EP1458953A1 - Mineralabbauvorrichtung und -verfahren - Google Patents

Mineralabbauvorrichtung und -verfahren

Info

Publication number
EP1458953A1
EP1458953A1 EP02788228A EP02788228A EP1458953A1 EP 1458953 A1 EP1458953 A1 EP 1458953A1 EP 02788228 A EP02788228 A EP 02788228A EP 02788228 A EP02788228 A EP 02788228A EP 1458953 A1 EP1458953 A1 EP 1458953A1
Authority
EP
European Patent Office
Prior art keywords
pipe
mineral
assembly
pipes
fluid
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP02788228A
Other languages
English (en)
French (fr)
Other versions
EP1458953B1 (de
Inventor
Alan MMD Design & Consultancy Limited POTTS
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
MMD Design and Consultancy Ltd
Original Assignee
MMD Design and Consultancy Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by MMD Design and Consultancy Ltd filed Critical MMD Design and Consultancy Ltd
Publication of EP1458953A1 publication Critical patent/EP1458953A1/de
Application granted granted Critical
Publication of EP1458953B1 publication Critical patent/EP1458953B1/de
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21CMINING OR QUARRYING
    • E21C41/00Methods of underground or surface mining; Layouts therefor
    • E21C41/26Methods of surface mining; Layouts therefor
    • E21C41/31Methods of surface mining; Layouts therefor for oil-bearing deposits

Definitions

  • the present invention relates to apparatus and process for mining of minerals in which the won mineral is transported away from the point of mining by fluid along a pipeline.
  • the invention is particularly suitable for the open cast mining of tarsand.
  • the conventional way of open cast mining of tarsand involves digging the tarsand from a layer deposit of tarsand and transferring the dug tarsand to a series of trucks which each transport the dug tarsand to a fixed fluid conveyor inlet station.
  • the fluid conveyor inlet station is connected to a remote tarsand processing plant by a tarsand conveying pipeline and serves the purpose of enabling the dug tarsand to be introduced into the tarsand conveying pipeline.
  • the fluid conveyor inlet station is also connected by a pipeline to a source of conveying fluid, usually water.
  • the source of water is usually a settlement pond located at the tarsand processing plant and so it is common for the fluid conveyor inlet station to be connected to the tarsand processing plant by two pipelines (viz. a water supply pipeline and a tarsand conveying pipeline) which run in parallel form the tarsand processing plant to the fluid conveyor inlet station.
  • two pipelines viz. a water supply pipeline and a tarsand conveying pipeline
  • the fluid conveyor inlet station includes a mixing chamber into which the dug tarsand is deposited by the trucks.
  • the tarsand is mixed with water to produce a slurry.
  • the slurry is passed through a sizer to remove unwanted large lumps and is fed into a fluid pump connected to the tarsand conveying pipeline and pumped along the tarsand conveying pipeline to the processing station.
  • the maximum throughput of dug tarsand is in the order of 5000 tons per hour and in order to convey this quantity from the fluid conveyor input station to the tarsand processing station the diameter of the tarsand conveying pipeline is about 1 meter.
  • the distance between the fluid conveyor input and the tarsand processing station is in the order of 4 kilometres. It is important therefore for the slurry to be continually pumped along the tarsand conveying pipeline in order to avoid settlement of the tarsand in the pipeline. Should this occur, it is necessary to pump water only along the tarsand conveying pipeline until the settled-out tarsand is removed. During this time, mining of the tarsand has to be stopped.
  • a general aim of the present invention is to provide an apparatus and process for mining of minerals which enables the won mineral to be introduced into a fluid conveyor at the location of mining for transport to a remote location and thereby obviate the need for a series of trucks and a fixed fluid conveyor inlet station.
  • an apparatus for transporting mineral from a point of mining to a remote location including a mobile mineral breaker rig having a mineral outlet, the rig including a fluid inlet pipe for receiving conveying fluid, a mineral inlet for introducing mineral from said mineral outlet into said fluid pipe and a fluid outlet pipe for conveying said fluid mixed with mineral received from said mineral outlet, an extensible pipeline assembly connected at one end to said inlet and outlet pipes and being adapted for connection at its opposite end to one end of a static pipeline communicating with said remote location, said extensible pipeline assembly being expandable to enable said mobile rig to move away from said one end of the static pipeline whilst maintaining fluid communication therewith, said extensible pipeline assembly comprising a series of elongate pipe assemblies which are articulated at adjacent ends to one another in a zig-zag manner via an articulated joint, each elongate pipe assembly including two lengths of pipe which are arranged side-by-side and secured together such that one length of pipe defines an upper pipe and the other length of
  • Figures la,b,c are schematic illustrations of a process according to a preferred embodiment of the present invention.
  • Figures 2a, 2b are plan views of an apparatus according to a first embodiment of the present invention shown with the extensible assembly fully extended and fully contracted, respectively;
  • Figure 3 is a side view of the first embodiment
  • Figure 4 is an enlarged side view of the fluid conveyor pipelines shown in Figure 3;
  • Figure 5 is an enlarged side view of the mobile mineral breaker rig shown in Figure 3;
  • Figure 6 is an axial sectional view of the mineral inlet valve shown in Figure 5;
  • Figure 7 is a sectional view taken along lines NII-NII in Figure 6;
  • Figure 8 is a side view of the mobile breaker rig having an alternative mineral inlet valve;
  • Figure 9 is a plan view of the mobile breaker rig shown in Figure 8; and Figure 10 is an end view of the mobile breaker rig shown in Figure 8.
  • FIG. la there is diagrammatically shown a layer deposit of tarsand TS and a digger D which digs tarsand and deposits the tarsand into a mobile breaker rig MBR.
  • the rig MBR is connected to a static water supply pipeline WSP and a static tarsand conveying pipeline TSP by an extensible pipeline assembly EPA.
  • the pipeline TSP is connected to a tarsand processing station S whereat at the tar is separated from the sand.
  • Sand and water are deposited into a settlement pond SP and the water from the pond is pumped by a pump P along the water supply pipeline WSP.
  • the digger D deposits dug tarsand into a receiving hopper H of the rig MBR, and as described later, the dug tarsand is subsequently introduced into the extensible pipeline assembly EPA and is transported to the tarsand processing station along pipeline TSP.
  • the digger As the digger advances in direction A along the tarsand layer deposit, it cuts a channel C and the mobile rig MBR advances also in direction A so as to enable the digger to deposit dug tarsand into the hopper H by slewing its bucket into position.
  • the extensible pipeline assembly EPA extends from is fully contracted condition E m j n until a maximum extension E max is reach as shown in Figure lb.
  • the extensible pipeline is disconnected from the static pipelines WSP, TSP at connection point CP, and contracted back to its fully contracted condition E ⁇ n -
  • the static pipelines are then extended by the introduction of additional pipes AD to form a new connection end CPN of the pipelines WSP,TSP which are at an advanced position in direction A.
  • the extensible pipeline assembly is reconnected to the new connection end CPN of pipelines WSP,TSP to enable further advancement of the rig MBR in direction A as shown in Figure lc.
  • the extendable length by which the extensible pipeline assembly EPA may be extended between its fully extended condition and its fully contracted condition is preferably chosen so as to enable the mining operation to run continuously as long as possible so as to minimise the number of times the mining operation has to be stopped to enable extension of the static pipelines TSP,SWP to be made. It is envisaged that the extendable length may be in the region of 200 metres but it will be appreciated that it may be more or less than 200 meters.
  • the mobile rig MBR and extensible pipeline assembly EPA are shown in greater detail in Figures 2 to 5.
  • the extensible pipeline assembly EPA preferably comprises a series of elongate pipe assemblies 90 which are articulated to one another in a zigzag manner.
  • the assembly EPA has a first end assembly 90a which is connected to the mobile rig MBR and a second end assembly 90b which is connected to the static pipelines WSP,TSP.
  • the first and second assemblies 90a,90b are interconnected by at least one intermediate pipe assembly 90c.
  • a mobile ground support MS which supports the assemblies 90 on the ground whilst static or whilst being moved during extension or contraction of the assembly EPA.
  • Articulation about articulation points AP is preferably restricted such that the zigzag formation is retained when the assembly EPA is fully extended.
  • the articulation is preferably restricted such the angle ⁇ is about 25 degrees or greater when the assembly is fully extended, viz. the angle subtended between adjacent pipe assemblies is about 130° or less. This enables the assembly EPA to be contracted by moving the first and second end assemblies 90a,90b inwards toward one another.
  • the point of articulation PA between the second end assembly 90b and pipelines TSP,WSP is preferably supported on a power driven support MSP which enables the second end assembly 90b to be driven in direction A after disconnection from pipelines TSP,WSP and so cause contraction of assembly EPA.
  • the pipe assemblies 90 are pushed together about their points of articulation preferably up to a predetermined stop limit wherein angle ⁇ is a predetermined minimum which prevents adjacent assemblies 90 engaging one another.
  • angle ⁇ is about 25°.
  • the mobile rig MBR will pull first end assembly 90a and so pull the intermediate assembly 90c and end assembly 90b until the maximum extension is achieved.
  • the supports MS apart from MSP which carries the articulation between the second assembly 90b and pipelines WSP,TSP will be free moving and preferably in the form of castors 90d.
  • Each castor has a wheel assembly 190 rotatably mounted on a carriage frame 191.
  • the carriage frame 191 is mounted on a support frame 192 attached to lower pipe 102 via a turntable having a vertical axis of rotation which is co-axial with the axis of rotation AR.
  • one or more of the supports MS may be power driven and preferably radio controlled.
  • the assembly EPA After disconnecting the assembly EPA from the static pipelines TSP, WSP the assembly EPA is contracted to its fully contracted condition by advancement of the powered mobile support MSP which is preferably in the form of a chassis mounted on tracks.
  • each extensible unit would include a powered support MSP carrying an articulation point between pipe assembly 90b of one unit and pipe assembly 90a of another unit.
  • the powered support MSP in between each unit would act to push the pipe assembly 90c of the upstream unit (in direction A) and pull the pipe assembly 90a of the downstream unit.
  • each assembly 90 is preferably constructed from two lengths of pipe, viz. an upper pipe 100 and a lower pipe 102, which are located side by side and are rigidly secured together, preferably, by a lattice of struts 103.
  • This arrangement provides a self- supporting structure enabling the pipes 100,102 to span a relatively long distance when only being supported from opposite ends at articulation points AP.
  • the pipes 100, 102 are preferably made in one piece from steel and are about 1 meter in diameter. Typically the length of the pipes 100,102 between the points of articulation AP is about 50 meters but it is envisaged that the length may be longer, e.g. 100 meters.
  • the lower pipes 102 mounted directly onto a support MS and are joined to one another by a rotary joint 106 having an axis of rotation AR.
  • the joint 106 preferably includes a rotary bearing so as to act as a turntable between the connected pipes 102.
  • the joint is also constructed to accommodate a limited amount of lateral movement between the connected pipes 102.
  • the upper pipes are connected by a rotary joint 107 which has an axis of rotation co-axial with the axis AR.
  • a rotary joint 107 which has an axis of rotation co-axial with the axis AR.
  • one or both the pipes 100, 102 preferably include a telescopic portion 108 which may be defined by a sliding joint or a flexible joint.
  • the mobile support MSA carries a connection pipes 100a, 102a for connection to pipelines WSP and TSP respectively.
  • the pipes 100,102 of first end assembly 90a are connected to a water inlet pipe 100b and a tarsand slurry outlet pipe 102b via joints 107,106 respectively.
  • the tarsand slurry is caused to flow around bends in the pipe 102; this is advantageous as it encourages mixing of the tarsand with water and also helps lumps to degrade.
  • a replaceable bend piece 110 which forms part of the pipe is provided so that a new bend piece 110 may be fitted should abrasive wear from the tarsand slurry occur.
  • the electrical cable required to power the mobile rig may conveniently be mounted to run along the assembly EPA.
  • WSP,TSP static pipelines
  • the mobile breaker rig MBR includes a chassis 20 on which is mounted the hopper H into which tarsand dug by digger D is deposited.
  • the deposited tarsand is conveyed by a feed conveyor 22 to a mineral breaker 24.
  • the mineral breaker is preferably of a construction as disclosed in our European patents Nos. 0 167 178 and 0 096 706.
  • the tarsand passes through the mineral breaker 24 and in so doing, lumps of in excess of a predetermined size are broken down so that tarsand emerging from the breaker 24 contains no lumps in excess of the predetermined size.
  • the predetermined size will be in the region of 500mm.
  • the tarsand emerging from the breaker is deposited onto a take-away conveyor 26 which transports the tarsand to a rotary mineral valve 28 via which the tarsand is introduced into the extensible pipeline assembly for transport to the tarsand processing station TS.
  • the valve 28 preferably includes a rotating shaft or drum 30 having a series of mineral accommodating pockets 34 spaced about its circumference. In Figure 7, three pockets 34 are shown but it will be appreciated that more or less than three pockets 34 may be provided.
  • the drum 30 is housed in a casing 36 having an upper inlet port 37 into which mineral is deposited. Deposited mineral enters a pocket 34 as the drum is rotated in direction of arrow R and is transferred by the pocket 34 to a lower output port 38 which communicates with a conduit 40 along which water supplied from the pipe 100a communicating with pipeline WSP.
  • the conduit is connected to pipe 100a at its inlet end 42 to the pipeline WSP and is connected at its outlet end 44 to the pipe 102a for communication with pipeline TSP.
  • a water pump WP such as a turbine pump, is mounted on the chassis 20 immediately upstream of the valve 28 for pumping water supplied from the water supply pipeline WSP into the inlet 42 preferably through a venturi which acts to accelerate water entering conduit 40.
  • the conduit 40 is also preferably curved as shown to create a sweep in the flow of water to ensure that the pocket 34 is cleaned out of mineral before it re-enters the casing 36.
  • a water outlet port 47 is provided in the casing 36 which enables water to empty out of each pocket before it returns to the inlet port 37.
  • the chassis 20 is supported on the ground by a tracked assembly 50 via a slewing assembly 51.
  • the chassis 20 also preferably includes extensible legs 53 locate at each corner of the chassis 20.
  • Each leg 53 preferably has an enlarged ground engaging pad 54 fitted thereto to spread load applied to soft ground.
  • the extensible legs 53 when retracted are located clear of the ground but can be extended to raise the chassis 20 away from the ground in order to lift the track assembly clear of the ground. This enables to the track assembly to be slewed to a desired rotary position before being lowered onto the ground by retraction of the legs 53. In this way the rig MBR can be moved in any direction away from a static position.
  • the breaker rig MBR is shown having an auger assembly 60 which constitutes an alternative arrangement to the use of a takeaway conveyor and rotary valve 28 for transferring the tarsand from the mineral breaker 24 and into the extensible pipeline assembly EPA.
  • the auger assembly includes a pair of side by side augers 62 rotably housed in a casing 64.
  • the casing 64 includes two tubular sections 65 each housing an auger 62. In an upper central region of the casing 64 the two tubular sections have a common opening to define an inlet for mineral emerging from the mineral breaker 24 via an inlet chute 66.
  • the augers 62 are preferably located on axes of rotation which are parallel to those of the breaker drums 24a and are of about the same diameter as the breaker drums. This enables the chute 66 to have vertical walls which is an ideal arrangement since tarsand is less likely to stick to a vertical wall. Access covers 160 are preferably provided to enable access internally of the augers for maintenance purposes.
  • a pair of secondary mineral inlet chutes 68 are preferably provided on the upstream side of chute 66 which communicate with each tubular section 65 to receive overspill tarsand from the feed conveyor 22.
  • Each auger 62 is preferably in the form of a hollow shaft 70 about which a helical blade 72 extends. Rotation of an auger 62 causes the tarsand to be transferred into the downstream portion of the tubular section 65.
  • the helical blade 72 terminates in-board of the terminal end 71 of the shaft 70 such that a plug of tarsand is created in the terminal region TR of the tubular section 65. This plug acts as a seal to prevent water flowing along the tubular section 65 in a direction toward the chute 66.
  • a comminuting assembly 80 is located within the tubular section 65 immediately upstream of the terminal region TR which act to comminute the tarsand as it passes into the terminal region TR and so acts as a secondary breaking means to further breakdown lumps of tarsand before entry of the tarsand into the extensible pipeline assembly EPA.
  • the comminuting assembly 80 comprises a fixed disc-like blade having apertures passing therethrough mounted internally on the tubular section 65 and a rotary blade mounted on the shaft 70 which sweeps across an axial face of the fixed disc to shear tarsand as it passes through the apertures in the fixed blade.
  • Water is pumped along the hollow shaft 70 to emerge through its terminal end 71 through an axially facing port 75. Accordingly, as the plug of tarsand emerges from the terminal region TR it merges with the jet of water emitted from the port 75 to be transported along outlet pipe 102b.
  • one or more radially directed ports may be formed in the end portion of each shaft 70 so as to enable mixing of water with the tarsand plug before it emerges from each tubular section 65.
  • the terminal end 71 is preferably tapered inwardly such that port 75 has a reduced diameter relative to the internal diameter of the hollow shaft 70. This creates a venturi effect wherein water flow is accelerated as it emerges from the port 75 and so creates turbulence and also increase flow velocity for causing effective mixing and suspension of the tarsand with the conveying water flow.
  • each auger is rotated by an individual motor 86 and each shaft 70 is supplied with water from an individual pump WP via a conduit 87 and sealed chamber 88. Water is fed to pumps WP via a pair of pipes 100a. Accordingly, if a failure occurs with one of the augers, it is still possible to run the mobile rig at half capacity using the other auger.
  • each auger may include more than one helical blade and that the helix angle of the or each blade may vary along the length of the hollow shaft 70.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mining & Mineral Resources (AREA)
  • Geology (AREA)
  • Oil, Petroleum & Natural Gas (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Geochemistry & Mineralogy (AREA)
  • Chemical & Material Sciences (AREA)
  • Remote Sensing (AREA)
  • Earth Drilling (AREA)
  • Excavating Of Shafts Or Tunnels (AREA)
  • Coloring Foods And Improving Nutritive Qualities (AREA)
  • Seasonings (AREA)
  • Electrical Discharge Machining, Electrochemical Machining, And Combined Machining (AREA)
  • Treatment Of Liquids With Adsorbents In General (AREA)
  • Quick-Acting Or Multi-Walled Pipe Joints (AREA)
  • Drilling And Exploitation, And Mining Machines And Methods (AREA)
EP02788228A 2001-12-21 2002-12-20 Mineralabbauvorrichtung und -verfahren Expired - Lifetime EP1458953B1 (de)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
GBGB0130668.7A GB0130668D0 (en) 2001-12-21 2001-12-21 Apparatus and process for mining of minerals
GB0130668 2001-12-21
PCT/GB2002/005869 WO2003056134A1 (en) 2001-12-21 2002-12-20 Apparatus and process for mining of minerals

Publications (2)

Publication Number Publication Date
EP1458953A1 true EP1458953A1 (de) 2004-09-22
EP1458953B1 EP1458953B1 (de) 2005-07-20

Family

ID=9928178

Family Applications (1)

Application Number Title Priority Date Filing Date
EP02788228A Expired - Lifetime EP1458953B1 (de) 2001-12-21 2002-12-20 Mineralabbauvorrichtung und -verfahren

Country Status (8)

Country Link
EP (1) EP1458953B1 (de)
AT (1) ATE299987T1 (de)
AU (1) AU2002353210B2 (de)
CA (1) CA2498862C (de)
DE (1) DE60205136T2 (de)
DK (1) DK1458953T3 (de)
GB (1) GB0130668D0 (de)
WO (1) WO2003056134A1 (de)

Families Citing this family (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CA2455011C (en) 2004-01-09 2011-04-05 Suncor Energy Inc. Bituminous froth inline steam injection processing
CA2476194C (en) 2004-07-30 2010-06-22 Suncor Energy Inc. Sizing roller screen ore processing apparatus
US7431830B2 (en) 2004-09-02 2008-10-07 Canadian Oil Sands Limited Partnership Compact slurry preparation system for oil sand
US8535485B2 (en) 2004-09-02 2013-09-17 Syncrude Canada Ltd. Apparatus and process for wet crushing oil sand
US8393561B2 (en) 2005-11-09 2013-03-12 Suncor Energy Inc. Method and apparatus for creating a slurry
CA2526336C (en) 2005-11-09 2013-09-17 Suncor Energy Inc. Method and apparatus for oil sands ore mining
CA2567644C (en) 2005-11-09 2014-01-14 Suncor Energy Inc. Mobile oil sands mining system
CA2640514A1 (en) 2008-09-18 2010-03-18 Kyle Alan Bruggencate Method and apparatus for processing an ore feed
CA2812116C (en) 2009-07-24 2013-12-24 Suncor Energy Inc. Screening disk, roller, and roller screen for screening an ore feed

Family Cites Families (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3510168A (en) * 1968-07-03 1970-05-05 Great Canadian Oil Sands Method of mining bituminous tar sands
US4865185A (en) * 1986-02-24 1989-09-12 Joy Technologies Inc. Crawler-mounted conveying train
DE3644818A1 (de) * 1986-12-31 1988-07-14 Schlecht Karl Verfahren zur beseitigung von abraum
GB9026399D0 (en) * 1990-12-05 1991-01-23 Cdss Ltd Improvements relating to mining
AUPN211395A0 (en) * 1995-03-31 1995-04-27 Sedimentary Holdings Ltd The continuous mining, transport and treatment system

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See references of WO03056134A1 *

Also Published As

Publication number Publication date
WO2003056134A1 (en) 2003-07-10
CA2498862A1 (en) 2003-07-10
DE60205136D1 (de) 2005-08-25
CA2498862C (en) 2008-02-05
AU2002353210B2 (en) 2008-12-04
EP1458953B1 (de) 2005-07-20
ATE299987T1 (de) 2005-08-15
DE60205136T2 (de) 2006-05-24
AU2002353210A1 (en) 2003-07-15
DK1458953T3 (da) 2005-11-21
GB0130668D0 (en) 2002-02-06

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