marc johns, npeabody energy australia - case study – north wambo coal mine
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14 October 2013
Marc Johns, LW Superintendent
Andrew Boyling, Mine Manager
North Wambo Underground
2013 Longwall Conference
Peabody: The World’s Largest Private Sector Coal Company
2 Mining position and sales based on 2011 reported sales volumes in millions of tons. Reserves based on 2011 10-K filing in billions of tons.
3
Australian Operations
Why Is Peabody in Australia?
● Australia is world’s fifth largest coal producer behind China, USA
India and Indonesia
● 60% of world’s seaborne metallurgical coal supply
● Mines close to port with access to rail
● Ports close to high-growth Asian markets
– 70% of Australia’s metallurgical coal exports and more than 94% of thermal
coal exports exported to Asian region in 2010
● Strong skills base
● Excellent safety records, innovation and standards
4
Australian Reserves
Peabody Now Third Largest Australia Coal Company by Reserves
5
~35 Year Reserve Life at Current Production
Reserves shown in short tons; Data based on most recently public company filings.
4013
3457
1400
959 811 776 708
467 333
93
0
500
1000
1500
2000
2500
3000
3500
4000
4500
BHP/BMA Xstrata Peabody Rio Tinto Anglo
Whitehaven New Hope Wesfarmers Gloucester Vale
6
Wambo Operation
7
Wambo Operation
● Wambo Mine complex is located in the Hunter Valley of New
South Wales, Australia.
● The mine is 14kms from Mount Thorley on the Golden Highway
at Warkworth. Wambo consists of an underground mine, open
cut mine, and CHPP.
● All areas work as a seven day operation.
● North Wambo Underground is a new longwall mine which
commenced development on 14 November 2005 under Excel
Coal ownership and continues under Peabody Energy Australia
ownership.
● The mine’s longwall is currently extracting Longwall block 7.
8
Wambo UG History
9
• 1969 – Operations commenced with ownership by a small group of individuals and Companies
• 1982 to 1991 – ownership by combination of Panaroya, Hartogen, Total Australia, GIO and CDF Minerals
• 1991 – Sumitomo Coal Mining Ltd
• 2001 – Excel Coal
• Oct 2006 to current – 75% Peabody Energy/25% Sumitomo
• Open Cut Operations
• Commenced in the early 1970’s (to 1998 as owner operated)
• 1998 to 2001 – closed
• 2001 to April 2013 – contractor
• April 2013 – Peabody Energy
• Underground Operations
• Commenced in the early 1970’s
• Underground mining has been non-stop via 6 mines (Charlie’s Hole, Wambo, Ridge Entry, Homestead, Wollemi, North Wambo)
• North Wambo commenced coaling November 2005
• Peabody Acquisition 2006
Wambo Ownership and History
10
Wambo UG History
LW 3
LW 2
LW 1
LW 7
LW 6
LW 5
LW 4
LW 8
LW
9
LW
9A
Wambo Mine - (Wambo Seam) : 1972-1977
Ridge Mine - Whybrow Seam 1976-1981
Homestead Mine - Whybrow Seam 1979 – 1999 (10 LW Panels)
11
Wambo UG History
LW 3
LW 2
LW 1
LW 7
LW 6
LW 5
LW 4
LW 8
LW
9
LW
9A
LW
12
LW
13
LW
10A
LW
10B
LW
11
Wollemi Mine - Whybrow Seam
1997– 2002 (4 LW Panels)
12
LW 3
LW 2
LW 1
LW 7
LW 6
LW 5
LW 4
LW 8
LW 9
LW 9
A
LW 1
2
LW 1
3
LW 1
0ALW
10B
LW 1
1
Longwall 7
Longwall 8
Longwall 6Longwall 5
Longwall 4
L W1 SUMP DRIVAGE
48CT
LW5 I
nstall
ation
Roa
d
4 2 1 P ANEL
422 PANEL
49CT
51c t
52c t
ROTHBURY DRIFT
GLEN ALBERT DRIFT
1 in 8
1 in 8
SE2 HDGS
SE3 HDGS
SE3 HDG
S
SE3 HDG
S
SE2 HDGS
SE2 HDGS
422 PANEL
Longwall 3Longwall 2Longwall 1
United Mine - Longwalls LW1-LW8
(Arrowfield Seam) : 2002- to present
Wambo UG History
13
North Wambo (Wambo Seam) : 2005 - to present
Wambo UG History
14
North Wambo Overview
15
NWU – Multi Seam Experience
● No significant strata issues either above or bellow workings. However we do put additional support into areas of goaf edges.
● Harder and slower cutting where there are no goaf influences.
● Have encountered many through seam boreholes. Only 1 has caused problems with water flowing up from below.
● No gas inflows.
● No water inflows however it is a consent condition to drain overlying workings. We have been delayed draining workings.
16
LW-7 Operational Overview
North Wambo Longwall
17
146 x PRS
• Joy 2 leg x 1,050t supports 1.75m wide
• Range 1.8 –3.2m (3.8m MG)
• RS20S controls
• Tip to face 400mm at 2.1m height
• Yield support density- >100t/m2
2 x AFC
• AFC – 2,500 tph continuous load, 3,000tph peak rate
• 850kW TTT drives
• 42mm chain
2 x Shearer
• Joy 7LS2a (1.675m) with JNA Face Boss software and Advanced Shearer Automation
2 x Macquarie Monorail
2 x SES Pump Station 2 x Ampcontrol Electrics
NWU Longwall Geotechnical data
Seam Height
● The Wambo seam may vary between 1.8m and 2.4m in height.
Seam Grade
● The Wambo seam grade this block is 1 in 20 length of block and cross grade is 1 in 90 at the start and changes to 1 in 30 at about the 1500m mark.
Extraction Height
● The extraction height on the LW face will vary from 2.7m to 2.2m in height.
Performance
● Mine designed for 2.5 MTPA. Doing 5.4MTPA.
● Target 115m per week in most conditions.
19
LW07 Metres Retreat Per Week
53.4
5
94
106
103.5
140
113.7
5
119.5
117
134.2
5
115.5
5
121.2
105.3
99.5
92
100.5
111.5
110.2
5 1
02
55.0
0
75.0
78
83.0
97.8
84.4
93.0
86.5
0
90.7
5
85.2
5
88.0
0
75.5
0
90.5
0
84.5
81.0
0
83.0
0
88.0
0
80.5
0
0
10
20
30
40
50
60
70
80
90
100
110
120
130
140
150
160
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 37 38 39
Metr
es R
etr
eat
per
Week
No. Of Weeks
North Wambo Underground Longwall 07 Retreat
Metres retreatCutting hoursBudget metres retreat
LW07 Average 107.7
Ramp Up
NWU Record
Ramp
down
Target 90 cutting
hrs
Xmas/NewYear
Longwall 7
20
Cutting height = 2.2m
Block width = 250m
Block length = 3295m
Average retreat per week 110m
Best week 142m retreat
Longwall 6 Recovery
21
• Bolt up 9.5 Days
• LW6 to 7 move 21 days
• 7 days negative float
• No injuries
• Ramp up to full production in
about 2 weeks
Operating discipline
● Plan for maintenance, stick to plan
● Ensure that equipment overhauled to best
standard at start of block
● Secondary support etc. are installed on MG side
– Once going there are no delays
● 2 x Everything except shields
– Maintenance can be done offline and some rebuilds
done on site
– Good commissioning of electrical components
22
Mechanical Innovation
● Extremely simple face only 6 solenoids per shield
● No shield sprays. Keep people out of dust.
● Pilot pressure on solenoids. – Improves reliability.
● Electro hydraulic boot end (safer and reduces hosing).
● Dump valve relocation for faster response.
● Modification of BE to surf across poor floor.
● Life cycle analysis of hosing to minimise failure.
● Galvanised chain.
23
Dump Valve
24
Electrical Innovation
● Custom wiring looms for LW installation.
● Web cams inside enclosures.
● TG drive modifications to reduce wiring.
● LED lights.
25
26
Mining Innovation
● MBR ventilation.
● TG horizon line.
● Rigid monorail and airtrack.
● TG dusting down pipeline.
● CH4 / BSL interlock.
● Belt downtime reduction.
– NDT testing of rollers.
– Systematic testing of belt switches.
27
Longwall Face: Ventilation
● Low gas in-seam but higher
gas in surrounding strata.
● Workings above complicate
post drainage.
● Long panels 3.4km.
● Low Longwall face (2.2m).
Medium roadways (2.7m).
● Gate roads stand in goaf.
● Air goes to back of goaf
with seam gradient.
● Seal deterioration caused
interconnection LW1 - LW2.
● Rider seams have oxidation
potential (Spon Com risk). 28
LW MBR System D
100.0
5
6
7
8
9
10
11
12
14
15
16
17
18
19
20
21
22
24
25
26
27
28
29
30
31
32
33
34
35
36
2
5 7 9 11
13
14
15
16
18
19
20
21
23
24
Main Headings
A HDG
4
1
4
3
2
1
40
37
B HDG
C HDG
Ta
ilga
te 1
31
29.2
29.2
87.22
87.22
87.22
23.4
68.523.45
57.48 23.62
21.53
41.0463.33
29.5
5
29.7
2
30.3
3
33.9
7
30.67
23.44
40.019.53
10.4
6
11.6
6
B H
DG
29.2
29.2
29.2
29.2
29.2
29.2
38.5
38.5
38.5
38.5
64.2
64.2
64.2
29.2
29.2
40.0
40.0
29.2
29.2
29.2
29.2
41.3
35.7
35.7
35.7
35.1
71.1
2
38.5
Main Headings
A HDG
B HDG
C HDG
Ma
ing
ate
1
A H
DG
59.2
65.5
8
44.9
21.7
6
33.4
50.7
68.5
386.9
8
35.54
14.4
3
54.0
50.7
26.2
5
36.3
Main Headings
A HDG
B HDG
C HDG
Main Headings
A HDG
B HDG
C HDG
F H
DG
F H
DG
A H
DGB
HD
G
4
Ma
ing
ate
2
3
1
13
38
30.4
100.0
100.0
38.5
100.0
100.0
100.0
100.0
100.0
100.0
100.0
90.0
90.0
110.0
110.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
102.2
102.2
87.8
92.0
92.0
122.0
114.0
86.0
100.0
114.01
00.0
100.0
100.0
100.0
100.0
86.0
100.0
114.0
100.0
100.0
100.0
95.0
95.0
91.0
105.0
114.0
100.0
100.0
100.0
86.0
100.0
100.0
100.0
100.0
100.0
38.5
38.5
38.5
38.5
38.5
38.5
38.5
38.5
38.5
38.5
38.5
38.5
38.5
38.5
38.5
41.0
38.5
38.5
112.81
00.0
37.4
37.4
37.4
37.4
37.4
37.4
37.4
37.4
37.4
37.4
35.1
35.1
35.1
37.4
37.4
37.4
37.4
37.4
35.1
37.4
37.4
37.4
35.1
37.4
37.4
37.4
37.4
37.4
37.4
37.4
35.1
35.1
100.0
100.0
100.0
100.0
100.0
100.0
100.0
110.0
110.0
90.0
90.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
87.2
100.0
100.0
100.0
100.0
100.0
112.8100.0
100.0
100.0
100.0
100.0
100.0
100.0
90.0
90.0
97.2
110.0
112.81
00.0
100.0
100.0
100.0
100.0
87.2
100.0
112.81
00.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
87.2
100.0
100.0
100.0
100.0
A H
DGB
HD
G
Ma
ing
ate
2
A H
DGB
HD
G
Ma
ing
ate
2
A H
DGB
HD
G
Ma
ing
ate
2
A H
DGB
HD
G
Ma
ing
ate
2
A H
DGB
HD
G
Ma
ing
ate
2
A H
DGB
HD
G
Ma
ing
ate
2
A H
DGB
HD
G
Ma
ing
ate
2
A H
DGB
HD
G
Ma
ing
ate
2
A H
DGB
HD
G
Ma
ing
ate
2
A H
DGB
HD
G
Ma
ing
ate
2
A H
DGB
HD
G
Ma
ing
ate
2
Ma
ing
ate
1
A H
DG
B H
DG
Ma
ing
ate
1
A H
DG
B H
DG
Ma
ing
ate
1
A H
DG
B H
DG
Ma
ing
ate
1
A H
DG
B H
DG
Ma
ing
ate
1
A H
DG
B H
DG
Ma
ing
ate
1B
HD
G
Ma
ing
ate
1
A H
DG
B H
DG
Ma
ing
ate
1
A H
DG
B H
DG
Ma
ing
ate
1
A H
DG
B H
DG
Ma
ing
ate
1
A H
DG
B H
DG
Ma
ing
ate
1
A H
DG
B H
DG
6
7
8
9
10
11
12
13
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
5
14
6
7
8
9
10
11
12
13
15
18
19
20
21
22
23
24
25
29
30
31
32
33
34
35
36
37
5
4
41
42
14
40
3
1 2 1 1 2
B H
DG
Ma
ing
ate
3
B H
DG
Ma
ing
ate
4
B H
DG
Ma
ing
ate
3
B H
DG
Ma
ing
ate
4
B H
DG
Ma
ing
ate
3
B H
DG
Ma
ing
ate
4
B H
DG
Ma
ing
ate
3
B H
DG
B H
DG
Ma
ing
ate
3
B H
DG
B H
DG
Ma
ing
ate
3
B H
DG
B H
DG
Ma
ing
ate
3
B H
DG
Ma
ing
ate
4
B H
DG
Ma
ing
ate
3
B H
DG
Ma
ing
ate
4
B H
DG
Ma
ing
ate
3
B H
DG
Ma
ing
ate
4
B H
DG
Ma
ing
ate
3
B H
DG
Ma
ing
ate
4
B H
DG
Ma
ing
ate
3
B H
DG
Ma
ing
ate
4
B H
DG
Ma
ing
ate
3
B H
DG
Ma
ing
ate
4
3
F H
DG
42
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
A H
DG
Ma
ing
ate
5
A H
DG
B H
DG
Ma
ing
ate
5
A H
DG
B H
DG
Ma
ing
ate
5
A H
DG
B H
DG
Ma
ing
ate
5
A H
DG
B H
DG
Ma
ing
ate
5
A H
DG
B H
DG
Ma
ing
ate
5
A H
DG
B H
DG
Ma
ing
ate
5
A H
DG
B H
DG
Ma
ing
ate
5
A H
DG
B H
DG
Ma
ing
ate
5
A H
DG
B H
DG
Ma
ing
ate
5
A H
DG
B H
DG
Ma
ing
ate
5
A H
DG
B H
DG
Ma
ing
ate
5
A H
DG
B H
DG
Ma
ing
ate
6
A H
DG
B H
DG
Ma
ing
ate
7
A H
DG
B H
DG
Ma
ing
ate
6
A H
DG
B H
DG
Ma
ing
ate
7
A H
DG
B H
DG
Ma
ing
ate
6
A H
DG
B H
DG
Ma
ing
ate
7
A H
DG
B H
DG
Ma
ing
ate
6
A H
DG
B H
DG
Ma
ing
ate
7
A H
DG
B H
DG
Ma
ing
ate
6
A H
DG
B H
DG
Ma
ing
ate
7
A H
DG
B H
DG
Ma
ing
ate
6
A H
DG
B H
DG
Ma
ing
ate
7
A H
DG
B H
DG
Ma
ing
ate
6
A H
DG
B H
DG
Ma
ing
ate
7
A H
DG
B H
DG
Ma
ing
ate
6
A H
DG
B H
DG
Ma
ing
ate
7
A H
DG
B H
DG
Ma
ing
ate
6
A H
DG
B H
DG
Ma
ing
ate
7
A H
DG
B H
DG
Ma
ing
ate
6
A H
DG
B H
DG
Ma
ing
ate
7
A H
DG
B H
DG
Ma
ing
ate
6
A H
DG
B H
DG
Ma
ing
ate
7
A H
DG
B H
DG
Ma
ing
ate
8
A H
DG
B H
DG
Ma
ing
ate
8
A H
DG
B H
DG
Ma
ing
ate
8
A H
DG
B H
DG
Ma
ing
ate
8
A H
DG
B H
DG
Ma
ing
ate
8
A H
DG
B H
DG
Ma
ing
ate
8
A H
DG
B H
DG
Ma
ing
ate
8
A H
DG
B H
DG
Ma
ing
ate
8
A H
DG
B H
DG
Ma
ing
ate
8
A H
DG
B H
DG
Ma
ing
ate
8
A H
DG
B H
DG
Ma
ing
ate
8
A H
DG
B H
DG
4
1
4
2
3
4
2
3
29.2
29.2
29.2
29.2
29.2
29.2
29.2
29.2
29.2
29.2
29.2
29.2
29.2
29.2
29.2
29.2
29.2
29.2
45.4
8
66.2
5
47.5
66.2
5
69.1
32.3
32.3
32.3100.0
100.0
100.0
102.7
102.7
70.0
70.0
100.27
100.27
70.0 100.27
100.0
100.0
31.6
31.6
100.0
87.9
8
88.2
6
51.4
5
49.9
2
31.6
31.6
31.6 31.6
57.2
29.2
29.2
29.2
29.2
33.4
33.4
12
36.317.7
36.317.7
29.2
17
50.13
29.2
29.2
22
111.51
00.0
100.0
100.0
80.0
80.0
120.0
120.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
88.51
00.0
111.5
100.0
88.5
100.0
111.5
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.01
00.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
94.1
100.0
94.4
100.0
73.5
85.0
100.0
100.0
90.0
110.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0100.0
100.0100.0
100.0
100.0
100.0
31.6
105.6100.0
31.6
100.0100.0
110.0
110.0
100.0
90.09
0.0
100.0
100.0
100.0100.0
100.0100.0
100.0100.0
100.0100.0
100.0100.0
100.0100.0
100.0100.0
100.0
105.6100.0
100.0100.0
100.0100.0
100.0100.0
100.0100.0
100.0100.0
100.0100.0
100.0100.0
100.0100.0
100.0
31.6
100.0
105.6100.0
100.0100.0
100.0100.0
100.0100.0
100.0100.0
100.0100.0
100.0100.0
100.0100.0
96.9
96.9
31.6
31.6
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
100.0
100.0
31.6
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
100.0
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
31.6
100.0
100.0
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6100.0
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
31.6
100.0
31.6
100.0
100.0
31.6
100.0
100.0
31.6
96.9
96.9
31.6
31.6
31.6
31.6
57.2
57.2
31.6
4
100.0
B H
DG
49.9
50.9
38.1
64.9
38.1
35.1
37.8
35.1
37.8
37.8
37.8 42.8
42.8
100.0270.28
70.27
85.15
85.13
39.7
7
41.1
4
170.30
170.27
39.5
87.15
87.13 99.98 157.42
85.13
85.13
85.13
85.13
87.13
87.13
42.8
42.8
100.0
31.6
30.5
42.3
30.0
30.0
42.3
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
29
30
31
32
33
34
35
36
37
38
41
42
1 2
40.0
85.13
85.13
85.13
85.13
87.13
87.13
40.0
40.0 1 2
40.0
85.13
85.13
85.13
85.13
87.13
87.13
40.0
40.0 1 2
40.0
75.13
75.13
85.13
85.13
85.13
85.13
40.0
40.0
40.0
40.0
40.0
40.0
40.0
31.6
31.6
55.0 43.6 85.1
84.13
45.7
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
100.0
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
30.2
30.2
45.7
27.3
61.8
61.8
4
5
6
7
8
9
10
11
12
13
14
15
15
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
22.2
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
30.0
30.0
59.7
27.3
81.0
36
38
66.7
66.7
37.0
37.0
37.0
A H
DG
100.0
30.4
100.0
103.4
30.4
100.0
96.6
30.4
100.2
6
100.0
30.4
100.0
100.0
30.4
100.0
100.0
30.4
100.0
100.0
30.4
100.0
100.0
30.4
100.0
100.0
28.7
100.0
100.0
28.7
100.0
110.5
28.7
100.0
100.0
30.5
101.0
100.0
110.5
100.0
100.0
100.0
100.0
100.4
46 9
0.0
100.0
110.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.5
100.2
100.2
100.2
100.2
100.2
100.2
100.2
100.2
100.0
100.2
100.0
100.2
3
5
6
7
8
9
10
11
12
13
14
15
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
Ta
ilga
te 1
Ta
ilga
te 1
Ta
ilga
te 1
Ta
ilga
te 1
Ta
ilga
te 1
Ta
ilga
te 1
Ta
ilga
te 1
Ta
ilga
te 1
Ta
ilga
te 1
Ta
ilga
te 1
Ta
ilga
te 1
B H
DG
A H
DG
B H
DG
A H
DG
B H
DG
A H
DG
B H
DG
A H
DG
B H
DG
A H
DG
B H
DG
A H
DG
B H
DG
A H
DG
B H
DG
A H
DG
B H
DG
A H
DG
B H
DG
A H
DG
B H
DG
A H
DG
37
39
40
90.3
7
8
100.0
2
5 7
Main Headings
A HDG
4
2
1
B HDG
C HDG
Ta
ilga
te 1
31
B H
DG
F H
DG
6
A H
DG
3
4
20.0
41.6
20.6
4
59.2
64.0
59.1
59.1
59.1
DRAINBUND
41
10
29.2
29.2
40.0 58.1
58.1
58.1
30.5
30.5
30.5
30.5
30.5
30.5
30.5
30.5
30.5
30.5
31.3
151/2
31.5
42.0
108.0
86.0
100.0
100.0
16
28.7
101.0
28.7
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
32.0
32.7
33.4
34.1
34.8
35.5
36.2
36.9
37.6
38.3
18.32
36.9
87.8
40.6
2
11.8
2
26.6
38.5
41.0
41.0
41.0
41.0
38.5
41.0
41.0
41.0
38.5
41.0
41.0
38.5
38.5
41.0
41.0
41.0
38
38.6
37.3
62.8 3
6.5
57.1
43.1
19.49
A H
DG
23
38.5
39
41.0
114.0
114.0
100.0
86.0
20.1 79.9
42.0
27.4
11.3
42.0
44.7
17.0
37.4
100.0
37.37
1
36.6
2
33.6
33.6
33.6
33.6
33.6
33.6
33.6
33.6
33.6
33.6
33.6
33.6
33.6
31.6
33.6
31.6
33.6
33.6
33.6
33.6
33.6
33.6
33.6
33.6
33.6
33.6
33.6
33.6
33.6
33.6
32.1
A H
DG
100.0
102.7
54.0
46.2
92.5
F H
DG
63.0
D
26.6
DD
50.13
50.13
36.3
36.3
36.3
92.5
63.0
32.3
32.3
32.3
31.6
26.1
9
47.5
66.3
1
37.4
36.6
1
2
26.6
DD
100.0
35.1
37
35.1
38
100.0
100.0
37.4
72.2
85.0
35.1
42
39
1 37.8
37.8
38.7
45.44
45.45
209.96
35.1
40
41
47.9
35.1
35.1
35.1
35.1
210.0
SU
MP
10.0
10.0
R R MAN
DO
OR O
NLY
SU
MP
38.5
31.6
16
15a
31.6
17
38.5
50.0
50.0
50.0
111.5
0
31.6
27
26a
31.6
26
50.0
50.0
50.0
111.5
0
28
26.1
9
48.0
66.8
1
37.4
36.6
1
2
26.6
27
29.2
29.2 28
29.2
29.2
29.2
110.4 32.3 38.8
110.0 110.4 36.3 32.3 30.5
110.0 110.4 36.3 32.3 41.2
25
29.2
29.2
36.3
12.7
93.0
36.3110.0
29.2
26
DD
33.6
100.0
111.5
5
33.6
100.0
4
33.6
90.0
7
33.6
110.0
6
33.6
100.0
9
33.6
100.0
8
33.6
100.0
11
33.6
100.0
10
33.6
100.0
13
33.6
94.1
0
12
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
105.6
Ma
ing
ate
4
16
31.6
Ma
ing
ate
4
100.0
15a
31.6
44.4
50.0
50.0
50.0
105.6
Ma
ing
ate
426a
31.644.4
50.0
50.0
50.0
31.6
27
100.0
100.0
100.0
100.0
100.0
100.0
100.0
DD
Air lock
Air lockAir lock
MAN
DO
OR O
NLY Air l
ock
Air lock
Air lock
R
39
38
31.6
33.6
46.6
35.1
41
40
31.6
31.6
105.91
00.0
35.1
35.1
39
38
31.6
33.6
46.6
35.1
62.0
85.0
157.45100.00
10.0
10.0
10.0
10.0
R
30.5
3
50.2
49.6
50.7
69.1
7.5 7.57.5
31.6
62.5
C
Air lock
D
1
40.9
30.1
42.8
D
32.6
5.0
31.1
29
14
32.1
15
32.1
17
32.1
19
32.1
21
32.1
23
32.1
25
32.1
29
32.1
31
32.1
33
32.1
35
32.1
37
32.1
18
32.1
20
32.1
22
32.1
24
32.1
26
32.1
28
32.1
30
32.1
32
32.1
34
32.1
36
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
32.1
100.0
27a
31.6
44.4
50.0
50.0
50.0
31.6
28
16a
31.6
44.4
50.0
50.0
50.0
31.6
100.0
100.0
100.0
100.0
31.6
82.8
82.8
39
40
D
43.6
19.0
7.5
DD
DD
C
D
R
R
DD
R
Air lock
Bobcat
Door
DD
Bobcat
Door
RR
D
shaft
124.2
73.7 97.1 31.6
19.5
19.5
30.0
31.6
31.6
19.5
27.3
68.2
88.1
2
3
7.5
31.6
31.6
36.6
19.5
12.3
86.13
7.5
19.5
49.5
12.3
1
36.6
66.1
67.4
49.5
49.5
31.6
31.6
85.1 140.7
97.1
38.7
23.9
1
25.7
7.5
R
DD
11.4
19.5
30.1
RR
40m3/s
80m3/s
MBR Regulator
120m3/s
10m3/s
70m3/s
Goaf
Stream
#1
Goaf
Stream
#2
Air track for Transporting belt structure
● Increased production due to less time handling structure.
● Men able to resume production whilst 2 people unload
structure at next CT.
● Less injuries associated with the air track .
30
Pantech relocation
● 2 transformers and 2 pump stations (Pantech).
● Power up next Pantech prior to move (Leapfrog).
● This means that only the services monorail has to be
moved forward when window is reached.
● This enables Pantech moves to be done in 1.5 – 2Hrs.
● Maintenance is done off line.
31
Automation
● LASC
– Auto straightening removes personnel from dust.
– Eliminates shiftly straighteners.
– Adds about 5 – 10 metres retreat per week.
● Advanced shearer automation
– Shearer Gate automation.
– Incremental Horizon control.
– Most problems occur in manual control.
– Have shearer operate in auto with minimal amount of manual
over ride.
32
LASC
33
34
Shearer Gate End Automation
● Automation adjusts cowls.
● Drum positions.
● Speed changes.
● Direction changes (waits for shield advance).
● Takes approximately 1 minute per shear less.
35
Auto Gate Cut Out
36
Manual Shearer Gate End cut on average took 14 minutes and 22 seconds from RS23 (PL2) to RS23
The new Advanced Shearer Automation Gate End cut on average now takes 13 minutes and 16
seconds from RS23 (PL2) to RS23
13m16s
Shorter Shuffle 18m/m
New Shearer Gate End Automation
14m22s
Previous Shearer Gate End Manual Cut
Incremental Horizon Control
------- Manual ------- Pre-Defined Roof ------- Recorded Roof ------- Pre-Defined Floor ------- Override ------- FX1 ------- Incremental
O/R
------- Height
Threshold
Operator lowers but
function cancels at
Incremental Override
setting.
Operator raises to cancel
Incremental Override
Function. Drum returns to
Profile.
Operator raises but
function cancels at
Incremental Override
setting
√ √ √
Treat all these button pushes like One Touch Shear on a Miner
Future Upgrades
● CME initiated wedge cuts.
● Integrated power management.
– BSL, AFC, TX, conveyor optimisation.
– Allow shearer speed to be adjusted at each part of shear.
● CH4 spike minimisation via shearer speed control.
– Slowing down at shield 115 when gas is already high to minimise
total delays.
● Anti collision.
– Change in pan angles and shields not in correct positions more
likely to cause collisions.
38
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