Kosova Lignite Power Investors Conference January 2010
Power / Mining Asset Background
PricewaterhouseCoopers LLP
Kosovo’s Geology and Lignite Deposits
Kosova has varied geology and remarkably rich metallogenic endowment and large lignite sedimentary basins. Kosovo Lignite Power PricewaterhouseCoopers LLP
January 2010 Slide 3
Kosovo’s Lignite Basins
Reserves [Million Tonnes] Lignite Basin
Area [km2]
Geological
Exploitable
t
tce
t
tce
Kosova
264
11500
2957
9804
2521
Dukagjini
95
2737
782
1625
464
Other
87
22
74
19
Total
14324
3761
11503
3004
Kosovo Lignite Power PricewaterhouseCoopers LLP
January 2010 Slide 4
Sibovc Mining Field
4729000
3´
Sibovc Lignite Field
L ig n ite P in c h -o u t
Area: 19.7 km² S tru c tu r M a p
N o rth
4728000
Geological Reserves: 990 mt
4727000
0 5 0 0Reserves: 1 0 0 0 1 5 0 0 2 0 0 0 830 mt Exploitable O b iliq
TPP B
L a jth is h t
2´
S ib o v c J a n jin a V o d a
S ib o v c
4726000
TPP A
P a la j
S o u th
5 4 5. 8 4
5 46 . 5 4
5 4 5 .3 0
5 46. 83 54 7.4 5
5 4 7 .9 4
5 4 5 . 62
54 8 . 1 6 5 4 8 .4 9
54 3 . 3 8
5 6 7 . 76
5 67. 73 543 .59
5 48 . 9 4
56 7.4 0 567 .27
5 6 7 .7 5
5 6 7 .7 6
5 6 7 . 25
5 6 7 .2 0
5 49. 39
56 7 .9 4
56 6.9 7 5 6 6 .5 4
542 .58
A sh Dum p
5 66. 17
56 8.4 0 5 4 2 .9 2
5 68 .2 6
54 2 .2 0 5 68 .4 2
5 60. 86
5 6 8 .3 0
5 4 2. 7 2 5 6 0 .1 4
5 6 8 .7 3
5 7 3 .9 4
5 43. 29
5 58 . 4 5
5 4 2 .6 1
552 .96 558 .15
573 .59
5 7 3 .7 2
543 .58
5 73 . 6 7 5 4 3 . 76 5 73 . 4 9 543 .58
5 6 6. 2 9
54 9. 4 6
566 .18
5 66. 40
5 5 0 .4 8 5 6 5 .9 7 56 5.7 6
5 4 9 .9 5 5 6 5. 9 9
5 4 9 .9 1
5 4 9 .9 8
5 6 5. 4 8
56 3.5 0
5 4 4 .2 3 544 .76
54 9 . 8 7
5 6 5 .7 5
5 6 5 .7 8 56 5.6 9
5 6 6 . 04
57 2 . 9 8
5 4 3 . 60
5 4 3 .8 0
5 49 . 9 6
5 43 . 9 9
564 .56
5 6 4. 2 1 50 .89
4725000
54 9.6 0
5 5 1. 8 5
56 3.8 9
55 3.0 5
5 4 1 .0 8
5 4 9 .5 2
5 6 4 .6 7
5 5 0 .2 4
5 4 0 .7 4
5 49 . 1 4 5 6 4 .3 7
5 4 0 .6 6
54 9.7 9
5 40. 46 5 4 9 .5 2
5 4 8 .4 8
56 4.5 2
5 4 0 .7 4
5 4 9 .3 9 56 4.6 3 5 4 7 .6 1 5 4 0 .9 3
5 4 9 .9 2 5 6 2 .9 5 5 4 8. 0 5
54 1.2 8
5 6 3 .1 2 546 .30
549 .06 540 .77
5 65 . 0 7
54 7.1 4
5 5 0 . 09 564 .56
540 .35
5 4 6 .5 8 5 50 . 3 2
56 4 .5 9
5 41. 02
5 46. 29 5 5 0 .8 9 564 .44
541 .20
5 4 6 .8 8
5 5 0 .7 1 54 7 . 3 0 5 6 4 .2 35
H ade
6 0 .8 5
5 5 0. 6 9 5 4 2 .2 5
5 7 4 . 9 52 6 9 . 58
5 4 8 .8 1
5 4 3 .3 1
54 7 . 1 5
5 6 9. 3 0 56 4.8 3 5 48. 15
5 69. 29
5 71. 00
5 50 . 9 3 5 7 7 .3 4
5 77. 51
54 7 . 8 9
5 5 2 .8 3
57 8.3 8
54 8 . 2 6
5 5 9 .6 8
5 4 5 .3 4
5 4 8 .2 2 5 5 2 .5 8
56 4.3 7 5 72. 81 564 .21 5 7 2 .0 5
5 41 .6 4
O u ts id e Dum p
5 7 4 .8 0 5 64. 96
5 41. 20
M ir a g e D e c o a le d
1
4724000
5 5 5 .78 1
5 6 4 .9 9
54 0 . 9 6
5 6 4 . 82 5 41 . 1 6
56 3.3 4
5 62 . 8 3 5 6 2 . 54 54 1 .3 0 5 6 2 .8 8
56 2.9 0
5 4 1. 7 9
5 6 2. 2 8 5 6 0. 7 8
541 .96
5 61 . 6 9 5 4 2 .5 7
K ru s h e c
5 6 2 .3 6 5 4 2 .3 7 56 2.4 9
54 2.9 7 5 6 3 .7 8
54 4 . 1 7
5 6 5 .3 1
558 .22
5 7 5 .3 3
A sh Dum p
D -F ie ld 5 59. 38
5 7 2 .0 1
5 70. 29
5 5 9 .9 9
5 69. 70
5 71. 62
5 62. 81
5 6 8 .9 3
56 9.2 7
5 6 4 .5 5
56 5.8 8
5 6 9 .1 4
5 6 6 .1 0
5 6 8 . 32
5 6 9 .0 4
5 6 8 . 92
56 9.1 7
5 7 0 .9 7
5 74 . 0 4
60 9.6 4
6 08 .7 1
5 45. 30
6 1 0 . 65
5 7 8 .8 8
5 4 5. 8 6 5 6 1 . 70
6 19. 35
S = 2 3 4.3 56 5 hA
56 5 . 4 3
5 46 .6 3
6 2 2 .2 6
58 1.6 9
6 2 3 .5 9
56 2 . 3 8 5 4 8 .4 5
6 22. 19
5 8 3 .9 7
5 6 1. 9 1
5 5 0 .4 7 6 1 3 .2 7
5 61 . 6 0 5 4 3 .8 3
5 4 4 .8 4
5 4 6 .3 9
5 4 8 .8 1
5 4 9 .9 6
618 .39
58 5 . 6 7 6 1 8 .7 0
55 6.9 0
5 57 . 5 4
6 1 5 .8 5 6 1 0 .4 8
5 5 6 .7 4 5 4 2 .0 6
5 4 2 . 21
585 .85 6 13. 88
5 53. 60
5 48. 87
54 6 . 0 3
5 4 4 .7 8
5 4 0. 6 0
58 5 . 7 6
5 5 7. 4 6
5 4 2 .9 8
5 5 1 .0 7
5 4 6 .4 6
6 0 9 .6 4
5 86 .3 0
6 1 1 .7 8 54 6. 5 0 6 1 2 .0 2
5 4 0 .1 4 5 8 5 .7 7
610 .01
54 5 . 4 5 6 1 1 .4 9
53 9 . 7 1
5 8 5 .5 6
5 47 .0 1 5 3 9 .3 1 608 .48 5 4 9 .8 1
5 3 9 . 51
605 .74
1´
5 58 81 .13 .16 5
5 48. 68 53 8.8 3 6 0 2 .4 7
M ir a g e SE
M e s o z o ic O u tc ro p
5 47. 88 5 49. 00
5 3 8 . 34
6 01 . 5 2
579 .09
598 .14
5 38. 26 5 4 6 . 89
5 7 6 .9 8
5 4 0 .2 3 54 0.4 8
5 4 5 .4 2
5 37. 70
5 46. 52
5 37 . 8 3 5 3 7 .8 1 5 3 7 .1 3
57 5.1 2
54. 76
5 8 6 .3 8
5 7 2 .0 0
5 3 7 .3 8 545 .99 568 .54 5 7 9 .6 2
5 4 4 .4 2
53 6.8 8
5 6 5 .3 9
5 7 9 .9 1 5 36. 86
5 44. 28
5 7 8 .3 3
5 4 2 .7 9
5 37 . 1 0
5 63. 51
576 .65 5 6 2 .9 6
5 4 3 .5 2 537 .76 576 .93
5 4 2 .8 1 53 7.4 2
5 6 2 . 70
5 40 . 7 7 57 8.7 1
5 3 7 .6 0
5 6 2 .1 2 5 41. 90 5 37 . 8 1
5 6 2 .2 0
5 80. 67
5 4 7 .2 5 5 7 2 .2 7
5 3 7 . 97
5 6 0 .9 8
54 6.5 8
5 3 8 .7 4
574 .02
54 3.1 9
5 6 0 .3 1
5 39. 38 571 .90 5 4 0 .4 4
5 59 . 8 9
5 3 9 .3 8 5 7 2. 1 5
5 43 . 1 6
5 4 0 .0 7 5 3 9. 7 3 5 3 9 .3 3
5 59. 40
5 4 7 .6 9 54 9. 3 9
5 5 0 .6 7
5 7 1 .2 1
5 3 9. 9 6
5 58. 13 5 4 0 .6 1
5 71. 50 54 6.1 0
5 4 1 .3 8
5 57 .6 3
5 4 5 . 71 5 41 . 5 9
55 7.1 7 56. 32
5 4 4 .5 3
2
4723000
Kosovo Lignite Power PricewaterhouseCoopers LLP
557 .26 5 5 7 .6 3
5 61. 63 5 47. 51
B a rd h
7502000
5 6.6 4 5 47. 92
5 40. 47
5 48. 46
555 .27
5 63. 70 55 0.2 3 562 .08
540 .89 5 5 0. 2 1
5 5 4 .3 2
5 4 1 .7 9
5 59. 61 5 50. 79
5 59 . 2 9
5 62 . 2 2
5 5 1 .9 3 5 52 . 7 4 55 3.7 5 5 5 2 .9 9
5 3 .0 9
54 5 . 9 5
Dum p
7504000
5 54. 16 554 .57
56. 36
5 5.6 5
5 5 1 . 71
5 5 6 . 2 95
5 5 2 .0 0
547 .30 5 4 7 .8 6 5 4 9 .9 6
550 .51
552 .33
5 51. 79 5 2.8 7
5 5 1 .7 1
N a k a ra d e
" S o u th -F ie ld " 7503000
561 .52
5 51. 42
5 4 4 .2 6
O u t s id e Dum p
5 5 3. 2 1
5 6 2. 8 5
5 50. 32551 .18 5 4 2 .8 4
D e c o a le d
7501000
5 6 2 .1 9
5 4 0 .4 8
3
7500000
564 .80
56 3 . 7 4
5 4 8 . 32 5 40. 62
4722000 7499000
5 6 5 . 68 5 6 5 .8 2
5 4 7 .9 4
54 1 . 0 8
L is m ir
7505000
7506000
7507000
7508000
7509000
7510000
7511000
January 2010 Slide 5
Sibovc Mining Field Cross Sections 800
800
8546 7243 8378 8311
552 544
550
6498
526 511
500
562 8797 9680
561 549
8709 9613 7361 9521 9211 9232 9077 8734
8604 8793 8948 6695
4937319
488
9337 9471 9965 8818 9818 8667 9178
450
562 556
613
8847
6783
485
8537
476 473
468
69
BmDJ4XXIX6/ 631
BmDJ4XXX0/ 620 615
750
700
BmE0XXIX2/ 659
613
BmDJ6XXIX4/ 648
613
BmDJ3XXX1/ 607
BmDJ2XXX2/ 592
BmDJXXX4/ 564
BmDJ0XXX6/ 526
BmD6XXXI2/ 448
SbD4XXXI4/ 403
SbD4XXXI6/ 385
SbD0XXXII2/ 308
SbG4XXXIII0/ 221
G3XXXIII1/ 205
633
632
620
650
605
600
589
8927 9123 537 6950 8801 6858 9064 9228 10124 5133 528 9822 8843 9475 9144 8692 9437 8156 7955 8859 7444 7955 8600 6213 472 6762 473
542
469
531
538
538 515
512
515
507
500
495 475 461
461
584 550
541
7930
6963
8449
626
602
Erosion
8047 547
8361
486 4817507 475 469
631
599
9203 8679
7235
8459 6925
491 490
8683 8801 9077
8801
631
623
D-Field
578
564 556
9002
8570
9370 7884
462
SbG2XXXIII2/ 187
599
571 560
5577375 8269 8989 9056 7214 8387 8470 8399 8840 9437 8156 8194 8160 8504 7691 6088 3500 3768 6603 500
G1XXXIII3/ 176
593
9098 8419
G1XXXIII4/ 153
SbV2XXXIV6/ 56
609
8382 8101 8462
578 572
GXXXIII5/ 142
600
646
609 603
SbV6XXXIV0/ 112
8616 7356 6183 6067 6833 7005 6415 7771
SbV6XXXIIV0/ 90
628 623 3919
SbV4XXXIV4/ 75
Meter Above Mean Sea Level
650
SbV2XXXV0/ 44
SbV0XXXV2/ 22
700
Bardh-Mirash SbG6XXXII4/ 277
Sibovc
750
469 461
466 450
472
490 470
464 460
451
449 444
444 431
448 441
449 440
460
450
443 441
439 426 425
417 407
400
400
395 374 373
350
350
300
300
0
250
500
750
1000
1250
1500
1750
2000
2250
2500
2750
3000
3250
3500
3750
4000
4250
4500
4750
5000
5250
5500
5750
6000
6250
6500
6750
7000
7250
7500
7750
8000
Section Meter
S e c tio n 2 - 2 '
S e c tio n 2 / 2 `
SW
NE
800
800
S ib o v c 750
581 573 562
550
E r o s io n ?
557
9052
9592 9865
538
537
9722 9320
7285
882 6
9360
9437
8535
9006
8260 7825
44 66 62
477
6 8 8 83 7 5 9
464
6 850
531
992 0 9 665
9463
8275
8232
468 464 456 447
539
535
987 7
9625
9 509
727 3
450
10183
9375
9360 7745
4 7 10
8510
520
8265 6060
494
6120
482
469 461
4 6 43
91 69
74 94
512 503 493
D J 7 X X X III1 / 2 0 4
S b D J 6 X X X III0 / 2 1 7 8596 7051
519 501
542 532 525
541 91 10
8235
7771
574
544
91 57 8 642 9106 8863 8160 8742
9355
600
584
583
577
650
559 551
537
9 530 10045 85 05 9275 8400 89 90 914 0 92 50 8455 8435 7345 8070
D J 5 X X X II7 / 2 3 3
D J 3 X X X II5 / 2 6 1
S b D J 2 X X X II4 / 2 8 6
D J X X X II2 / 3 1 6
S b D 4 X X X I6 / 3 8 5
S b D 2 X X X I6 / 3 6 6
592 581
544
9665 9730
9693 9530
7315
44 88 30
607
556 540
9010 8466
500
583
100 45 9035
541 530 524
632
626
595 585
S b E 0 X X X III2 / 1 9 4
586
649
700
S b D J 4 X X X II6 / 2 5 0
599
598
S b D 2 X X X I4 / 4 1 5
G 3XXX7/ 511
S b G 4 X X X I0 / 4 8 7
SbG 2XXX6/ 521 598
597
S b D 0 X X X I4 / 4 1 3
596
S b G 6 X X X I2 / 4 6 0
600
SbG 0XXX4/ 558
SbV7XXX4/ 550
M e te r A b o v e M e a n S e a L e v e l
650
S b D 6 X X X II0 / 3 3 5
750
700
508 502
7051
549 535
550
7 411 6126
Area:
19.7 km2
Geological reserves:
990 m t
Exploitable reserves:
830 m t
524
55 11 64
500
480
Overburden to Coal Ratio: 0.9 m3: 1 t
465
450
400
400
350
350
300
2
Key parameters
Average Coal Seam Thickness: 75 m
300
0
250
500
750
1000
1250
1500
1750
Kosovo Lignite Power PricewaterhouseCoopers LLP
2000
2250
2500
2750
3000
S e c tio n M e te r
3250
3500
3750
4000
4250
4500
4750
5000
5250
5500
2`
January 2010 Slide 6
4729000
100
L ig n it e P in c h -o u t
D is ta n c e to n e a r e s t b o r e h o le [m ] in N - S , W - E d ir e c t i o n
4729000
L ig n it e P in c h - o u t
90 80
S e a m T h ic k n e s s [m ]
B o r e h o le S p a c in g A r e a o f In f lu e n c e M a p
4728500
70
4728000
60
4728000
>500 354
50 40
TPP B
L a jth is h t
0
500
1000 1500 2000
2 5 0 -5 0 0
4727500
20
S ib o v c
0
0
O b iliq
4727000
500
1000 1500 2000 177
S ib o v c
10
J a n j in a V o d a
TPP B
L a jt h i s h t
30
O b iliq
4727000
J a n jin a V o d a
4726500
<=250
[m ] 4726000
0
4726000 TPP A
P a la j
5 4 5.8 4
5 46 .5 4
5 45 .3 0
54 7.4 5
54 7. 94 5 48 .1 6 54 8. 49
5 67 .7 6
5 67 .73
5 67 .4 0
5 48 .9 4 5 67 .2 7
56 7. 5
5 67 .76
5 67 .25
5 67 .2 0
54 9.3 9
56 7 .94
56 6. 97 56 6. 54
Ash Dum p
5 6 .17
56 8. 40
56 8. 26
5 68 .4 2
5 60 .86
56 8.3 0
56 0. 14
5 68 .73
5 73 .94
54 2.6 1
5 58 .4 5
5 52 .9 6
5 58 .1 5
5 73 .5 9
5 73 .72
5 43 .5 8
5 73 .67 5 43 .76 57 3.4 9 5 43 .5 8
5 4 4.7 6
5 1. 85
54 6.8 3
5 47 .4 5 5 47 .9 4
54 8.1 6 54 8. 49
5 73 .9 4
5 42 .61
5 58 .4 5
5 2.9 6
5 58 .1 5
57 3.5 9
5 73 .72
54 3. 58
5 73 .6 7 5 43 .7 6
57 3.4 9 5 43 .5 8
56 7. 40
5 48 .9 4 56 7. 27
56 7. 25
56 7. 20
54 9. 39 5 6 .9 7 5 6 .54 5 6 .1 7
5 6 .2 9
54 9. 46
56 6.1 8
5 6 .4 0
5 0. 48 5 65 .97 5 65 .7 6
54 9. 95 5 65 .9
5 43 .6 0
54 4.2 3 54 4. 76
54 9. 91
54 9. 98
5 65 .4 8
5 63 .50
5 49 .9 6
54 3.9 9
5 64 .5 6
56 4. 21 5 0.8 9
4725000
54 9.5 2
5 49 .14
54 8.4 8
5 64 .5 2
54 9.3 9 5 64 .6 3 54 7.6 1
5 49 .92 5 62 .95
54 8.0 5
5 49 .8 7
56 5. 75
56 5.7 8 56 5.6 9
5 6 .04
57 2.9 8
5 43 .8 0
56 4. 67
5 64 .3 7
5 49 .5 2
5 41 .2 8
5 46 .54
5 67 .7 6
56 7. 73 5 67 .7 5
5 67 .76 5 67 .94
A sh Dum p
5 68 .7 3
5 43 .2 9
54 9 .91
54 9. 98
5 49 .9 6
54 9. 79
5 40 .9 3
5 45 .8 4
5 45 .3 0
5 45 .62
54 3. 38
5 60 .14
5 49 .8 7 56 5. 75
56 3.8 9
5 3. 05
56 8. 30
54 2. 72 54 9. 95
5 65 .9
5 6 5.7 8
5 64 .5 6
54 0. 46
5 40 .7 4
56 8. 26
5 60 .8 6
5 65 .76
5 6 5.6 9
5 65 .4 8
5 0. 24
54 0. 6
54 3.5 9
5 68 .4 2 5 0. 48 56 5 .97
56 6. 04
5 50 .8 9 54 9. 60 5 41 .0 8
54 0. 74
5 42 .5 8
54 2. 92
54 2. 0
5 6 .40
5 43 .9 9 56 4. 21
4725000
TPP A
54 9. 46
5 6 .1 8
5 63 .50
5 4 .2 3
P a la j
56 8. 40
56 6. 29
57 2.9 8
5 43 .60
54 3. 80
4725500
54 6. 83
5 45 .62
54 3. 38
5 43 .5 9
5 42 .5 8
54 2.9 2
5 42 .2 0
5 42 .7 2
5 43 .29
5 49 .60
5 51 .85
56 3.8 9
5 3. 05
54 1. 08
54 9.5 2
5 64 .67
5 50 .24
5 40 .74
5 49 .14 5 64 .3 7
5 40 .6
5 49 .79
5 40 .46
54 9.5 2
54 8.4 8
5 64 .5 2
54 0.7 4
54 9. 39 56 4.6 3 54 7.6 1
5 49 .92
54 0.9 3
5 62 .95
54 1.2 8
54 8.0 5
56 3.1 2
5 63 .1 2 5 46 .30 5 46 .30
5 49 .06 5 40 .7 7
54 9 .06 5 40 .7 7
5 65 .07
56 5 .07 5 50 .09 5 50 .09
5 64 .5 6
5 40 .3 5
54 6. 58
54 6. 58
5 50 .3 2
5 50 .3 2
54 6. 29 54 6. 29
5 50 .8 9
5 50 .8 9 5 64 .4 4
54 6.8 8
5 60 .8 5
57 4. 29 5 69 .5 8
54 3. 1
Hade
5 47 .3 0
5 64 .23 5 50 .6 9 5 42 .2 5
5 48 .8 1
54 7.1 5
5 6 9.3 0 5 64 .8 3 54 8.1 5
56 9. 29
57 1.0 0
4724500
5 0. 93 5 7 .3 4
57 7. 51
54 7. 89
5 5 2.8 3
5 78 .3 8
54 8. 26 54 8 .2 5 45 .34
5 9. 68
5 52 .58
5 64 .3 7 57 2. 81 5 6 4.2 1 5 41 .6 4
D e c o a le d
4724000
5 5 .78 1
57 4 .80 5 64 .9 6
5 62 .28 56 0. 78
56 1.6 9
54 2. 57
56 2.3 6 54 2.3 7
56 2. 49
5 42 .9 7 56 3. 78
54 4. 17
57 5.3 3
A sh Dum p
56 4. 82
5 6 3. 4
5 62 .83 56 2. 54
56 2. 8
56 2. 90
5 41 .9 6
5 72 .0 5
56 4. 9
54 0.9 6
54 1. 20
54 1. 16
54 1. 30
54 1. 79
56 5. 31
5 8. 2
5 70 .2 9 56 9. 70
5 9. 9
5 71 .6 2
5 62 .8 1 56 8. 93 5 69 .27
56 4.5 5
5 65 .8
5 69 .1 4
56 6.1 0 5 68 .32
5 69 .0 4
5 68 .92
5 69 .17
lin e 0 2
O u ts id e Dum p
5 9. 38 57 2. 01
57 0. 97
5 50 .7 1 5 47 .3 0 5 64 .2 3 5 50 .6 9
57 4. 29 5 69 .5 8
58 3.9 7
56 1 .91
5 50 .4 7
6 13 .2 7
56 1. 60 54 3. 83
5 4 .8 4
54 6. 39
5 4 8. 1
5 49 .9 6
6 18 .3 9
5 85 .6 7 61 8. 70
5 56 .90
5 7. 54
6 15 .8 5 6 10 .4 8
5 56 .74
54 6. 03
5 85 .8 5 61 3. 8
5 3.6 0
54 8 .87
5 4 .78
5 42 .2 1
5 85 .7 6
5 7. 46
54 2.9 8
5 42 .06
54 0. 60
5 46 .46
5 1. 07
5 0. 93
57 7. 51
6 09 .64
D e c o a le d
56 2. 36
56 2. 49
54 2.9 7 5 63 .78
5 4 .17
5 4 .76
5 86 .38
5 72 .0 0
4723500
5 65 .3 9
5 63 .5 1
5 76 .65 56 2. 96
57 6. 93
5 42 .8 1 53 7.4 2
56 2. 70
54 0. 7 53 7.6 0
5 78 .7 1 5 62 .1 2
54 1. 90
5 62 .2 0
5 80 .6 7
54 7.2 5
57 2. 27
5 37 .9 7
56 0. 98
5 46 .5 8
57 4. 02
54 3. 19
56 0. 31
5 39 .3 8
57 8. 8
lin e 0 7
M e s o z o ic O u tc ro p
56 8. 54
lin e 0 6
5 62 .9 6
5 76 .9 3 5 62 .7 0
5 40 .7 7
5 37 .6 0
57 8. 71 56 2.1 2
5 41 .9 0 53 7. 81
56 2. 0
5 80 .67
5 47 .2 5
5 72 .2 7
5 37 .97
5 60 .98
54 6. 58
53 8. 74
5 74 .0 2
5 43 .1 9
5 60 .31
53 9. 38
57 1.9 0 5 40 .4 4
5 9. 89
5 39 .3 8 5 7 2.1 5
54 3. 16
54 0. 07 53 9. 73 53 9. 3
5 9. 40
5 47 .6 9 5 49 .39
5 50 .67 5 7 1.2 1
5 39 .96
58 .13
5 40 .6 1
5 71 .5 0 54 1.3 8
5 8. 13
54 6. 10
5 57 .6 35
5 45 .7 1 54 1. 59
5 50 .23
56 2. 08 5 0. 21
5 4.3 2 5 9. 61 5 50 .7 9 5 50 .3 2
5 9.2 9
5 53 .2 1
56 2. 85
5 1. 18
56 2. 2
5 42 .84
5 61 .5 2
5 51 .4 2
5 2. 74
54 4.2 6
5 1. 93
5 53 .7 5 5 2. 9
5 54 .1 6
5 53 .09
5 45 .9 5
5 5. 65
5 5 4.5 7
5 56 .2 95
56 .36
5 51 .7 1
5 52 .0 0
5 47 .30
54 7. 86 5 50 .5 1
5 49 .9 6
5 52 .3 3
5 51 .7 9 5 2 .87
5 51 .7 1
N a k a ra d e
D e c o a le d
4722500
lin e 0 5
7508000
7509000
7510000
7511000
7499000
5 65 .68 5 6 5.8 2
54 7. 94
5 41 .0 8
56 4. 80
5 63 .7 4
5 48 .3 2
5 57 .2 6
5 40 .6 2
5 7.6 3 5 61 .6 3 54 7. 51
56 2. 19
5 6. 64
5 40 .48 54 7. 92 54 0 .47
5 50 .2 3
5 62 .08 5 0. 21
5 54 .3 2 5 9. 61
54 1.7 9
5 50 .7 9
5 53 .2 1
5 9. 29
5 50 .3 2
5 62 .8 5
5 1. 18
5 62 .2 2
5 42 .84
56 1.5 2
5 51 .42
5 1. 93
5 2.7 4
54 4.2 6
Dum p
5 5. 27
56 3. 70
54 8. 46
5 40 .8 9
5 53 .75
5 52 .9 9
5 4. 16
5 3. 09
5 45 .95
O u t s id e Dum p
4722000
L is m ir
5 5 7.1 7 5 6 .3 2
5 4 .5 3
lin e 0 8 l i nl i en 0e 30 4
4723000
5 56 .6 4
5 5 .2 7
56 3. 70
54 8. 46
54 1.7 9
5 56 .3 6 5 6. 92
5 5 .6 5
5 54 .57
5 51 .7 1
5 52 .0 0
54 7. 30
54 7.8 6 5 0. 51
5 49 .96
5 52 .3 3
5 1 .79 5 52 .8 7
5 51 .7 1
N a k a ra d e
L is m ir
7500000
7501000
7502000
7503000
7504000
7505000
7506000
7507000
7508000
7509000
7510000
7511000
Borehole Spacing
Coal Seam Thickness
L ig n ite P in c h -o u t
3 2 2 2 2 1 1 1 1 0 0 0 0
O v e rb u rd e n to C o a l R a tio
4728000
TPP B
L a jt h is h t
O b iliq
4727000
56 3. 51
57 6. 65
42 .81
5 57 .63
5 57 .17
5 7. 26
5 7. 63 5 61 .6 3 56 2. 19
7. 92
5 40 .8 9
4729000
56 5. 39
5 78 .3
5 42 .79
5 37 .4 2
57 1.5 0
56 5. 82
5 64 .80
56 3.7 4
5 48 .32
54 7.5 154
54 0. 47
7507000
5 79 .6 2
5 79 .9 1
5 65 .6 8
54 7. 94
54 0. 48
7506000
57 2.0 0
5 45 .9 9
54 4. 42
5 4 .28
5 43 .5 25 5 37 .76
57 1. 21
56 6. 32
5 4 .5 3
5 40 .62
7505000
5 86 .3 0
5 85 .7 7
5 85 .5 6
5 581 83.1 .156
5 86 .3 8
5 37 .3 8
5 45 .71
5 41 .0 8
7504000
6 09 .64 6 1 .7 8
54 6. 10
5 41 .5 9
7503000
5 85 .85 61 3. 8
57 9.0 9
57 6. 98
57 5. 12
54 4.7 6
53 7. 13
5 37 .10
5 9.8 9
5 0. 67
5 41 .3 8
7502000
5 85 .7 6
6 10 .4 8
61 2. 02
60 1. 52 5 98 .1 4
5 59 .4 0
54 7 .69 54 9. 39
7501000
5 85 .6 7
6 15 .8 5
6 10 .0 1
5 49 .0 0
54 5. 42
5 46 .5 2
53 7. 81
5 36 .8 8
57 2. 15
5 43 .1 6
54 0. 61
7500000
5 83 .9 7
6 18 .3 9 61 8. 70
53 6. 86
57 1 .90 54 0. 4
53 9. 6
7499000
5 81 .6 9
61 3.2 7
60 5. 74
5 47 .8 8
5 46 .89 5 40 .2 3 5 40 .4 8 53 7. 70
5 37 .8 3
53 9.3 8
Dum p
5 74 .0 4
6 2 .1 9
6 08 .48 54 9. 81
6 02 .4 7
5 68 .5 4
4722000
57 0. 97
6 2 .2 6
61 1. 49
54 7. 01
5 39 .5 1
57 9.6 2
57 9. 91
5 78 .3 3
5 42 .7 9
54 3. 52
39 .3 3
5 68 .9 2
6 19 .3 5
53 9. 71
53 9.3 1
5 38 .83
5 38 .3 4
54 5. 9
5 4 .42
5 39 .7 35
56 9.0 4
6 10 .6 5
5 1. 07
54 8.6 8
5 4 .2 8
5 40 .0 7
5 68 .3 2
5 7. 46
5 56 .90
5 3.6 0
5 48 .8 7 5 46 .4 6
5 46 .50
5 38 .26
53 7.8 3
O u ts id e Dum p
56 6. 10
62 3.5 9
5 85 .7 7
53 7. 38
D e c o a le d
56 5.8 8
5 69 .1 7
6 09 .64
54 2. 1
5 85 .5 6
5 581 83.1 .156
5 79 .0 9
57 6. 98
57 5.1 2
5 37 .7 6
4723000
5 64 .5
56 9.1 4
5 4 8. 1 5 49 .9 6
5 7. 54
61 1. 49
60 5. 74
5 37 .1 0
5 38 .7 4
56 9.2 7
60 8. 71
54 6. 39
5 56 .74
60 8. 48
5 37 .81
56 2. 81 5 68 .9 3
56 1. 60 5 4 .8 4
5 46 .0 3 5 4 .7 8
60 2. 47
6 0 1.5 2
59 8. 14
5 37 .81 5 37 .13
5 59 .9 9
57 1. 62
5 50 .4 7
5 43 .8 3
54 2. 98
5 42 .0 6
5 4 9.8 1
5 48 .6 8
54 7. 8 5 49 .0
5 45 .4 254
54 6. 52
53 6. 8
56 9.7 0
56 1. 91
5 40 .6 0
54 0. 48
5 36 .86
5 70 .2 9
56 2.3 8
5 86 .3 0
6.8 9
M e s o z o ic O u tc ro p
5 59 .3 8 57 2.0 1
S = 2 3 4 .3 5 6 5 h A
56 5. 43
54 5. 45
6 10 .0 1
5 45 .4 5
5 8.2 2
5 75 .3 3
5 61 .7 0
54 8 .45
5 40 .1 4
5 47 .0 1
53 9. 51
5 5 .718
57 4. 80
5 4 5.8 6
54 0. 14
53 9.7 1
5 39 .3 1
56 5. 31
5 45 .3 0
5 46 .6 3
53 8. 3
53 8. 34
5 72 .05
56 1. 69
54 2. 37
61 2. 02
5 3 8.2 6
54 0.2 3
5 37 .70
5 52 .8 3
5 2. 58
57 2.8 1
5 60 .7 8
5 42 .57
6 1 .7 8 54 6. 50
5 48 .1 5
5 71 .0 0
5 7 .3 4
5 78 .3 8
54 8. 2 5 9. 68 5 64 .3 7
5 6 4.2 1
56 4. 9
5 64 .9 6
A sh Dum p
56 4. 82
56 3. 4
5 62 .8 3 5 62 .54
56 2 .8
5 62 .2 8
4724000
5 81 .6 9 6 23 .5 9
6 2 .19
5 62 .90
54 1.9 6
5 78 .8
6 2 .2 6
56 2.3 8
5 47 .1 5
56 9.2 9
54 7. 89 54 8. 26
5 45 .34
54 1.6 4
54 0. 96
5 41 .2 0
5 41 .16
5 41 .3 0
5 41 .7 9
K ru s h e c
5 74 .0 4
61 9 .35
S = 23 4. 35 65 h A
56 5. 43
5 6 9.3 0 5 64 .8 3
6 10 .65
5 61 .7 0
54 8. 45
5 48 .8 1
54 3. 1
5 45 .8 6
5 46 .6 3
5 60 .8 5
5 42 .2 5
60 9. 64 6 08 .7 1
5 45 .3 0
54 6.8 8
lin e 1
5 50 .7 1
H ade
5 64 .4 4
54 1. 20
54 1. 20
K ru s h e c
5 64 .59
5 41 .02
56 4. 59
5 41 .02
O u ts id e Dum p
5 47 .1 4
5 47 .14 5 64 .5 6
5 40 .3 5
0
500
1000 1500 2000
S ib o v c J a n jin a V o d a
.0 .8 .5 .3 .0 .8 .5 .3 .0 .8 .5 .3 .0
C .I.= 1 0 m
4726000 P a la j
4729000
L ig n ite P in c h -o u t
4728000
TPP B
L a jth is h t
0
5 45 .8 4
5 46 .54
1000 1500 2000
S ib o v c J a n jin a V o d a
TPP A 54 5.8 4
54 6.8 3
54 6.5 4
5 45 .3 0 5 47 .4 5
54 5. 62
5 47 .9 4
5 46 .8 3 54 7. 45
54 5. 62
54 7 .94
54 8. 16
54 8.1 6 5 48 .49
54 3. 8
56 7. 73
5 43 .5 9
5 67 .76
56 7. 40 56 7. 25
56 7. 20
54 9. 39
56 8.3 0
5 68 .73
57 3. 94
5 58 .4 5 5 52 .9 6
5 58 .1 5 5 73 .5 9
57 3. 72
5 43 .5 8
5 73 .67 5 43 .7 6
57 3.4 9 5 43 .5 8
5 43 .60
5 4 .2 3 5 4 4.7 6
5 6 .1 7
54 2. 58 5 6 .2 9
5 42 .9 2
56 8 .42
5 0. 48 5 65 .9 7 5 65 .7 6
0. 86
5 60 .1 456
56 8. 73
54 9.8 7
56 5 .75
57 3. 94
54 3. 29 5 42 .6 1
5 8. 45
5 2. 96
5 8. 15
57 3. 72
54 3 .58
57 3. 67 54 3. 76 5 73 .4 9 54 3. 58
5 48 .49 56 7. 76
5 67 .4 0
54 8. 94 56 7.2 7
5 67 .2 5
56 7. 20
5 49 .3 9 5 6 .9 7 5 6 .5 4 5 6 .1 75
6 .2 9
5 49 .4 6
56 6. 18
56 6. 40
5 50 .4 8 56 5.9 7 56 5. 76
5 49 .9 5
56 5.9 9
54 9. 87 5 65 .7 5
5 65 .78
56 3. 12
5 49 .9 8
56 5. 48
54 9 .96
5 43 .9 56 4. 56
56 4. 21
54 7. 61
5 62 .9 5 54 8.0 5
5 0. 89 5 49 .6 0
5 1.8 5
54 1 .08
5 63 .8 9
5 3.0 5
5 40 .7 4
5 49 .5 2
5 64 .6 7
5 50 .2 4
54 9. 14 56 4. 37
5 40 .6 6
5 4 9.7 9
5 40 .4 6
5 49 .5 2
5 48 .4 8
56 4. 52
5 40 .74
5 49 .3 9 56 4. 63 5 40 .93
5 47 .6 1
54 9. 92 56 2.9 5 5 48 .0 5
5 41 .28
56 3. 12
5 46 .3 0
54 6. 30
54 9. 06 5 40 .7
54 9. 06
5 65 .0 7
54 0. 7
5 50 .09
5 65 .0 7
5 47 .1 4
54 7. 14
5 0 .09
56 4.5 6
5 40 .3 5
54 9. 1
5 65 .69
5 6 .0 4
56 3. 50
54 4 .23 5 4 .7 6
5 49 .1 4
54 8. 48
56 4.6 3
54 9. 92
5 41 .2 8
5 67 .7 3
54 3. 60
54 3.8 0
4725000
54 9. 52
5 64 .6 7
5 64 .3 7
56 4.5 2
54 9.3 9
5 40 .9 3
56 7. 5
57 2.9 8
54 9. 6
5 64 .5 6
5 49 .5 2
5 40 .7 4
5 73 .5 9
5 49 .91
54 9. 98
5 6 5.4 8
54 9. 79
54 0. 46
5 68 .3 0
54 2. 72 5 49 .95 5 65 .9 9
56 5. 78 56 5. 69
5 6 .04
56 3.8 9
5 3. 05
54 0. 6
56 8.2 6
54 2. 20 5 6 .4 0
56 4. 21
5 1. 85
5 0. 24
54 0. 74
Ash Dum p
56 8.4 0
5 49 .46
56 6. 18
56 3. 50
5 43 .9 9
5 50 .8 9 54 9. 60 5 41 .0 8
5 67 .76 56 7 .94
5 6 .5 4
57 2.9 8
54 3. 80
5 43 .5 9
5 6 .9 7
A sh Dum p
56 8.4 0
56 8. 26
5 68 .42
5 60 .86
56 0. 14
54 2. 61
54 3. 8
54 8.9 4 56 7. 27
5 67 .7 5
56 7. 76 56 7. 94
5 42 .5 8
54 2.9 2
5 42 .2 0
5 4 2.7 2
5 43 .29
.0 .8 .5 .3 .0 .8 .5 .3 .0 .8 .5 .3 .0
C .I.= 1 0 m
4726000 P a la j
5 45 .30
500
O b iliq
4727000
TPP A
4725000
3 2 2 2 2 1 1 1 1 0 0 0 0
O v e rb u rd e n to C o a l R a tio a n d S e a m T h ic k n e s s [ m ]
54 6 .58
56 4. 56
5 40 .35
5 46 .5 8 5 50 .32
5 64 .5 9
5 50 .32
5 41 .02
5 46 .29
5 64 .5 9
54 1. 02
5 46 .2 9
5 50 .89 54 1. 20
5 50 .8 9
5 64 .4 4
54 6. 8
56 4. 4
54 1. 20
5 50 .71
H ade
54 7 .30
5 6 0.8 5
57 4 92. 56 9.5 8
5 43 .3 1
5 48 .81
5 46 .8
5 50 .7 1
54 7.3 0
5 64 .2 3 5 50 .69 5 42 .25
56 4.8 3 54 8.1 5
56 9. 29
56 4. 23
H ade
54 7.1 5
56 9. 30
57 1.0 0
5 50 .93 5 7 .3 4
5 7 .51
5 50 .6 9
56 0. 85
5 42 .2 5 5 74 .9 256
9. 58
5 48 .8 1
5 4 3. 1
5 47 .1 5
5 69 .3 0 56 4. 83 5 48 .1 5
5 69 .2 9
5 71 .0 0
5 0. 93 57 7 .34
57 7.5 1 54 7.8 9
5 2.8 3
57 8.3 8
54 8.2 6
54 7. 89
5 9. 68
54 5 .34
5 52 .5 8
5 9. 68
54 5 .34
57 2. 81
56 4. 82
5 62 .83
5 63 .3 4
56 2. 54
56 2. 8
56 2. 90 5 62 .28
5 41 .9 6
5 48 .2 5 2. 58
5 64 .3 7
56 0. 78
56 1.6 9
D e c o a le d
4724000
5 72 .8 1 5 72 .0 5
54 2. 57
5 6 2.3 6 54 2. 37 56 2. 49
5 42 .9 7 56 3. 78
54 4. 17
56 5. 31
5 6 4.2 1
5 5 .78 1
56 4.9 9
5 41 .6 4
Ash Dum p
O u ts id e Dum p
5 8. 2
57 5.3 3
5 9. 38
57 2. 01
57 0.2 9 56 9. 70
5 9. 9
5 71 .6 2
5 62 .8 1 56 8. 93 56 9 .27
5 64 .5 5 5 65 .8
56 9 .14
5 6 .1 0 56 8. 32
5 69 .0 4
56 8. 92
56 9. 17
5 70 .9 7
5 74 .04
6 08 .71
S = 2 3 4 .3 5 6 5 h A
56 5.4 3
D e c o a le d
62 2. 26 58 1. 69
4724000
6 23 .59 5 62 .3 8
54 8. 45
62 2. 19
5 83 .97
56 1. 91
5 50 .47
6 13 .27
56 1. 60 54 3. 83
5 4 .8 4
54 6. 39
5 48 .8 1
5 49 .96
61 8. 39
58 5. 67 6 1 8.7 0
5 6. 90
5 7. 54
6 15 .85 61 0. 48
5 6. 74
54 6. 03 5 4 .7 8
5 40 .60
5 42 .2 1
58 5. 76
5 7.4 6
54 2. 98
5 42 .0 6
58 5. 85 6 13 .8 8
5 3.6 0
54 8 .87
5 1. 07
5 46 .46
60 9.6 4
5 86 .30
61 1. 78 54 6. 50
5 62 .3 6
5 6 2.4 9
56 3. 78
54 4.1 7
57 4. 04
5 78 .8 8
58 3. 97
61 3. 27
6 1 8.3 9
54 2. 81
57 6. 93 56 2. 70
5 40 .7
5 78 .7 1 56 2 .12
54 1 .90 5 62 .20
5 80 .6 7
54 7. 25
57 2. 27
56 0.9 8
54 6.5 8
57 4.0 2
5 43 .19
56 0.3 1
5 3 9.3 8 57 1. 90 54 0. 4
6 10 .4 8
5 59 .8 9
54 9. 39
6 09 .6 4
5 63 .5 1
57 6. 65 56 2. 96
5 43 .5 254 53 7. 76 2. 81
57 6.9 3
5 37 .42
56 2. 70
5 40 .7 7
5 37 .60
5 78 .7 1 5 62 .1 2
5 41 .9 0 53 7.8 1
5 80 .6 7
5 47 .2 5
5 62 .2 0
57 2. 7
56 0. 98
53 7 .97 54 6. 58
53 8.7 4
5 7 4.0 2
54 3.1 9
56 0. 31
53 9. 38 57 1. 90 5 40 .4 4
5 9. 89
5 39 .3 8
53 9. 73
57 2. 15
5 43 .16
5 59 .4 0 53 9. 3
54 7.6 9
5 58 .1 3
5 49 .3 9
57 1.5 0
5 0.6 7 57 1. 21
5 39 .9 6
5 7. 63
5 8. 13 54 0.6 1
5 7 1.5 0 5 41 .38
5 45 .71
5 46 .1 0
5 57 .63
5 7. 17
56 6. 32
5 4 .5 3
5 65 .3 9
5 78 .3 3
54 2 .79
53 7. 10
57 1. 21
5 65 .6 8
54 5. 71 5 41 .59
54 7. 94
5 41 .0 8
5 64 .80
5 57 .17
56 5. 82
5 6 .3 2
5 4 .53
56 3.7 4
5 48 .32
5 7. 26
5 40 .62
5 65 .6 8
5 50 .23
5 62 .0 8 5 0.2 1
5 4.3 2 5 59 .61
54 1.7 9
5 50 .7 9 5 50 .3 2
5 9. 29
5 53 .2 1
5 62 .8 5
5 1. 8
5 62 .2 2
54 2. 84
56 1. 52
5 51 .42
5 2.7 4
5 4 .2 6
5 3 .75 5 52 .9 9
5 3. 09
54 5. 95
54 7. 30
5 51 .93
5 6.3 6
5 4. 16 5 54 .57
5 5 .6 5
5 1.7 1
5 6. 29
5 2.0 0 5 47 .8 6 54 9. 96
5 0. 51
5 5 2.3 3
5 1 .79 5 52 .8 7
5 5 1.7 1
Overburden to Coal Ratio
Kosovo Lignite Power PricewaterhouseCoopers LLP
7507000
7508000
7509000
7510000
7511000
7499000
5 62 .1 9 5 6. 64 7. 92
54 0.4 7
54 8. 46
5 5. 27
5 63 .7 0 5 50 .23
5 40 .89
56 2.0 8 5 0.2 1
5 54 .3 2
54 1.7 9
5 59 .6 1 5 50 .7 9 5 50 .3 2
5 62 .2 2
56 1. 52
5 51 .4 2
5 2. 74
54 4.2 6
5 1.9 3
5 53 .7 5 5 2. 9
5 53 .0 9
5 45 .9 5
O u ts id e Dum p
5 3. 21
5 59 .29 5 62 .8 5 5 1. 18
54 2 .84
Dum p
4722000
L is m ir
5 7. 26
5 7. 63 5 61 .63 5 4 7.5 154
54 0. 48
D e c o a le d
N a k a ra d e
7506000
56 4. 80
54 0. 62
4723000
5 56 .6 4
5 5 .2 7
5 63 .70
54 8. 46
5 40 .8 9
5 63 .7 4
5 48 .32
5 62 .19
54 7. 92 54 0. 47
7505000
5 6 5.8 2
54 7. 94
54 1. 08
5 7. 63 56 1. 63 54 7.5 1
54 0. 48
7504000
58 5. 7
58 5. 56
58 831. .16 5
5 72 .0 0
5 6 8.5 4 57 9.6 2
57 9. 91
54 6. 10
5 41 .5 9
7503000
58 6. 30
6 1 .7 8
57 5. 12
5 86 .38
5 45 .9 9
54 4. 2
54 4. 28
54 0. 07 5 0. 67
5 41 .3 8
7502000
58 5. 85
6 13 .8
57 9.0 9
57 6. 98
5 46 .5 2
54 4.7 6
5 37 .38
5 59 .40
5 47 .69
5 40 .61
7501000
58 5. 76
61 5. 85
6 0 1.5 2
54 5. 42
5 37 .7 0
5 37 .83 53 7.8 1 5 3 7.1 3
5 36 .8
53 6.8 6
57 2. 15
54 3.1 6
53 9. 96
7500000
58 5. 67 6 18 .70
61 0. 1
59 8. 14
5 40 .23 5 40 .4 8
M e s o z o ic O u tc r o p
56 2. 96
54 3. 52
53 7. 97
53 9. 38
7499000
58 1. 69
62 3.5 9
6 2 .1 9
61 2 .02
5 63 .5 1
53 7. 42
53 7 .60
4722000
5 70 .97
6 2 .2 6
61 1. 49
54 9. 0
5 46 .89
5 37 .8 1
O u t s id e Dum p
5 68 .9 2
6 19 .3 5
60 8. 48
54 7.8 8
53 8. 26
5 72 .0
5 65 .3 9
5 78 .3 3
5 76 .65
53 7. 76
Dum p
56 9.0 4
6 10 .6 5
60 5. 74
60 2. 47
5 76 .9 8
5 75 .1 2
58 6. 38
5 68 .5 4
D e c o a le d
5 68 .32
5 51 .0 7
54 6. 46
5 49 .81
54 8. 68
57 9.6 2
57 9. 91
4723000
56 6.1 0
5 53 .6 0
54 8. 87
54 6.0 3
54 4. 78
54 2. 21 5 46 .5 0
54 5. 45
54 7. 01
5 39 .5 1
6. 89
39 .3 3
5 65 .8
56 9. 17
60 9. 64
54 2.0 6
54 0.6 0
5 40 .1 4
5 39 .71
53 9. 31
5 38 .3 4
5 45 .4 254
54 0. 7
5 6 4.5 5
5 69 .14
5 7. 46
58 5. 7
5 581 3.16 15
54 6 .52
5 3 9.7 35
56 9 .27
5 49 .9 6
5 38 .83
5 4 .7 6
5 38 .7 4
5 62 .8 1 56 8.9 3
6 08 .7 1
5 48 .8 1
5 56 .90
58 5 .56
54 2. 79
53 7.1 0
5 9. 9
5 71 .62
56 1. 60 54 6.3 9
5 7. 54
5 79 .09
54 5. 9
54 4. 28
56 9. 70
56 1 .91
5 50 .4 7
6 1 .4 9
6 05 .7 4
6 01 .5 2
5 37 .38
5 4 .4 2
5 9. 38
5 70 .2 9
56 2.3 8
54 8. 45
5 4 .84
5 6. 74
6 08 .4 8
54 0. 23 5 40 .48
5 8. 2
57 2.0 1
S = 2 3 4 .3 5 6 5 h A
56 5. 43
5 46 .6 3
54 3. 83
5 42 .9 8
60 2. 47
5 49 .0
5 37 .7 0
5 75 .3 3
Ash Dum p
5 45 .8 6 5 61 .7 0
5 47 .8
59 8. 14
5 37 .1 3
56 5. 31
54 5 .30
5 4 9.8 1
5 48 .6 8
53 7. 83 5 37 8. 1
5 61 .6 9
5 42 .97
6 12 .0 2
6 10 .01
54 5.4 5
5 47 .0 1
53 9. 51
53 6. 8
56 0. 78
5 42 .3 7
54 0 .14
53 9.7 1
5 39 .3 1
5 36 .8 6
56 2. 28
5 42 .5 7
53 8. 83
53 8. 34
53 8. 26
M e s o z o ic O u tc r o p
5 5 .78 1
5 64 .9 6
56 4. 82
56 2.9 0
57 8. 8
61 9. 35
5 61 .70
5 63 .3 4
56 2. 83 56 2. 54
5 62 .8 8
54 1. 96
61 0. 65
5 45 .8 6
5 46 .6 3
57 4. 80
5 40 .9 6
54 1. 20
5 41 .1 6
5 41 .3 0
5 41 .7 9
K ru s h e c
60 9.6 4 5 45 .30
57 2. 05
56 4. 9
5 74 .80
5 64 .9 6
5 41 .20
54 1. 16
54 1 .30
54 1. 79
K ru s h e c
5 52 .8 3
5 78 .38
54 8.2 6
54 8. 2
5 64 .3 7
5 64 .2 1 5 41 .6 4
54 0.9 6
O u ts id e Dum p
5 47 .30
5 4.1 6 5 4. 57
5 5 .65
5 6. 29
5 6.3 6
5 1. 71
5 2. 0 54 7 .86 5 4 9. 6
5 0.5 1
5 2. 3
5 1. 79 5 52 .8 7
5 5 1.7 1
N a ka rad e
L is m ir
7500000
7501000
7502000
7503000
7504000
7505000
7506000
7507000
7508000
7509000
7510000
7511000
Overburden to Coal Ratio and Seam Thickness
January 2010 Slide 7
Coal Quality Ash Content
13.85 %
LHV
8149 kJ/kg
Moisture
47.8 %
Sulphur
0.91% Total 0.32 % Comb.
Category
Percentage of Total Seam Volume
Average (kJ/kg)
0 0.1 0.6 5.8 23.4 48.1 21.5 0.5 100
3798 4639 5668 6675 7600 8510 9350 10113 8359
0.2 99.8
4953 8365
1. 1000 kJ Increments 3000-4000 4000-5000 5000-6000 6000-7000 7000-8000 8000-9000 9000-10000 10000-11000 Total
2. Cut-off 5400 kJ
Kosovo B Design Coal Quality: 5,233-7,953
<5400 =>5400
3. Minimum Input for TPP A (6270 kJ/kg) <6270 =>6270
1.2 98.8
5802 8390
4. Minimum Input for TPP B (6720 kJ/kg)
Kosovo B Operation Quality Zone: 5,233- 9,209
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<6720 =>6720
3.5 96.5
6289 8435
0.2 3.2 24.5 58.2 13.9 100
4974 6352 7478 8574 9525 8359
5. KEK Classification Scheme 0-5440 5440-6700 6700-7950 7950-9210 9210-11000 Total
January 2010 Slide 8
Comparative advantage of Sibovc Mining Field
Kosovo Lignite Power PricewaterhouseCoopers LLP
January 2010 Slide 9
Studies available for Sibovc Mining Field
Main Mining Plan for New Sibovc Mine (EAR, 2005)
To provide security, both in the technical and economic terms, of future electrical power production in Kosova, through the guarantee of the coal supply security and economical viability over the entire life of the existing power plants and the new power plants .
Complementary Mining Plan for Sibovc SW (EAR, 2006)
Other than the Main Mining Plan for New Sibovc Mine the Complementary Mining Plan for the Sibovc South West Lignite Field focuses on the fuel supply to the existing TPP assuming a coal demand of 9 mt/annum. The plan covers the period from 2007 to 2024 when all existing power capacities assumed to reach the end of their service life.
Kosovo Lignite Power PricewaterhouseCoopers LLP
January 2010 Slide 10
Exploration and Mining Licenses
Kosovo Lignite Power PricewaterhouseCoopers LLP
January 2010 Slide 11
Generation in Kosovo
In previous period two power plants were constructed:
Unit
Installed Power [MW]
NET Power [MW]
NET Available Power [MW]
Fuel
Start of operation
ď&#x192;&#x2DC;TPP Kosova A, five units with
A1
65
58
30-40
L/N
1962
different origins and total installed capacities of 800 MWe and in operation from 1962-1975 + Steam power plant, two units with 41 MWe and operation from 1970-1998
A2
125
113
0
L/N
1964
A3
200
182
130/145
L/N
1970
A4
200
182
120/145
L/N
1971
A5
210
187
135/150
L/N
1975
Power Plant
Kosova A
ď&#x192;&#x2DC;TPP Kosova B, two identical
units with same origin and total installed capacities of 678 MWe and in operation from 1983-1984
Kosovo Lignite Power PricewaterhouseCoopers LLP
Industrial Steam Plant
1x16 + 1x25MW = 41 MW
Not in operation;
1970
Kosova B B1
339
309
230/250
L/M
1983
B2
339
309
230/250
L/M
1984
G1
17.5
17.5
17.5
1983
G2
17.5
17.5
17.5
1983
HPP Ujman
January 2010 Slide 12
TPP Kosovo B design technical data Unit commencement day Boiler Maximal Steam production Temperature Pressure Technical minimum with main fuel Technical minimum with heavy oil Design lignite quality Operation zone Mils/Capacity Turbine Pressure Temperature Steam at nominal load Condenser Pressure Cooling water temperature Circulated water Generator Gross rated power Net rated power Internal consumption Kosovo Lignite Power PricewaterhouseCoopers LLP
Unit B1 Unit B2 10.09.1983 14.07.1984 Sulzer/Stein Industrie/France t/h 1,000 1,000 째C 542/542 542/542 bar 188.4/43.6 188.4/43.6 t/h 370 370 t/h 260 260 kJ/kg 5,233-7,953 5,233-7,953 kJ/kg 5,233- 9,209 5,233- 9,209 n (t/h) 8 (45-73) 8 (45-73) MAN/Germany bar 180.9 180.9 째C 540 540 t/h 909.35 909.35 bar 째C m3/h
0.062 0.062 23 23 30,000 30,000 Alsthom Atlantique/France MVA/MW 399/339.28 399/339.29 MW 309 309 % 8.9 8.9 January 2010 Slide 13
Units main exploitation data TPP Kosovo B for period 1984-2009 Unit B1
Unit B2
10.09.1983
14.07.1984
h
126,878
126,878
MWh
34,261,820
33,113,497
%
9.58
9.58
MWh
31,036,503
29,958,086
1,010 689 321 276
999 702 297 299
1,517,724 1,095,474 1,511,504
1,627,449 865,392 1,496,190
Unit commencement day Operating hours Gross electricity production Internal consumption Net electricity production Total number of outages -forced -planed -cold start Yearly net average electricity production: -1984-1989 -1990-1998 -2004-2009
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n
Units B1+B2
MWh 3,166,684 1,916,945 3,042,454
January 2010 Slide 14
Gross average power of units for period 1983-2009
Kosovo Lignite Power PricewaterhouseCoopers LLP
January 2010 Slide 15
Net electricity production in TPP Kosovo B for period 1983-2009
Kosovo Lignite Power PricewaterhouseCoopers LLP
January 2010 Slide 16
Age of generation units by life time cycle
Kosovo Lignite Power PricewaterhouseCoopers LLP
January 2010 Slide 17
Investments in Power Plant Kosova B
Total investments in the period 1999-2009: Fire damage repair, refurbishment, equipments supply, spare parts, new hydraulic ash transportation system, etc. â&#x201A;Ź 278,824,494 (funded by: EAR, SIDA, KTA, MEF, KEK) Total investments for period 2010-2012: In B1 and B2: low pressure turbine and generator rotors replacement, medium and high pressure rotor refurbishment, raw water supply canal repair, etc. â&#x201A;Ź 19,600,000 (to be funded: KEK, MEF)
Kosovo Lignite Power PricewaterhouseCoopers LLP
January 2010 Slide 18