System and process for mud solid control

Abstract

A system for mud solid control includes a translational elliptical multilayer ultra-wide screen shaker, a degasser, a solid-liquid separator, a large capacity centrifugal machine and a collector for solid shales. The solid-liquid separator includes a base which is provided with a feed tank and vibrating supports. A vibrating tank is fixed to the vibrating supports, and screen drums, vibration motors and an anti-vibration driving motor are assembled on the vibrating tank. The anti-vibration driving motor is connected to the screen drums. Each of the screen drums includes an inner drum, an intermediate drum and an outer drum. The system and a corresponding process thereof can greatly simply and improve the process for mud solid control and relevant devices, improve usage effect, reduce cost, save electrical power, reduce occupied area and simply maintenance and management of devices involved.

Claims

1. A system for mud solid control, comprising: a translational elliptical multilayer screen shaker; a degasser; a solid-liquid separator; a centrifugal machine; and a collector for solid shales; wherein the solid-liquid separator comprises a base which is provided with a feed tank and vibrating supports, a vibrating tank on which screen drums, vibration motors and an anti-vibration driving motor are assembled is fixed to the vibrating supports, the anti-vibration driving motor is connected to the screen drums, and each of the screen drums comprises an inner drum having a 140 mesh screen, an intermediate drum having a 170 mesh screen, and an outer drum having a 200 mesh screen, wherein the screen drums rotate and vibrate to achieve solid-liquid separation of mud entering the screen drums, with liquids of the mud moving through the mesh screen of the inner drum, then the intermediate drum, and then the outer drum successively, with solids of the mud transported by vibration out of the screen drums.

2. The system for mud solid control of claim 1, wherein the translational elliptical multilayer screen shaker is provided with an 80 mesh screen, a 110 mesh screen, and a 140 mesh screen.

3. A process for mud solid control, comprising: (a) removing solid particles from a drilling mud with shales returned to the ground from downhole; (b) after the solid particles are removed, screening through screen meshes, which includes separating the drilling mud by a translational elliptical multilayer shaker equipped with an 80 mesh screen, a 110 mesh screen, and a 140 mesh screen, successively; (c) separating solids and liquids, which includes separating the drilling mud which has been screened via a solid-liquid separator to achieve separation of solid shales by vibration and rotation of a 140 mesh screen inner drum, a 170 mesh screen intermediate drum, and a 200 mesh screen outer drum thereof successively, and collecting the separated solid shales via a collector, with the drums mounted on a vibrating tank which is fixed to vibrating supports, wherein liquids of the drilling mud move through the mesh screen of the inner drum, then the intermediate drum, and then the outer drum successively, with solids of the mud transported by vibration out of the drums; (d) feeding the drilling mud after separation into a degasser to remove gas; and (e) after the gas is removed, centrifuging the drilling mud by placing the drilling mud into a centrifugal machine.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Various additional features and advantages of the invention will become more apparent to those of ordinary skill in the art upon review of the following detailed description of one or more illustrative embodiments taken in conjunction with the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate one or more embodiments of the invention and, together with the general description given above and the detailed description given below, explain the one or more embodiments of the invention:

(2) FIG. 1 is a schematic view of a new system for mud solid control according to the invention;

(3) FIG. 2 is a schematic view of a solid-liquid separator according to the invention; and

(4) FIG. 3 is a schematic view of a screen drum according to the invention.

DETAILED DESCRIPTION

(5) The invention will be further described below in detail with reference to the accompanying drawings.

(6) As shown in FIGS. 1 through 3, a new system for mud solid control of the invention includes a translational elliptical multilayer ultra-wide screen shaker 1, a solid-liquid separator 2, a degasser 3, a large capacity centrifugal machine 4 and a collector 5 for solid shales. The translational elliptical multilayer ultra-wide screen shaker 1 is provided with an 80 mesh screen, a 110 mesh screen and a 140 mesh screen. The solid-liquid separator includes a base 21 which is provided with a feed tank 22 and vibrating supports 23. The vibrating tank 24 is fixed to the vibrating supports 23. Screen drums 25, vibration motors 26 and an anti-vibration driving motor 27 are assembled on the vibrating tank. The anti-vibration driving motor 27 is connected to the screen drums 25. Each of the screen drums 25 includes an inner drum 251, an intermediate drum 252 and an outer drum 253, with the numbers of meshes being 140, 170 and 200, respectively.

(7) When the system operates, each screen drum 25 rotates around its own central axis. Simultaneously, it produces a translational elliptical vibration in longitudinal symmetry planes along with the vibrating tank to achieve mud solid-liquid separation by vibrating and rotating.

(8) A new process for mud solid control according to the invention includes steps of: (a) removing over-sized solid particles: removing over-sized solid particles manually from a drilling mud with shales returned to the ground from downhole; (b) screening through screen meshes: after the over-sized particles are removed, the mud is separated by a translational elliptical multilayer ultra-wide shaker equipped with an 80 mesh screen, a 110 mesh screen and a 140 mesh screen successively; (c) separating solids and liquids: separating the mud which has been screened via a solid-liquid separator to achieve separation of solid shales by vibration and rotation of a 140 mesh screen drum, a 170 mesh screen drum and a 200 mesh screen drum thereof successively, and collecting the separated solid shales via a collector; (d) removing gas: feeding the mud after separation into a degasser to remove gas; and (e) centrifuging the mud: after the gas is removed, the mud enters into a large capacity centrifugal machine to complete the mud solid control.

(9) The forgoing is merely a description of one or more preferred embodiments of the present invention and not intended to limit the patent scope of the present invention, and any equivalent structures or equivalent flow variations made by using the description and accompanying drawings of the present invention, no matter whether it is directly or indirectly used in any other related technical field, should be included within the protection scope of the present invention.