SOLID-LIQUID SEPARATOR

Abstract

A solid-liquid separator for separating a solid phase from a liquid phase in a solid-liquid mixture is provided. The solid-liquid separator includes a basket and filter assembly housed coaxially within a tank such that when the basket and filter assembly rotates the liquid phase moves through the filter of the basket and filter assembly into the tank and is discharged from the solid-liquid separator. The solid phase is retained on the filter of the basket and filter assembly and travels vertically up the filter of the basket and filter assembly where it is discharged from the solid-liquid separator.

Claims

1. A solid-liquid separator for separating a solid phase from a liquid phase in a solid-liquid mixture comprising: a leg and tank assembly comprising a tank; a basket and filter assembly housed coaxially with the tank, wherein the basket and filter assembly comprises a filter providing filtration of the solid-liquid mixture; a wiper assembly comprising wiper blades and an elongated cone that facilitate separation of the solid phase and liquid phase; and a spindle assembly for controlling separate rotation of the basket and filter assembly and the wiper assembly about an upright axis.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0020] The embodiments described herein and other features, advantages and disclosures contained herein, and the manner of attaining them, will become apparent and the present disclosure will be better understood by reference to the following description of various exemplary embodiments of the present disclosure taken in conjunction with the accompanying drawing, wherein:

[0021] FIG. 1 is a side perspective view of a solid-liquid separator in accordance with an embodiment.

[0022] FIG. 2 is a vertical cross-section of a solid-liquid separator in accordance with an embodiment.

[0023] FIG. 3 is a magnified view of a wiper assembly in accordance with an embodiment.

[0024] FIG. 4 is a top perspective of the tank cover in accordance with an embodiment.

[0025] FIG. 5 is a top perspective of the inside of the solid-liquid separator in accordance with an embodiment.

DETAILED DESCRIPTION OF THE DISCLOSED EMBODIMENTS

[0026] For the purposes of promoting an understanding of the principles of the present disclosure, reference will now be made to the embodiments illustrated in the drawings, and specific language will be used to describe the same. It will nevertheless be understood that no limitation of the scope of this disclosure is thereby intended.

[0027] With reference to FIGS. 1-3, the solid-liquid separator 10 of the invention comprises a leg and tank assembly 11, basket and filter assembly 16, spindle assembly 23, wiper assembly 24, contour tank 29, and tank cover assembly 32. The leg and tank assembly 11 comprises a tank 12 and legs 13, with the tank 12 being connected to and supported by the legs 13. In some embodiments, the legs 13 are not present. The tank 12 comprises a side wall 14 and bottom wall 15, which together form a collection vessel for the separated liquid phase. In the illustrated embodiment, the tank 12 is cylindrical; however, other embodiments may employ other shapes, such as conical or frustoconical, to name just two non-limiting examples.

[0028] The basket and filter assembly 16 is housed coaxially within the tank 12. The basket and filter assembly 16 comprises a filter 17 and bottom wall 18. The filter 17 permits filtration of the solid-liquid mixture through the filter. Filtration may be assisted by a membrane liner (not shown), which may be located on the interior of the filter 17 in an embodiment. The filter and membrane liner of the filter 17 allow most of the liquid phase to pass through but retain most of the solids inside the basket and filter assembly 16. It should be understood that various filtration means may alternatively or additionally be provided as part of the filter 17 to alter the degree of filtration in accordance with the application.

[0029] The arrangement of the basket and filter assembly 16 coaxially within the tank 12 creates a void space 19 between the filter 17 and bottom wall 18 of the basket and filter assembly 16 and the side wall 14 and bottom wall 15 of the tank 12. The void space 19 created between the tank 12 and the basket and filter assembly 16 is sealed at the top by covers 20. The covers 20 prevent accumulated solids at the top of the basket and filter assembly 16 from entering the void space 19, where separated liquid phase collects prior to exiting the solid-liquid separator 10. A primary liquid discharge outlet 21 and secondary discharge outlet 22 extend exterior to the side wall 14 and allow for discharge of the liquid phase from the void space 19.

[0030] The legs 13 may be further connected to the spindle assembly 23, which is centrally located on the exterior of the bottom wall 15 of the tank 12. The top portion of the spindle assembly 23 extends into the tank 12 through the bottom wall 15 and into the basket and filter assembly 16 through the bottom wall 18. The spindle assembly 23 comprises two nested shafts with one shaft controlling the rotation of the basket and filter assembly 16 and the other shaft separately controlling the rotation of the wiper assembly 24. The nested shafts of the spindle assembly 23 allow for the basket and filter assembly 16 and wiper assembly 24 to rotate at different speeds based on the percent solids content of the solid-liquid mixture. The basket and filter assembly 16 and wiper assembly 24 are driven into rotation about a vertical axis by the means of a motor 25 secured to the solid-liquid separator 10. The centrifugal force generated by the rotation of the basket and filter assembly 16 forces the solid-liquid mixture toward the filter 17. The liquid phase is forced through the membrane liner and filter of the filter 17 into the void space 19, where it is discharged through either primary liquid discharge outlet 21 or secondary discharge outlet 22.

[0031] The wiper assembly 24 comprises wiper blades 25, an elongated cone 26, and shaft 27. FIG. 5 shows the wiper blades 25 in accordance with an embodiment. The solid-liquid mixture enters the shaft 27 via the inlet 28 and travels vertically down the shaft 27 toward the bottom wall 18 of the basket and filter assembly 16. The solid-liquid mixture then exits the shaft 27 through a port located at the bottom of the shaft 27 below the elongated cone 26 and flows into the basket and filter assembly 16. When the wiper assembly 24 rotates, the elongated cone 26 directs the solid-liquid mixture exiting the port downward along the bottom wall 18 and toward the filter 17. The elongated cone 26 optimizes contact of the solid-liquid mixture with the filter 17 resulting in enhanced separation of the solid and liquid phases. The rotation of the wiper blades 25 relative to the rotation of the basket and filter assembly 16 facilitates the movement of solids vertically up the filter 17 to allow for discharge of the solid phase.

[0032] A contour tank 29 surrounds and merges with the upper end of the tank 12. After the solid phase travels vertically up the filter 17 by action of the wiper blades 25, the greater width of the contour tank 29 allows the solid phase to accumulate before discharging through the solid discharge outlet 30. The scrapers 31 located in the area enclosed by the contour tank 29 and attached to the top of the basket and filter assembly 16 direct solids toward the solid discharge outlet 30.

[0033] FIG. 1 shows an embodiment of a tank cover assembly 32 used to seal the solid-liquid separator 10. The tank cover assembly 32 comprises a tank cover 33, vent cover assembly 34, and adaptor cover 35. The adaptor cover 35 is located at the center of the tank cover assembly 32 and secures the tank cover assembly 32 to the shaft 27 of the wiper assembly 24. The inlet 28 is formed by the portion of the shaft 27 that extends above the adaptor cover 35. The tank cover 33 spans the entire open end of the solid-liquid separator and is secured by a clamp 36 to the contour tank 29. When the tank cover assembly 32 is assembled, the vent cover assembly 34 is positioned on top of a portion of the tank cover 33. The vent cover assembly 34 comprises a vent section 37 and solid section 38, which are equally sized and fastened together via hinges 39 to form an annulus in an embodiment.

[0034] FIG. 4 illustrates an embodiment of a tank cover 33 that allows for air infiltration and access into the solid-liquid separator 10 when the vent cover assembly 34 is disposed thereon. The vent section 37 of the vent cover assembly 34 includes air vents 40. The tank cover 33 comprises cutouts 41 and an opening 42. When the tank cover assembly 32 is assembled, the cutouts 41 can align with the air vents 40 of the vent section 37. In one embodiment, the vent cover assembly 34 can be rotated 180 degrees. During operation of the solid-liquid separator 10, the vent cover assembly 34 can be rotated so that the air vents 40 and cutouts 41 align for maximum air infiltration. The alignment can also be adjusted so that the air vents 40 are partially opened or in a closed position. The vent cover assembly 34 can also be aligned so that the solid section 38 can be opened via hinges 39 to allow access to the inside of the solid-liquid separator 10 through the opening 42 in the tank cover 33.

[0035] The embodiments described herein provide an efficient and cost effective method for separation of solid and liquid phases in a solid-liquid mixture. Additionally, the solid-liquid separator enables the operator to easily adjust the machine according to the solids content of the solid-liquid mixture. The embodiments described herein help reduce the amount of organic material in treatment lagoons, odors in storage and treatment facilities, solids build-up in primary lagoons, frequency of lagoon sludge removal, and potential surface water and groundwater pollution. Furthermore, the embodiments described herein provide a method for producing a solid phase capable of being used for bedding materials, animal feed supplements, composts, and soil amendments.

[0036] While the embodiments have been illustrated and described in detail in the drawings and foregoing description, the same is to be considered as illustrative and not restrictive in character, it being understood that only certain embodiments have been shown and described and that all changes and modifications that come within the spirit of the embodiments are desired to be protected.