by coagulation, containing an external drive mechanism and made in the form of a vertical tank, in addition, a drive shaft is mounted parallel to its axis with at least two blocks of blades connected with corresponding controllers their installation angles, which is connected to an external drive mechanism by means of a guide apparatus and a compensation sleeve.

In addition, in order to increase the uniformity and efficiency of mixture formation, the guide vanes of the mixer are made in the form of two rolling bearings mounted on the drive shaft and connected on the other hand through a rigid casing with a housing of vertical capacity.

and connected through their guiding devices 6 and compensating couplings 7 with the corresponding external drive mechanisms 1.

To increase the reliability of the design of the mixer, the blocks of blades 4, starting from the second, with the regulators 5 of their installation angles are connected to the drive shaft 3 by means of devices 10 for reversing the directions of their rotation.

The mixer in the coagulation water treatment system operates as follows:

Before starting work on water purification, a coagulant is loaded into the solution-dosing equipment of the system, which dissolves in water and enters through the dispenser for supplying the obtained material to the mixer to mix the reagent with the mass of treated water.

Then, an external drive mechanism 1 is turned on, which, through a compensation sleeve 7 and a guiding apparatus 6, rotates the drive shaft 3 with at least two blocks 4 of mixing blades, the angles of attack a _{i of} which, as a rule, are preliminarily set by means of the corresponding regulators 5 so that the ascending and descending flows of the resulting mixture washed the coagulant material from the stagnant zones in the vertical container 2 of the mixer and did not allow its excessive accumulation, mainly in the lower part of the container 2, thereby reducing m, the effectiveness of mixing and operation of the cleaning system as a whole.

At the same time, the guide apparatus 6 of the mixer, due to two rolling bearings 8 mounted on the drive shaft 3, connected on the other hand through a rigid casing 9 with the housing of the vertical tank 2, provides an increase in the uniformity and efficiency of mixture formation.

And installation in a vertical tank 2 of the mixer parallel to a number of drive shafts 3, equipped with blocks of blades 4 and connected through their guides

To increase the performance of the mixer, a series of drive shafts are installed in parallel with its vertical capacity, equipped with blocks of blades and connected through their guiding devices and expansion joints with corresponding external drive mechanisms.

To increase the reliability of the design of the mixer, the blocks of blades, starting from the second, with the regulators of their installation angles are connected to the drive shaft by means of reverse devices for the directions of their rotation.

In the figures of Fig.1 shows a structural diagram of the proposed technical solution.

Figure 2 illustrates a structural diagram of the transmission of rotation from an external drive mechanism to the drive shaft of the mixer.

Figure 3 presents a fragment of the design of the mixer with a device for reversing the direction of rotation of the blades.

The mixer for the water purification system by coagulation, contains an external drive mechanism 1 and is made in the form of a vertical tank 2, in which a drive shaft 3 is additionally mounted parallel to its axis with at least two blocks of blades 4 connected to the corresponding regulators 5 of their installation angles, which connected to an external drive mechanism 1 by means of a guide apparatus b and a compensation sleeve 7.

In addition, in order to increase the uniformity and efficiency of mixture formation, the mixer guiding apparatus b is made in the form of two rolling bearings 8 mounted on the drive shaft 3 and connected on the other hand through a rigid casing 9 with a housing of a vertical container 2.

To increase the performance of the mixer in its vertical tank 2, a number of drive shafts 3 are installed in parallel, equipped with blocks of blades 4

apparatuses 6 and compensation couplings 7 with corresponding external drive mechanisms 1, can significantly increase the productivity of mixing, especially at high water flows.

After the mixer, the water with the coagulant enters the sludge structure for sedimentation and removal of the formed sediment from previously polluting substances and residues of the coagulant.

In addition, the blocks of the blades 4, starting from the second, with the regulators 5 of their installation angles are connected to the drive shaft 3 by means of devices 10 of reversing the directions of their rotation, thus providing increased reliability of the mixer design and the cleaning system as a whole. This version of the system works similarly to the above description, while the regulators 5 can be turned off or even dismantled.

Thus, when the proposed design of the mixer for the water purification system by coagulation according to the above description is working, the positive effect claimed by the authors is fully achieved. As calculations on simulation models show, the efficiency of mixture formation is increased by 30%, the precipitation time of the mixture and the remainder of the coagulant is noticeably reduced, and the supply of purified water to the consumer is increased.

Claims (4)

1. A mixer for a water purification system by coagulation, comprising an external drive mechanism and made in the form of a vertical tank, characterized in that a drive shaft with at least two blocks of blades connected to respective adjusters of their installation angles is additionally mounted parallel to its axis, which is connected to an external drive mechanism by means of a guide apparatus and a compensation sleeve. 2. The mixer according to claim 1, characterized in that its guide apparatus is made in the form of two rolling bearings mounted on a drive shaft, connected on the other hand through a rigid casing with a housing of vertical capacity. 3. The mixer according to claim 1, characterized in that in its vertical tank a series of drive shafts are installed in parallel, equipped with blocks of blades and connected through their guiding devices and expansion joints with corresponding external drive mechanisms. 4. The mixer according to claim 1, characterized in that the blocks of blades, starting from the second, with regulators of their installation angles are connected to the drive shaft by means of reverse devices for the directions of their rotation.