RU2213059C1 - Device for purification of potable water - Google Patents

Abstract

FIELD: purification of potable water; treatment of natural water. SUBSTANCE: proposed device has housing with hydraulic cyclone fitted with supply branch and located in lower part of housing; filter element made in form of glass disk having through hole is located in cylindrical part of housing; said holes are made at acute angle relative to horizontal plane and are located over circumference at shift in staggered order; disk is provided with screen made from electroheating material which is mounted above disk; disk is located between two elastic rings and flexible spring; besides that, hydraulic cyclone is provided with circular pipe line mounted at level of supply branch pipe ; this pipe line is connected with supply branch pipe; tangential holes are made in side part of pipe line and in wall of hydraulic cyclone. Device may be provided with additional filter made from active coal to ion-exchange resin for fine purification of water This filter is arranged in upper part of housing. EFFECT: enhanced efficiency of purification; facilitated procedure. 5 cl, 4 dwg

Description

 The invention relates to a device for the separation of heterogeneous liquid media under the action of centrifugal forces and can be used to purify drinking water and natural water treatment processes.

 Known structural schemes of hydrocyclones [1], where the dimensions of the diameters, the height of the cylindrical part, the shape and dimensions of the inlet and outlet openings, the angle of the conical part are justified. However, the phase separation process in these hydrocyclones does not allow for fine purification of drinking water.

 Known hydrocyclone [2], containing a cylindrical conical housing with perforation in the lower part of the cone, an inlet and outlet pipe of trapped solid particles, a cylindrical conical housing, in the upper part of which there is an outlet pipe of purified liquid and guiding visors, and slotted holes are formed along the generatrix of the upper cone of the cylindrical body holes to which the guide visors are adjacent, facing the direction of movement of the fluid flow. This solution contributes to a more efficient separation of finely divided solid particles with sizes less than 50 microns due to repeated recirculation of the liquid being cleaned inside the hydrocyclone, and this lengthens the cleaning process, in addition, this device is structurally complex and is intended for use in the gas, oil industry.

 A device for cleaning liquid [3] is known, comprising a housing with a cover, a hydrocyclone located in the lower part, and a filter element located in the upper part, a central pipe, an annular dividing partition installed in the middle part of the housing, inlet and outlet pipes, the filter element is made cylindrical, muffled from above and located coaxially outside the upper part of the central pipe, the dividing wall is made flat and having a conical recess and through holes around the central pipe and the walls of the latter at the location of the filter element is provided with holes for the passage of cleaning fluid.

 In addition, the filter element is muffled from above by means of a flange and a clamping bolt, and the total area of the holes in the dividing wall is made up of less than one quarter of the cross-sectional area of the central pipe.

 This device, designed for cleaning fuel oil, has the simplicity, rationality and cost-effectiveness of the nodes, in addition, it allows you to extract filtered solids without stopping the process. The implementation of filter gaps between the flat rings does not allow cleaning the liquid from the finely dispersed phase without reducing their size, which affects the cleaning performance, in addition, the gaps can become clogged by foreign particles.

 The objective of the invention is to increase the efficiency of purification of drinking water from the finely divided phase with a simple process technology.

 This object is achieved in that in a device for purifying drinking water containing a closed housing, in the lower part of which there is a hydrocyclone, and in the cylindrical part - a replaceable filter element, inlet and outlet pipes, the filter element is made in the form of a glass disk with through holes and is located under the protective net between two elastic rings, with the lower ring installed at the base of the cylindrical part of the housing, and the upper one pressed against the glass disk by an elastic spring. In this case, the holes in the glass disk are made at an acute angle to the horizontal plane and are arranged in circles staggered in a checkerboard pattern, the diameter of the holes being selected depending on the admissible impurity sizes, and the total area of the holes and the thickness of the glass disk are determined in accordance with a given performance and acceptable the tensile strength of the disk in relation to the static pressure of water on it. The protective mesh is made of electric heating material and fixed in the frame, and the hydrocyclone is equipped with an annular pipe installed at the level of the inlet pipe, through which tangential holes are made in the lateral part and the conical part of the hydrocyclone. The upper part of the body is made in the form of a cone filled with activated carbon or ion-exchange resin, ending with an upper outlet pipe.

 In FIG. 1 is a longitudinal section through a water purification device; in FIG. 2 - a filter element in the form of a glass disk with the location of the holes at an angle; figure 3 is a section along aa in figure 2; figure 4 - section bb in figure 1.

 A device for drinking water purification consists of a housing 1 with a conical upper part, in the lower part of which a hydrocyclone 2 is located. The cylindrical part of the housing 1 consists of two parts interconnected by a sleeve 3. The filter element 4 is made in the form of a glass disk with through holes. Above the disk 4 is a protective mesh 5, mounted in a frame (not shown in the drawing) and made of electric heating material. A disk 4 with a mesh 5 is installed in the cylindrical part of the housing 1 between two elastic rings 6, the lower ring being installed at the base of the cylindrical part, and the upper one pressed against the glass disk 4 by an elastic spring 7. The hydrocyclone 2 is equipped with a supply pipe 8 and a discharge pipe 9, and the upper part of the housing 1 by the discharge pipe 10. On the hydrocyclone 2 at the level of the supply pipe 8, an annular pipe 11 with an annular cavity 12 with through tangential openings 13 in its lateral part and conical oh part of the hydrocyclone (figure 4). In the upper part of the housing 1 can be installed an additional filter 14 made of activated carbon or ion-exchange resin, depending on the quality of the source water. Coal - to remove organic impurities and salts of heavy metals, and resin - excess salts of hardness and iron. The holes 15 made in the glass disk 4 are arranged in concentric circles in a checkerboard pattern. The holes 15 can be made at an acute angle to the horizontal plane, which is equal to the angle of inclination of the generatrix of the conical part of the hydrocyclone 2.

 The device operates as follows. In the inlet pipe 8 enters water with foreign particles. Under the action of the tangentially located holes 13 in the annular pipe 11, the water is twisted and due to centrifugal forces the particles are discarded to the walls of the hydrocyclone 2 and move along the conical surface to the lower outlet pipe 10. Fine particles that do not reach the wall of the hydrocyclone 2 are entrained by the flow to the filter element in the form glass disk 4. Purified water from particles through holes in the disk 4 comes due to the pressure difference in the cavities in the upper part of the housing 1 and through an additional filter 14 in the upper outlet pipe 9. The pressure difference is regulated by changing the size of the holes of the lower outlet pipe 10. The existing fiberglass technology [4] in the Scientific-Production Enterprise "Technology, Equipment, Glass Structures" allows you to get filter discs with holes with a diameter of 0.2 ... 10 microns and more than 0.5 mm thick, which are corrosion-resistant, do not give extraneous smacks and odors. Fiberglass disk has very low adhesion to metals and biological impurities. In addition, it is possible to regenerate the filter 4 from adhering organic compounds and microorganisms by heating it from the grid 5 of electric heating material. Mesh 5 when the destruction of the disk 4 prevents the ingress of glass particles into the purified liquid. Elastic rings 6 protect the glass disk 4 from impacts.

 The proposed device creates a translational-rotational movement of the water flow in the hydrocyclone 2 between the pipe 11, the disk 4 and the grid 5. The properties of the rotating flows are described by the Navier-Stokes equations in the form of Lamb-Gromeka, which allow us to obtain the distribution of velocities and pressures over the flow cross section. When moving water upward along the inclined holes of the disk 4, additional streamwise vortex thin flows are created. As a result of the action of additional tangential velocities and centripetal accelerations, finely dispersed particles are discarded to the wall of the holes and slide down due to the slippery glass surface. Different diameters of the holes in the radial direction of the disk 4 are made to increase the strength of the disk and correct the change in inertia forces from the radius.

 Hydrocyclone productivity is determined by the formula [1].

где Q - объемная производительность, м³/ч,
D_r - диаметр гидроциклона в м,
D_В - диаметр верхнего отводного отверстия в м,
Н - давление на входе в мм вод. ст.,
g - ускорение силы тяжести в м/с²,
k - коэффициент пропорциональности (0,06...0,04).

where Q is the volumetric productivity, m ³ / h,
D _r is the diameter of the hydrocyclone in m,
D _{In the} diameter of the upper outlet in m,
N is the inlet pressure in mm of water. Art.,
g is the acceleration of gravity in m / s ² ,
k is the coefficient of proportionality (0.06 ... 0.04).

где

- число отверстий,
D_d, d - диаметр диска и отверстий; h - толщина диска; p₁-p₂ - разность давлений; к₃ - коэффициент заполнения; η - динамическая вязкость.On the other hand, the performance of the filter element in the form of a disk with holes can be estimated by the Poiseuille formula

Where

- number of holes
D _d , d is the diameter of the disk and holes; h is the thickness of the disk; p ₁ -p ₂ is the pressure difference; to ₃ - fill factor; η is the dynamic viscosity.

 The highest stress of a uniformly loaded round plate is determined as follows [5].

где q - распределенная интенсивная нагрузка,
[σ] - допускаемое напряжение прочности.

where q is the distributed intense load,
[σ] is the allowable tensile strength.

 The hole angle α is chosen equal to the angle of the conical part of the hydrocyclones [1]. The values of the total area of the holes and the thickness of the disk are determined from the conditions of equality of expressions (1), (2) and relation (3). Thanks to the combination of hydrocyclone, filter glass disk 4 and filter 14, water achieves a high degree of purification. By adjusting the ratio of costs through the nozzles due to their diameters, the thickness of the disk and the diameter of the holes in it and the water pressure, it is possible to achieve a given performance with the required degree of cleaning from fine particles with any density.

Sources of information
1. Shestov R.N. Hydrocyclones. L .: Publishing house "Engineering", 1967 - S.80.

 2. A. p. SU 997823, MKI B 04 C 5/107, BI 7, 1983 / Salashnik M.M., Kapitonov R.V. "Hydrocyclone".

 3. Pat. RU 2061525, B 01 D 29/44, 36/00, BI 16, 1996 / Karpenko V.M. et al. "Liquid purification device" - prototype.

 4. RF patent 20885523, С 03 В 37/022 "Method for the manufacture of microdevices from plastically deformable materials" / Beloglazov VI, Sukhoveev SP, BI 21, 1997.

 5. Timoshenko S.V. Strength of materials. T.2, M., Fizmat - 1965, p. 86.

Claims (5)

 1. A device for cleaning drinking water, comprising a closed housing, in the lower part of which is a hydrocyclone, and in the cylindrical part - a replaceable filter element, inlet and outlet pipes, characterized in that the filter element is made in the form of a glass disk with through holes and is located under a protective net between two elastic rings, while the lower ring is installed at the base of the cylindrical part of the housing, and the upper one is pressed against the glass disk by an elastic spring.  2. The device according to claim 1, characterized in that the holes in the glass disk are made at an acute angle to the horizontal plane and are arranged in circles with a staggered offset, the diameter of the holes being selected depending on the admissible sizes of the impurities, and the total area of the holes and the thickness of the glass disk is determined in accordance with a given performance and an acceptable tensile strength of the disk in relation to the static pressure of water on it.  3. The device according to claim 1, characterized in that the protective mesh is made of electric heating material and is fixed in the frame.  4. The device according to claim 1, characterized in that the hydrocyclone is equipped with an annular pipe installed at the level of the inlet pipe, through which tangential holes are made in the side of which and the conical part of the hydrocyclone.  5. The device according to p. 1, characterized in that the upper part of the housing is made in the form of a cone filled with activated carbon or ion-exchange resin, ending with an upper outlet pipe.

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