• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    This specification relates to systems, devices, apparatus and / or methods relating to grinding of particles in drilling fluid. Specifically, the systems, devices, apparatus and / or methods described relate to grinding of particles in drilling fluid using a variety of grinding techniques. Some exemplary apparatus may include a first mill for grinding particles from the original diameter to a first reduced diameter and a second mill for grinding the particles from the first reduced diameter to a second reduced diameter, the second reduced diameter being less than the first reduced diameter.
    公开号:DK201500117U1
    申请号:DK201500117U
    申请日:2015-08-24
    公开日:2015-09-11
    发明作者:Barthelmess Thomas Philip;Fernandez-Caro Sergio Alegre
    申请人:Mi Llc;Ecutec Barcelona S L;
    IPC主号:
    专利说明:

    MILLING OF PARTICLES IN BACKGROUND BACKGROUND
    [1] In oilfield environments, particles (such as drilling waste) from drilling fluid must be treated to reduce in size so that they can be pumped into hydraulically induced cracks. Traditionally, the size of the particles as they emerge from the drilling process is in a range of 0-30 mm. The size should be reduced to a size below 300 microns, which is a size reduction ratio of 1: 100. Such a reduction is typically done with degradation centrifugal pumps or roller and hammer mills having either one or two shafts.
    [2] Traditional hammer mills can grind particles down to a certain particle size, but then become ineffective the finer the particles. This leads to a build-up of particles in the grinding circuit, leading to high wear on the grinding tools, high energy consumption and equipment failure.
    BRIEF DESCRIPTION OF THE DRAWINGS
    [3] The above and other features of the present patent specification will become more apparent from the following description and appended claims in conjunction with the accompanying drawings. The patent specification will be described with further specificity and details using the accompanying drawings, it being understood that these drawings show several embodiments in accordance with the patent specification and therefore should not be considered as limiting its scope.
    [4] In the drawings: FIG. 1 is a perspective view of an exemplary grinding system; FIG. 2 is another perspective view of the example grinding system of FIG. 1; FIG. 3, the example grinding system of FIG. 1 rear view; FIG. 4 The example grinding system of FIG. 1 front view; FIG. 5 the example grinding system of FIG. 1 side view; FIG. 6 is a perspective view of an exemplary hammer mill in an exemplary grinding system; FIG. 7 is a second perspective view of the example hammer mill of the example grinding system of FIG. 6; FIG. 8 is a perspective view of an example bead mill in an example grinding system; FIG. 9 is a perspective view of another example bead mill in an example grinding system; FIG. 10 is a perspective view of another example grinding system; and FIG. 11 shows an example of a method for grinding particles in a drilling fluid, each arranged in accordance with at least one embodiment of the present disclosure.
    DETAILED DESCRIPTION
    [5] The following detailed description refers to the accompanying drawings, which form part thereof. In the drawings, the same symbols show the same components, unless the context provides otherwise. The illustrative embodiments described in the detailed description and drawings are not intended to be limiting but have explanatory purposes. Other embodiments may be used and other modifications may be made without departing from the spirit or scope of the present content described herein. It will be immediately understood that the aspects of the present patent specification described generally herein and illustrated in the drawings may be arranged, replaced, combined and designed in many different configurations, each of which is explicitly included and made part of this patent specification.
    [6] This description applies to systems, devices, apparatus and / or methods associated with grinding of particles in drilling fluid. Specifically, the systems, devices, apparatus and / or methods described relate to grinding of particles in drilling fluid using a variety of grinding techniques.
    [7] FIG. 1 shows an example system 100 which can be used for grinding particles in a drilling fluid according to at least one embodiment of the present description. Example system 100 may include a first mill 120 adapted to grind the particles to reduce their diameter. Example system 100 may also include a second mill 140 for milling the particles to further reduce their diameter.
    [8] Example system 100 can receive drilling fluid which includes particles from an inlet 110. Inlet 110 can direct the drilling fluid which includes particles into first mill 120. A first motor 125 may be coupled to first mill 120 so that first motor 125 drives first mill 120. When first motor 125 causes first mill 120 to run, first mill 120 can grind the particles. When first mill 120 grinds the particles, the diameter of the particles is reduced and at least some of the particles can be transferred to second mill 140. When the diameter of the particles in first mill 120 is smaller than holes in membrane 130, the particles can pass out of first mill 120 to second mill 140 via membrane 130.
    [9] Second motor 145 may be coupled to second mill 140, such that second motor 145 drives second mill 140. When second motor 145 causes second mill 140 to run, second mill 140 may form formal particles. As second mill 140 grinds the particles, the diameter of the particles is further reduced and at least some of the particles can be transferred to an outlet 140 through an outlet membrane. When the diameter of the particles in second mill 140 is smaller than holes in the outlet membrane, the particles can pass out of the mill mill 140 to outlet 150.
    [10] The operation of example system 100 can be controlled by an operator by means of a control panel. Some example control panels may receive inputs to control the running of the first mill and / or the second mill. Furthermore, some example control panels may include failure states and / or monitoring functions to inform an operator of system statuses.
    [11] In some examples, first mill 120 may be a hammer mill and second mill 140 may be a pearl mill. In some examples, the hammer mill may be horizontally oriented. In some examples, the bead mill may be horizontally oriented.
    In some examples, first motor 125 and second motor 145 may be any type of motor, including a motor with direct drive or a motor with gear drive.
    [12] FIG. 2 shows another perspective of example system 100. For illustrative reasons, membrane 130 is shown as removed from the apparatus of example system 100.
    [13] FIG. 3 is a rear view of example system 100. First mill 120 may include a hinged portion which allows an operator to open the top of first mill 120. This hinged portion may include a hinge 122 coupled to a rear portion of first mill 120.
    [14] FIG. 4 is a front view of example system 100. Second mill 140 may include a hinged portion which allows an operator to open the front of second mill 140. This hinged portion may include a hinge 142 coupled to a lower portion of second mill 140.
    [15] FIG. 5 is a side view of example system 100. First mill 120 may include an access gate 121 portion which allows an operator to open the side of first mill 120. Access gate 121 may include a hinge 124 coupled to a portion of first mill 120. Further, in FIG. . 5 shows that second motor 145 can drive a shaft 146 used to drive second mill 140.
    [16] FIG. 6 shows part of an example system 600 which can be used for grinding particles in a drilling fluid, according to at least one embodiment of the present disclosure. Specifically, FIG. 6 is primarily an example hammer mill 620 adapted to grind particles to reduce their diameter. Example system 600 may also include a bead mill 640 for milling the particles to further reduce their diameter.
    [17] Hammer mill 620 may include an access gate 621 portion which allows an operator to open the side of hammer mill 620. Access gate 621 may include a hinge 624 coupled to a portion of hammer mill 620. FIG. 6 shows access door 621 in an open position.
    [18] Hammer mill 620 may include a hinged portion which allows an operator to open the top of hammer mill 620. This hinged portion may include a hinge coupled to a rear portion of hammer mill 620. FIG. 6 shows the hinged portion in an open position.
    [19] Hammer mill 620 can be a rotary mill that grinds particles using impact / force. Hammer mill 620 may be coupled to a motor 625, so that motor 625 causes hammer mill 620 to run. Specifically, motor 625 may be coupled to and rotated a shaft 626 in hammer mill 620. Impact tool (s) 627 may be removably coupled to shaft 626. FIG. 6 shows several impact tools 627 configured in a staggered or staged configuration. Other configurations can also be used. In some examples, each impact tool 627 may be independently coupled to shaft 626 and may be separately detachable and / or interchangeable.
    [20] In some examples, each impact tool 627 may include a rotor 628. In some examples, a tool head 629 may be removably coupled to each rotor 628. Tool head 629 may be independently coupled to rotor 628 and may be separately detachable and / or interchangeable. In some examples, rotor 628 may include multiple arms extending away from a shaft 626. In some examples, a tool head 629 may be removably coupled to the end of each arm.
    [21] In some examples, impact tools 627 and / or tool heads 629 may be of tungsten carbide or other suitable material.
    [22] In some examples, hammer mill 620 may include liner (s) 623 coupled to the interior of hammer mill 620. In some examples, liner (s) 623 may be removable from multiple hammer mill 620 or as a single component.
    [23] Example system 600 can receive drilling fluid including particles from an inlet 610. Inlet 610 can guide the drilling fluid which includes particles into hammer mill 620. Engine 625 causes hammer mill 620 to run for grinding the particles. When hammer mill 620 grinds the particles, the diameter of the particles is reduced and at least some of the particles can be transferred to bead mill 640. When the diameter of the particles in hammer mill 620 is smaller than holes in membrane 630, the particles can pass out of hammer mill 620 to bead mill 640 through membrane 630.
    [24] FIG. 7 shows another view of Example System 600. Specifically, FIG. 7 again primarily hammer mill 620. Access door 621 is in the open position and the hinged portion is in a closed position. Similarly as in FIG. 6, hammer mill 620 is lined with liner (s) 623 and includes shaft 626 coupled to impact tool (s) 627.
    Impact tools 627 include rotor (s) 628, each coupled to tool head (s) 629.
    [25] FIG. 7 also shows membrane 630. Membrane 630 may include holes which allow particles to pass through to bead mill 640, provided that the particles have a diameter smaller than the holes. Diaphragm 630 can be removable and interchangeable, and different diaphragms may have holes of different sizes. In some examples, membrane 630 can be cleaned using a membrane cleaning system in the first mill. Some example membrane cleaning systems may spray the membrane with a cleaning fluid (eg water, cleaning solution).
    [26] FIG. 8 shows part of an example system 800 which can be used for grinding particles in a drilling fluid, according to at least one embodiment of the present disclosure. Specifically, FIG. 8 is primarily an exemplary bead mill 840 adapted to grind particles to further reduce their diameter.
    [27] Bead mill 840 may include an access door 841 portion which allows an operator to open the side of bead mill 840. Access door 841 may include a hinge 824 coupled to a portion of bead mill 840. FIG. 8 shows access door 821 in an open position.
    [28] Bead mill 840 may include a hinged portion 843 which allows an operator to open the front of bead mill 840. Hinge portion 843 may include a hinge 842 coupled to a lower portion of bead mill 840. FIG. 6 shows the hinged part 843 in an open position.
    [29] Bead mill 840 can be a rotary mill that grinds particles primarily using friction. Bead mill 840 may be coupled to a motor 845, so that motor 845 causes bead mill 840 to run. Specifically, motor 845 may be coupled to and rotated a shaft 846 in bead mill 840. Rotary tool (s) 847 may be removably coupled to shaft 846. FIG. 8 shows several rotary tools 847 configured in series. Other configurations can also be used. In some examples, each rotary tool 847 may be independently coupled to shaft 846 and be separately removable and / or replaceable.
    [30] In some examples, bead mill 840 may include liner (s) coupled to the interior of bead mill 840. In some examples, liner (s) may be removable from bead mill 840 in several pieces or as a single component.
    [31] Bead mill 840 can receive the drilling fluid, which includes particles, from the hammer mill through membrane 830. Engine 845 causes bead mill 840 to run for milling the particles. As bead mill 840 rotates, the particles may come into contact with grinding bodies, rotary tool (s) and / or lining (s). Such contact causes grinding of the particles and the diameter of the particles is reduced (even more so than in the hammer mill). In some examples, grinding bodies may include ceramic grinding bodies or other suitable grinding material. At least some of the particles can be transferred through the outlet membrane to outlet 850. When the diameter of the particles in bead mill 840 is smaller than holes in the outlet membrane, the particles can pass from bead mill 840 to outlet 850 through the outlet membrane.
    [32] FIG. 9 is a perspective view of another example bead mill in an example grinding system according to at least one embodiment of the present disclosure. FIG. 9 includes, among other items, a bead mill 940 with an open access door 941. Access door 941 may include a hinge 924 coupled to a portion of bead mill 940. An example outlet membrane 948 may be removably or permanently coupled to access door 941. A liner 949 may be removably or permanently coupled to an inner surface of bead mill 940.
    [33] FIG. 10 is a perspective view of another exemplary grinding system according to at least one embodiment of the present disclosure. FIG. 10 includes, among other items, a bead mill 1040 with an open access gate 1041 and an outlet membrane 1048. Running example system 1000 may be controlled by an operator by a control panel 1090. Control panel 1090 may receive inputs for controlling the operation of the hammer mill and / or bead mill 1040. Furthermore, control panel 1090 may display error states and / or monitoring functions for information to an operator about the status of the hammer mill and / or bead mill 1040.
    [34] FIG. 11 is a flow chart showing an example of a method 1100 for milling particles in a drilling fluid according to at least one embodiment of the present disclosure. The example of a method 1100 may include impact grinding 1110 of particles in a first chamber such that a diameter of each of the number of particles is reduced. The example of a method 1100 may further include friction milling 1120 of the particles in a second chamber so that the diameter of each of the number of particles is further reduced.
    [35] In some examples, the example of a method 1100 may also include, prior to friction milling, the transfer of only the particles of reduced diameter from the first chamber to the second chamber. In some examples, the example of a method 1100 may also, after friction milling, include transferring only the particles of a further reduced diameter from the second chamber to an outlet. In some examples, transfer of particles from a first mill to a second mill may occur on the basis of fluid pressure of the drilling fluid in the first mill.
    [36] Although various aspects and embodiments have been described herein, other aspects and embodiments will be apparent to those skilled in the art. The various aspects and embodiments described herein are for illustrative purposes only and are not intended to be limiting, the actual scope and spirit being apparent from the following claims.
    权利要求:
    Claims (20)
    [1]
    An apparatus for grinding particles of an original diameter, comprising: a first mill adapted to grind particles from the original diameter to a first reduced diameter; and a second mill adapted to receive the particles from the first mill and further adapted to grind the particles from the first reduced diameter to a second reduced diameter, the second reduced diameter being smaller than the first reduced diameter.
    [2]
    The apparatus of claim 1, wherein the first mill comprises a hammer mill; and wherein the second mill comprises a pearl mill.
    [3]
    An apparatus according to claim 1, further comprising: a first motor coupled to the first mill, said first motor adapted to drive the first mill; and another motor coupled to said second mill, said second motor adapted to drive said second mill.
    [4]
    The apparatus of claim 3, wherein the first motor is a direct drive motor; and wherein the second motor is a gear drive motor.
    [5]
    The apparatus of claim 1, wherein the first mill comprises: a first cylindrical chamber for receiving the particles of the original diameter; a first liner removably coupled to an inner surface of the first cylindrical chamber; and a plurality of percussion tools, each of the percussion tools being independently detachably coupled to a shaft of the first cylindrical chamber.
    [6]
    The apparatus of claim 5, wherein each of the plurality of impact tools comprises: a rotor; and at least one tool head detachably coupled to the rotor.
    [7]
    The apparatus of claim 1, further comprising: a membrane located between the first mill and the second mill, said membrane having a plurality of holes configured to allow the particles of the first reduced diameter to move from the first mill to the second mill.
    [8]
    An apparatus according to claim 7, further comprising: a membrane cleaning system located in the first mill, said membrane cleaning system adapted to spray the membrane with a cleaning liquid.
    [9]
    The apparatus of claim 7, wherein the diaphragm is removable.
    [10]
    The apparatus of claim 1, wherein the second mill comprises: a second cylindrical chamber for receiving the first reduced diameter particles from the first mill; a second liner removably coupled to an inner surface of the second cylindrical chamber; a plurality of rotation tools, each of said rotation tools being independently removably coupled to a shaft of said second cylindrical chamber; and a plurality of grinding bodies arranged to move freely in the second cylindrical chamber.
    [11]
    The apparatus of claim 10, further comprising: an outlet membrane adapted to allow particles of the second reduced diameter to leave the second mill and at the same time prevent the number of grinding bodies from exiting the second mill.
    [12]
    Apparatus according to claim 1, further comprising: a control panel adapted to receive inputs for controlling the operation of at least one of the first mill and the second mill.
    [13]
    An apparatus for grinding particles, each of said respective particles having an original diameter, comprising: a first mill portion adapted to receive the particles; a first liner removably coupled to an inner surface of the first mill portion; a plurality of impact tools coupled to a shaft in the first mill portion, each of the impact tools being independently detachably coupled to the shaft of the first mill portion, the number of impact tools adapted to collide with the particles and reduce the diameter of the particles from the original diameter for a first reduced diameter; a second mill part adapted to receive the first reduced diameter particles from the first mill part; a second liner removably coupled to an inner surface of the second mill portion; a plurality of milling bodies arranged to move freely in the second mill portion; and a plurality of rotary tools coupled to a shaft of the second mill portion, each of said rotary tools being independently detachably coupled to the shaft of the second mill portion, said plurality of rotary tools adapted to mix the number of grinding bodies and said first reduced diameter particles and reducing the diameter of the first reduced diameter particles from the first reduced diameter to a second reduced diameter.
    [14]
    Apparatus according to claim 13, further comprising: a membrane located between the first mill part and the second mill part, said membrane having a plurality of holes configured to allow the particles of the first reduced diameter to move from the first mill part to the second mill part.
    [15]
    The apparatus of claim 13, wherein each of the plurality of impact tools comprises: a rotor; and a plurality of tungsten carbide tool heads, each respective tungsten carbide tool head being detachably coupled to the rotor.
    [16]
    The apparatus of claim 13, wherein the first mill portion comprises a first hinged gate adapted to provide access to an interior of the first mill portion; and wherein said second mill portion comprises a second hinged door adapted to provide access to an interior of said second mill portion.
    [17]
    Apparatus according to claim 13, wherein the number of grinding bodies comprises ceramic grinding bodies.
    [18]
    Use of apparatus according to any one of the preceding claims for grinding a number of particles in a drilling fluid, comprising: impact grinding the particles in a first chamber so that the diameter of each of the number of particles is reduced; and friction milling the particles in a second chamber so that the diameter of each of the number of particles is further reduced.
    [19]
    Use according to claim 18, further comprising: prior to friction milling the particles in the second chamber, transferring only the number of particles of reduced diameter from the first chamber to the second chamber.
    [20]
    Use according to claim 18, further comprising: after friction milling the particles in the second chamber, transferring only the number of particles with a further reduced diameter from the second chamber to an outlet.
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    同族专利:
    公开号 | 公开日
    DK201500117Y3|2015-10-09|
    RU165081U1|2016-10-10|
    US9358548B2|2016-06-07|
    US20140209717A1|2014-07-31|
    DE212014000027U1|2015-10-07|
    CA2899409A1|2014-07-31|
    WO2014116620A1|2014-07-31|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
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    US13/752,209|US9358548B2|2013-01-28|2013-01-28|Milling particles in drilling fluid|
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