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PT. ELNUSA GEOSAINS
FINAL REPORT 3D/2D SEISMIC SURVEY
BETARA/NAPAL & RUKU BLOCK PETROCHINA INTERNATIONAL JABUNG LTD.
ELNUSA GEOSAINS CREW A5.43
2005 - 2006
PETROCHINA INTERNATIONAL JABUNG LTD.
FINAL REPORT
BETARA / NAPAL & RUKU 3D/2D SEISMIC SURVEY J A M B I
2005 - 2006
ELNUSA GEOSAINS PARTY A5.43
Approved by : Submitted by:
John Mitchell Tri Harjianto Principal QC’s Representative Party Chief Distibution : 1. Exploration Manager PETROCHINA INTERNATIONAL JABUNG, Jakarta. 2. Client Representative PETROCHINA INTERNATIONAL JABUNG, Jambi. 3. Operation Manager ELNUSA GEOSAINS – GDA, Jakarta. 4. File.
ELNUSA GEOSAINS A5.43
SEISMIC DATA AQUISITION PETROCHINA INT’ JABUNG
SURVEI SEISMIK 3D/2D BLOK BETARA – NAPAL - RUKU
FOREWORD
PT. Elnusa Geosains conducted 3D/2D Betara/Napal-Ruku seismic survey for
PetroChina International Jabung Ltd on the island of Sumatera designated
“Betara/Napal-Ruku Block”. The Betara/Napal and Ruku block 3D/2D seismic survey
was in the administrative area of Jambi Province, Indonesia. 5 (Five) sub-contractors
supported the operations under the control of PT. Elnusa Geosains as the main
contractor.
This final report is a summary of 3D/2D seismic survey activity conducted by PT.
Elnusa Geosains party A5.43 for PetroChina International Jabung Ltd.
The 3D/2D Betara/Napal-Ruku block seismic survey commenced on August 24th 2005
with GPS surveyors establishing the first BM at 3D Betara block.
Topography surveying, drilling and recording were the next activities were then
mobilized as required for this project. Topography was started with 16 crews on
September 9th 2005 and finished on January 22nd 2006 at 3D Betara block (Phase-1),
and then at 2D Napal block (Original program, Phase-2) topography was started on
January 5 2006 and finished on January 17, 2006, for 2D Ruku block (Phase-3),
Topography was started on January 16, 2006 and finished on February 18, 2006.
Additional program for 2D Napal block (Napal extension, Phase-4); the activity
Topography was started on March 20, 2006 and finished on April 17, 2006. Line
cutting and bridging was started on September 16th 2005 and finished on January 24th
2006 at 3D Betara block (Phase-1), and then at 2D Napal block (Original program,
i Final Report
ELNUSA GEOSAINS A5.43
SEISMIC DATA AQUISITION PETROCHINA INT’ JABUNG
SURVEI SEISMIK 3D/2D BLOK BETARA – NAPAL - RUKU
Phase-2) started on December 28, 2005 and finished on January 14, 2006, For 2D
Ruku block (Phase-3) started on January 22, 2006 and Finished on March 4, 2006.
Napal block extension (Phase-4) started on March 24, 2006 and finished on April 20,
2006. Drilling activities was started on October 5th 2005 and finished on February 8
2006 at 3D Betara block (phase-1), and then at 2D Napal block (Original program,
phase-2) started on January 26th 2006 and finished on February 4, 2006. 2D Ruku
block (phase-3) drilling activity started on February 6, 2006 and finished on March
11, 2006. Napal program extension (phase-4) drilling activity started on April 2, 2006
and finished on April 27, 2006. Recording activities was started on November 13th
2005 and finished on February 20th 2006 for 3D Betara block (Phase-1), and then at
2D Napal block (Phase-2) started on February 24, 2006 and finished on March 3,
2006. 2D Ruku block (Phase-3) recording activity start on March 5, 2006 and finished
on April5, 2006. Phase-4 for 2D Napal extension was started on April 13, 2006 and
finished on May 1, 2006. Productions for the individual facets of the operation are as
follows:
1. 3D Betara Block (Phase-1)
Base line Observation production was 80 base lines ( program
completed )
GPS BM’s established were 45pcs ( program completed )
Receiver Line surveying production was 819.200 kilometers
( program completed )
ii Final Report
ELNUSA GEOSAINS A5.43
SEISMIC DATA AQUISITION PETROCHINA INT’ JABUNG
SURVEI SEISMIK 3D/2D BLOK BETARA – NAPAL - RUKU
Source Line surveying production was 1134.933 kilometers ( program
completed )
Receiver Line clearing/bridging production was 820.080 kilometers
( program completed )
Source Line clearing/bridging production was 1139.288 kilometers
( program completed )
Drilling production was 20,270 SP’s ( program completed )
Recording production was 20,270 SP’s ( program completed )
2. 2D Napal Block, include extension program (Phase-2 and Phase-4)
Line clearing/bridging production was 214.770 kilometers
( program completed )
Line Surveying production was 214.770 ( program was completed )
Drilling production was 3,586 SP’s ( program completed )
Recording production was 3,586 SP’s ( program completed )
3. 2D Ruku Block (Phase-3)
Line clearing/bridging production was 254.250 kilometers
( program completed )
Line Surveying production was 254.250 ( program was completed )
Drilling production was 4,244 SP’s ( program completed )
Recording production was 4,244 SP’s ( program completed )
iii Final Report
ELNUSA GEOSAINS A5.43
SEISMIC DATA AQUISITION PETROCHINA INT’ JABUNG
SURVEI SEISMIK 3D/2D BLOK BETARA – NAPAL - RUKU
Topography was started with 16 crews in the 3D Betara area. Eight crews worked on
Shot Lines and 8 crews worked on Receiver Lines. The problems encountered by the
topography activities were instrument problems and the rainy season. These adversely
affected the survey production.
During the project eight units drilling worked in the 3D Betara area, and for 2D
Napal/Ruku area used six units. The average production for each unit was 30 to 36
SP’s per day. Permit problems were the major problem encountered by the drilling
activities throughout the project. Several drilling units found the tight formations.
Recording activity started on November 13th 2005 on 3D Betara area. The average
production for recording was 223 SP’s per day for 3D Betara area, and the average
production for 2D area (Napal and Ruku) was 146 SP’s per day.
All progress from topography, drilling and recording operations were checked, and
documented at the Base Camp, and reported daily via e-mail to the PetroChina
International Jabung Ltd. representative on site. Daily reports consist of operational
and HSE progress. Weekly reports and the monthly report were written to inform the
cumulative production and progress for the week and the month respectively.
The base camp and included facilities of PT Elnusa Geosains were located on Jl. Raya
Jambi – Tungkal, Pematang Lumut – Kecamatan Betara, Jambi. Jambi. Travel time is
1 hours to the Betara 3D prospect area and Napal/Ruku 2D prospect area. The base
camp included facilities for PetroChina International Jabung Ltd. The PT. Elnusa
iv Final Report
ELNUSA GEOSAINS A5.43
SEISMIC DATA AQUISITION PETROCHINA INT’ JABUNG
SURVEI SEISMIK 3D/2D BLOK BETARA – NAPAL - RUKU
Geosains office block included a kitchen and food preparation room, recording
workshop, meeting room, clinic room, junior staff mess, recreation facilities, water
treatment system, fuel dump and mechanical workshop.
The average safety hazard level encountered while conducting the 3D/2D seismic
survey for PetroChina International Jabung Ltd. was considered moderate.
Two (2) Quality Control Supervisors from The PetroChina Intl. Jabung Ltd., Mr. John
Mitchell and Mr. Ken Nicoll supervised this project.
A Security Officer from MABES TNI was also assigned full time to the project.
v Final Report
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
LIST OF CONTENT
FOREWORD i
LIST OF CONTENTS v
APPENDIX vii
CHAPTER 1 INTRODUCTION 1
1.1. Location of Survey 1
1.2. Field Condition 4
1.3. Weather and Climate 4
1.4. Accessibility 5
1.5. Operational Schedule 5
CHAPTER 2 PERSONNEL AND EQUIPMENT 6
2.1. Personnel 6
2.2. Sub Contractor 9
2.3. Equipment and Instruments 9
2.3.1. Recording Instruments 10
2.3.2. Topography Equipment 11
2.3.3. Drilling and Preloading Equipments 12
2.3.4. Field Processing Instruments 12
2.2.5. Office & Camp Equipment 13
2.2.6. Transportation Equipments 14
CHAPTER 3 FIELD OPERATION 15
3.1. Technical Operation 15
3.1.1. GPS Survey 15
3.1.2. Topography 16
3.1.3. Line clearing and Bridging 18
Final Report v
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
3.1.4. Drilling and Preloading 20
3.1.5. Recording 25
3.1.6. Mesa Design 29
3.1.7. Field Data Processing 30
3.1.8. Other Activities 33
3.2. Non Technical Support 33
3.2.1. Base Camp 33
3.2.2. Management of Transportation 34
3.2.3. Management of Communications 34
3.2.4. Management of Workshop 34
3.2.5. Management of Security 34
3.3. Health Safety and Environment 35
3.3.1. Introduction 35
3.3.2. Proactive Performance 38
3.3.3. Reactive Performance 45
3.3.4. Healthy Aspect 46
3.4. Public Relation and Damage Claim 48
3.4.1. Permit Recommendation 48
3.4.2. Sosialization 48
3.4.3. Inventory and Claim Damage 49
3.4.4. Payments 49
3.4.4. Problems of Implementation on Field 50
CHAPTER 4 PRODUCTION STATISTICS 51
CHAPTER 5 CONCLUSINS 53
Final Report vi
ELNUSA GEOSAINS A5.43
SEISMIC DATA AQUISITION PETROCHINA INT’ JABUNG
SURVEI SEISMIK 3D/2D BLOK BETARA – NAPAL - RUKU
LIST OF APPENDIX
APPENDIX I.01 Program Map of Petrochina Int’l Jabung Ltd Seismic Survey
APPENDIX I.02 Actual Time Schedule of 3D and 2D Seismic Data Acquisition
APPENDIX III.01 Survey Production Statistic
APPENDIX III.02 Clearing-Bridging Production Statistic
APPENDIX III.03 Rules of Safe Distance Position
APPENDIX III.04 Drilling and Preloading Production Statistic
APPENDIX III.05 Explosive Loading Diagram
APPENDIX III.06 Explosive Usage
APPENDIX III.07 Geophones Parameter Layout
APPENDIX III.08 Configuration of Recording
APPENDIX III.09 Recording Production Statistic
APPENDIX III.10 3D Betara Block Template Layout
APPENDIX III.11 RPS File Swath 96-158
APPENDIX III.12 SPS File Swath 96-158
APPENDIX III.13 XPS File Swath 96-158
APPENDIX III.14 3D Betara Block Teoritic Design
APPENDIX III.15 Actual Full Fold Coverage
APPENDIX III.16 Good and Poor Data of Recording
APPENDIX III.17 Result of Seismic Data Processing
APPENDIX III.18 Flow of 3D Betara and 2D Napal-Ruku Block Processing
APPENDIX III.19 Management Communication System
APPENDIX III.20 Management Asset System
APPENDIX III.21 Important Correspondence
APPENDIX III.22 Equipment Product Brochure
APPENDIX III.23 List of Production Shipment
Final Report
vii
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
1. INTRODUCTION
The Petrochina International Jabung Ltd. 3D/2D seismic survey activities started from
August 2005 and end in May 2006, that consisted of Public Relation, GPS Surveying,
Topography (Line Surveying), Line Clearing and Bridging, Drilling and Preloading,
Recording and Field Data Processing.
Main contractor is PT. Elnusa Geosains and assisted by sub contractors such as: PT.
Sumatra Multi Kencana (line clearing and bridging, drilling, recording contractor), PT.
Anderson Unedo (preloading and special service contractor), PT. Industrialindo Konsultrain
Service (drilling contractor), PT. Elnusa A5.02 (Workshop Drilling contractor), PT. Elnusa
A5.03 (Topography contractor) and PT. Dahana (Explosive supplier).
I.1. Location of Seismic Survey
The seismic survey was conducted over three areas in the Petrochina International
Jabung Ltd block known as the Betara Block, Napal Block and Ruku Block. The coverage
area of 3D Betara block is 321,624 km2, with length of seismic line is 1959,368 km and
consists of 77 Shot Lines (SL) and 64 Receiver Lines RL). For the seismic line length of 2D
Ruku Block is 254,250 km and consists of 13 Lines, while seismic line length 2D Napal
(including additional program/extension) is 214,770 km and also consist of 13 Lines.
Administratively of survey location cover Tanjung Jabung Barat (Tanjabar) regency
in Jambi Province, Indonesia. The 3D seismic survey was conducted over three districts
known as Betara District, Tungkal Ilir District, and Tungkal Ulu District. While 2D Ruku
Block consisted of Tungkal Ilir District and Pengabuan District and last the 2D Napal Block
was covered by the District of Betara.
1 Final Report
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Geographically, the Petrochina International Jabung Ltd. Program areas are situated
between 00o45’35”.44 to 01o15’42”.56 South Latitude and 103o04’23”.26 to 103o25’36”.72
East Longitude.
LOCATION SURVEY
Figure 1.1 Location of Survey
2 Final Report
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
3 Final Report
Figure 1.2 Program Map of Petrochina Int’l Jabung Ltd Seismic Survey
PIJ0
6-60
3
1050
1450
1450
JL 1
74
BM PCJ-039
BM PCJ-018
BM PCJ-014
BM PCJ-013
S540
S55
6S555
PIJ05-5
08
Parit PudinBM PCJ-114
BM PCJ-123
BM PCJ-125
Kec. Tungkal Ulu
BM PCJ-097
PIJ05-512
BM PCJ-124
BM PCJ-129
BM PCJ-128
9859
000
N
PIJ05-513
Teluk Kempas
WKS Pulp and Paper
285000 E
9910
000
N99
0000
0 N
285000 E
9890
000
N98
8000
0 N
9870
000
N
BM PCJ-113
BM PCJ-115
BM PCJ-120PIJ05-511
Canal WKS
Canal WKS
JL-6
10
Ketapang
290000 E
290000 E
BM PCJ-110
BM PCJ-116
BM PCJ-117
Area Pembibitan PT. WKS
BM PCJ-062
BM PCJ-044
BM PCJ-031S517
S531
R130
PIJ05-5
04
SW Betara #1
Teluk Nilau
300000 E
300000 E
BM PCJ-091
BM PCJ-096
BM PCJ-103
BM PCJ-122
BM PCJ-130
BM PCJ-074
BM PCJ-067
S50
8S5
17
S51
6
BM PCJ-092
BM PCJ-093
BM PCJ-105
BM PCJ-121
Purwodadi
BM PCJ-079
BM PCJ-078 BM PCJ-077
BM PCJ-076
BM PCJ-075
BM PCJ-066
BM PCJ-065
S50
7
S506
S505
S504
S502
S503
S50
1
S51
5
S51
4S513S5
12
S511S5
10S5
09
S508
S507
S50
6S505
S50
4S503
S50
2
S501
R159R158
R157R156
R155
R154R153
R152R151
R150R149
R148R147
PIJ05-5
01
Canal WKS
Par
it 1
seny
eran
g
Par it
4 K
ayu
Aro
Sinyerang
BM PCJ-094
BM PCJ-095
BM PCJ-104
BM PCJ-106
BM PCJ-111
BM PCJ-112
TSM Blok C
TSM Blok B
DelimaDelima
BM PCJ-080
BM PCJ-072
BM PCJ-073
BM PCJ-071
BM PCJ-070
BM PCJ-068
BM PCJ-069
BM PCJ-064
BM PCJ-063
BM PCJ-060BM PCJ-059
BM PCJ-058
BM PCJ-057
BM PCJ-056BM PCJ-055
BM PCJ-045
S516
S515
S514
S51
3
S512
S511
S510
S509
S530
S529
S52
8
S52
7
S52
6S525
S52
4
S523S5
22
S52
1
S52
0S51
9
S51
8
R146R145
R144R143
R142R141
R140R139
R138R137
R136R135
R134R133
R132R131
PIJ05-5
03
PIJ05-5
02
Par
it 8
s en y
eran
g
Pa r
it 10
Pas
ar S
enen
BM PCJ-109
JL 120
Kec. Betara
BM PCJ-051
BM PCJ-049
BM PCJ-041
BM PCJ-040
S54
4
R116
PIJ05-5
07
PIJ05-5
06
BM PCJ-099
BM PCJ-107BM PCJ-108
BM PCJ-126
JL 125
JL 172
JL 18
0
Bumi AYU
BM PCJ-061
BM PCJ-054
BM PCJ-053
BM PCJ-052
BM PCJ-048
BM PCJ-047
BM PCJ-046
BM PCJ-043
BM PCJ-042
BM PCJ-033
BM PCJ-032
BM PCJ-030
BM PCJ-029
S527
S526
S525
S524
S523
S522
S521
S520
S519
S51
8
S543
S54
2
S54
1
S540
S53
9
S538
S537
S536
S535
S53
4
S533
S532
R129R128
R127
R126R125
R124R123
R122R121
R120R119
R118R117
PIJ05-5
05
Par
i t Ba
ru
BM PCJ-100
BM PCJ-101
BM PCJ-102
BM PCJ-119
PIJ0
6-60
1
PIJ0
6-60
2
1001
1050
1100
1150
1001
1502
1500
1554
1500
1450
1400
1350
1470
1544
1498
BM PCJ-087BM PCJ-088
JL 170
JL 12
0
JL 173JL 170
PIJ05-513
BM PIJ-08
BM PCJ-050
BM PCJ-038
BM PCJ-035
BM PCJ-034
BM PCJ-028
BM PCJ-027
BM PCJ-026
BM PCJ-017
BM PCJ-016
BM PCJ-015
S539
S53
8
S53
7
S53
6
S535
S534
S533
S532
S53
1
S53
0
S52
9
S52
8
S554
S553
S552
S551
S550
S54
9
S548
S547
S54
6
S54
5
R115R114
R113
R112R111
R110R109
R108 R107R106
R105
Par
it 9
pudi
n
Srindit
B a
u n
g R
i v
e r
PIJ05-514
1300
1100
1150
Kec.
Tun
gkal
Ilir
Kec. Pengabuan
Sriayu
Pematang Buluh
BM PCJ-098
BM PCJ-118
PIJ0
6-60
4
15121500
1400
1300
1300
BM PCJ-085
BM PCJ-090
SABAR #1
BM PCJ-022
BM PCJ-011
BM PCJ-010
BM PCJ-006
S558
S557
S56
8
Righ
t Bra
m H
itam
Rive
r
BM PCJ-127
1250
1200
1450
1400
1350
1300
1100
1150
1200
1250
1300
1350
1001
1050
1100
1150
1200
1250
1350
1400
1450
1400
1350
1400
1350
1450
1400
1350
1400
1350
1300
1250
1200
1300
1422
BM PCJ-086
J L 1
75
JL 1
74
JL 1
76PIJ05-512
PIJ05-511
BM PCJ-037
BM PCJ-036
BM PCJ-025
BM PCJ-024
BM PCJ-023
BM PCJ-020
BM PCJ-019
BM PCJ-012
BM PCJ-005
BM PCJ-004
BM PCJ-003
S556
S555
S55
4S553
S552
S551
S550S5
49
S548
S547
S546S5
45
S544S54
3
S542
S541
S567
S56
6
S56
5
S564
S56
3
S56
2
S561
S560
S55
9
S558
S557
R104R103
R102 R101
PIJ05-
PIJ05-5
09
510
Parit 14 pudin
Par
it 13
pud
in
310000 E
310000 E
PIJ0
6-60
5
1500
1450
1450
1400
1350
1550
1500
1001
1050
1100
1150
1200
1250
1001
1050
1250
1200
1300
1250
1200
1300
1200
1250
1250
1200
1300
1150
1250
1200
1050
1100
1150
1532
1578
BM PCJ-082
JL 1
75
JL 170
JL 1
75
Sriayu
BM PCJ-021
BM PCJ-009
BM PCJ-008BM PCJ-007
BM PCJ-002
BM PCJ-001
S57
3S572
S57
1S570
S569
S568S5
67S566
S565
S564
S563
S56
2S561
S560
S55
9
S573
S572
S57
1
S570
S56
9
Left
Bram
Hita
m R
iver
PIJ06-608
PIJ06-610
1400
1001
B e
t a r
a R
i v e
r
SF GPS-01
PIJ06-611
1450
1400
1350
1552
1500
1150
1250
1200
1350
1300
1050
1100
1150
1050
1100
1150
1050
1100
1050
1100
1150
1001
1050
1100
1001
BM PCJ-083
BM PCJ-084
BM PCJ-089
JL 1
77
JL 177
Sri Menanti
PIJ0
5-51
5 NE Betara #28
320000 E
320000 E
PIJ06-606
PIJ06-607
PIJ06-609
1450
1500
1001
1001
1001
1514
BM PCJ-081
To Jambi
Simpang Abadi
JL 170
Ripah #2
GEOCENTRIC PARAMETERS FROM WGS'84 to ID'74
PETROCHINA INTERNATIONAL Jabung Ltd,
ELNUSA GEOSAINS A5.43
Drawing No
JABUNG BLOCK
: UTM
: GRS'67: 6378160.00: 298.25: 105° E: 0° N
: 10000000 M: 500000 M
: 0.9996
: 48: MSL
2D - 3D SEISMIC SURVEYPROGRAM MAP
GEODETIC PARAMETERS
: -4.724 m
: +14.757 m: -2.691 m
: 0.774": 0.60 ppm
Road
River
Canal
Seismic Bench Mark
ELNUSA A5.43
ELLIPSOID REFERENCE
ELEVATION REFERENCE
PROJECTION SYSTEM
SEMI MAJOR AXIS
CENTRAL MERIDIANLATITUDE ORIGIN
INVERSE FLATTENING
FALSE NORTHINGFALSE EASTINGSCALE FACTOR
dZ
dYdX
dZdY
dX
: 0
: 0
k
Well
Checked by
Approved by
Drawn by
Surveyed by
ZONE
2005
ch Location
Legend :
Sket
2D-3D SEISMIC
Date
File Name
Rev.
NOT TO SCALE
GPS BM Established
Subdistric Boundary
Protected Forest
Production Forest
Village
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
I.2. Field Condition
The dominant vegetation in the survey area consists of variety of acacia plantation,
tropical rain forest, palm oil plantation, swampy (gambut) area, palawija plantation, rice field
and river. In west of the 2D Ruku Block is a dense settlement area with the majority of
people living there being palawija’s farmer and fisherman. The Tungkal River which is quite
large crosses the 2D Ruku Block and the slightly smaller Betara River crosses 3D Betara
Block and 2D Napal Block.
In morphology of 3D/2D seismic survey consisted of three distinct areas which had
very different physical characteristics. They are 90% of acacia plantation and tropical rain
forest, 7% of dense settlement and oil and palawija plantation. Almost the entire surface area
of 3D/2D seismic survey are swampy (heavy flooding occurs in the wet season) with a few
villages and plantations near the main road.
The lithology consisted of sticky clay and stone in southern hilly area, while
sandstone exists in northern flat area (Napal). The surface conditions in the Ruku Block are
completely different compared to the Betara and Napal Block. The primary access of Ruku
Block is by the Tungkal River with tributaries called the Baung River and several canals
owned by PT. WKS.
Sole access to the area is provided by just one main asphalt road, which runs from
Jambi to Kuala Tungkal. The road is very crowded and has many blind spots.
I.3. Weather and Climate
In the early part of the project August and September 2005 it was the dry season,
however from the end of October 2005 until January 2006 was the wet season, at times even
flooding some seismic lines. From February until May the end of the seismic project rain was
mostly intermittent, alternating with very hot conditions. Floods at some places on the lines
influenced the productivity of topography, drilling – preloading and recording. Daily
4 Final Report
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
temperature is Between 21 - 32 degree Celsius from rain season to dry season with air
pressure about 80% per year.
I.4. Accessibility
Access to the area is good it can be reached by four flights a day from Jakarta
utilizing four airlines companies’ i.e. Mandala Airline, Adam Airline, Batavia Airline and
Sriwijaya Airline. It takes approximately 55 minutes. From Sultan Taha Airport Jambi it
takes around two hours to drive to the Base Camp A5.43 in Pematang Lumut village, Betara
District, Regency of Tanjung Jabung Barat.
Land access from base camp to seismic survey area is very good. There are many
dirt roads belonging PT. Wirakarya Sakti (WKS) in the area which provided reasonable
access to all the programmed lines. Several alternative accesses through river/canals were
used in 2D Ruku Block. There was no access difficulty’s for the field operations.
I.5. Operational Schedule
Socialization of Public Relation and mobilization of equipments and personnel started
in August 2005 (Phase-I), continued by multipurpose action and GPS surveying on 21
August 2005, hereinafter topography/line surveying was started on 9 September 2005,
Drilling and Preloading activities on 5 October 2005 followed by Recording and Seismic
Data Processing on 13 November 2005. All programs were finished on 3 May 2006 (Phase-I
- Phase IV, inclusive of 3D/2D Betara/Ruku and Napal Extension Block). In general the
activity ran well supported by management of PT. Elnusa Geosains in Jakarta and also there
was a lot participation and cooperation from client the in field. Detail of program map of
Petrochina Int’l Jabung Ltd seismic survey and operational schedule is enclosed in Appendix
I.01 and Appendix I.02.
5 Final Report
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
2. PERSONNEL AND EQUIPMENTS
II.1. Personnel
Personnel of seismic survey represent one who have field experienced and most living
in Sumatra area (70 %), Java (25%) and some from other Island (5 %). For the skill personnel
by structural can be seen as below :
I. JAKARTA OFFICE PERSONNEL
1 OPERATION SUPERVISOR PRIAZMAN SYANIF 1 AREA INSTRUMENT ENGINEER BARNAS MULYANA 1 AREA SURVEYING DADAN DANU R 1 AREA FIELD PROCESSING EDI ARUS SENTANI 1 AREA GEOPHYSICIST IMAM SETIAJI II. FIELD SENIOR PERSONNEL A. SUPERVISOR
1 PARTY CHIEF 1 TRI HARJIANTO 2 WURIASMORO 1 ASISTEN PARTY CHIEF 1 SYAFROBI SYARIF 2 ADE SETIAWAN* 1 FIELD SEISMOLOGIST 1 NURDIN PRAMONO 1 DESIGN MESA SEISMOLOGIST 1 FIRMAN AMIR 2 SENIOR PROCESSING SEISMOLOGIST 1 MILAN YULIANTO 2 MUSTAMIN 3 HERI IRMAWAN* 1 SENIOR INSTRUMENT ENGINEER 1 TRIWURYANTO 2 KUSDIAMAN* 1 OBSERVER 1 REHAN S. BURHAN 2 SENIOR SURVEYOR SUPERVISOR 1 AGUS ISKANDARSYAH 2 KURNIAWAN TRI NUGROHO
3 WIDODO* 4 MUHAMMAD IQBAL
Final Report 6
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
1 SENIOR DAMAGE CLAIM 1 RJ. SIMANJUNTAK B. JUNIOR PERSONNEL 1 JUNIOR SURVEYOR 1 SUGIMAN 2 SURYA GANDA 2 JUNIOR SEISMOLOGIST 1 SUTRISNO 2 MARIMIN 2 JUNIOR PROCESSING SEISMOLOGIST 1 MUPID AZIZI 2 REDI SETIADI 2 JUNIOR OBSERVER 1 CATUR BUDI 2 EDI SUHAEDI 14 OBSERVER LINE 1 SARTONO 2 NARNO BIN KURI 3 SUCIPTO BIN SAMSURI 4 LUKMAN HAKIM 5 DODI AMIRUDIN 6 BARIYANTO 7 DARYANTO 8 MIFTAH FAISAL HUDA 9 MULIADI 10 SUYANTO BIN SUWARDI 11 NURKHOLIS 12 DODIK SUHARTO 13 WARTO 14 BAMBANG KACAK 13 FIELD SURVEYOR 1 SARYADI 2 B. SIHOMBING 3 M. SAID 4 SODIRUN 5 AGUS ASTI 6 ANTON T.N 7 SAMSUL 8 J. PANJAITAN 9 HERMAN 10 AHMAD
Final Report 7
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
11 YUWONO 12 WARTONO 13 BAMBANG 1 DRILLING SUPERVISOR 1 HUDIONO 10 DRILLER 1 AMIR RENHOAD 2 ASBEN SILALAHI 3 MUGIONO 4 SUKAMTO 5 KARYANTO 6 A.G. MANULANG 7 SUPRAPTO 8 SOEDJARNO 9 SUNARYO 10 ZAINI 1 SHOOTER SUPERVISOR 1 ALI SIREGAR 10 SHOOTER PRELOADING 1 SUGIANTO 2 SAID FERIANTO 3 RUSDI 4 BADRUS 5 JOKO SANTOSO 6 TRI PURWANTO 7 SURAHMADI 8 LASIMUN 9 SEKTIAWAN 10 LAMSER TAMPUBOLON 8 SHOOTER RECORDING 1 BARIYANTO 2 DWI SUTRISNO 3 SYAIFUL HUDA 4 TUBAN 5 MULYADI 6 KARYUDI 7 TUBAN 8 RUSLI 1 EXPLOSIVE ADMINISTRATOR 1 P. TAMPUBOLON
Final Report 8
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
2 H.S.E SUPERVISOR 1 SRIYONO 2 TEGUH DAHANA 1 PARAMEDIC 1 FX. ARYADI WISNU 3 WORKSHOPS / TMS 1 DARMANTO 2 NURSALIM 3 NANANG 1 SENIOR MECHANIC 1 ASMURI 1 SENIOR ELECTRIC 1 SONY 1 RADIO OPERATOR 1 AGUS SUTIYONO 1 ADMINISTRATOR 1 SUCIPTO 1 FINANCE 1 ADI NUGROHO 1 CAMP BOSS 1 YUDI P.
Remark: * Personnel of leave moment
II.2. Sub-Contractors
Personnel of Sub-Contractor concerned in Petrochina International Jabung Ltd seismic
survey of year period 2005-2006 as below :
- PT. Sumatera Multi Kencana : Clearing, Bridging, Step, Drilling,Recording.
- PT. Industrialindo Konsultrain Service : Drilling
- PT. Unedo Anderson : Preloading and Special Service
- PT. Elnusa A5.03 : Topography / Line Surveying
- PT. Elnusa A5.02 : Equipment of Drilling
II.3. Equipments and Instrument
Equipment and instruments used in the seismic survey consisted of the special
equipments (Topography, Drilling, Recording and Processing) and the support equipment as
listed below:
Final Report 9
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
NO DESCRIPTION PRODUCT CONTRACT 3D/2D
ACTUAL 3D/2D
2.3.1. RECORDING INSTRUMNET A. RECORDING INSTRUMENTS
1. SN 408, CPU Sun Blade 2000 Sercel 1/1 Unit 2/2 Unit
2. HCI Sun Ultra 10 SUN 2/2 Unit 0/0 Unit
3. LCD Monitor 18" SUN 2/2 Unit 3/3 Unit
4. CD 3490E Cartridge Drive (DUAL). Fujitsu 2/2 Unit 2/1 Unit
5. CM Sercel 1/1 Unit 1/1 Unit
6. Spare Module CM Sercel 1/1 Set 1/1 Set
7. SQC-Pro display Quality Control SUN 1/1 Set 1/1 Set
8. Plotter Oyo GS 12/Veritas OYO/ Veritas 1/1 Unit 2/2 Unit
9. Oscilloscope for Maintain & Repair Field Unit Tektronix 1/1 Unit 0/0 Unit
10. Quick Tester Sercel 15/2 Unit 15/8 Unit
11. Line Tester Husky 6/2 Unit 6/4 Unit
12. Geophone Tester SMT-200 Sercel 10/4 Unit 10/10 Unit
13. String Scan Fluxes 4/4 Unit 10/10 Unit
14. Megger Fluxes 2/2 Unit 3/3 Unit
15. Frequencies Meter Variation 1/1 Unit 1/1 Unit
16. Digital Multimeter Variation 2/2 Unit 3/2 Unit
17. TMS Sercel 1/1 Set 1/1 Set
18. PC Computer Variation 2/2 Set 1/1 Set
19. Hydrophone Censor Censor 1/1 Set 1/1 Set
20. Accessories & Jumper Variation 1/1 Set 1/1 Set B. SHOOTING SYSTEM & RADIO
1. Cap Tester CRG 2000 8/4 Unit 13/12 Unit
2. Master Slave Macha & Radio Macha 3/3 Unit 3/3 Unit
3. Blaster & Radio + Antenna Macha 12/6 Unit 10/8 Unit
4. Vehicle Radio / 40 Watt Variation 13/13 Unit 13/13 Unit
5. Handy Talky & Charger (Complete) Variation 116/46 Unit 116/82 Unit
6. Charge Blaster Optimate 12/12 Unit 12/12 Unit
7. Capsim Variation 5/5 Unit 3/3 Unit
8. Firing Line + Up Hole Variation 24/24 Set 29/29 Set C. FIELD UNIT
1. Transverse Cable 408 Sercel 48/3 Roll 77/11 Roll
2. Link Cable 4 Channel 408 Sercel 1000/ 619 Roll 1061/
200 Roll
Final Report 10
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
3. LAUL Sercel 88/17 Unit 96/81 Unit
4. LAUX Sercel 12/2 Unit 16/13 Unit
5. Geophones GS-30CT /XM2B/LCK/ 18 Elements
OYO Geospace
3600/ 600
String
3677/ 1000
String
6. Geophone Planting Variation 115 Set 140/81 Set
7. Super Planter Variation 115 Set 115/60 Set
8. Safety Rubber Variation 27 Roll 30/30 Roll
9. LAUL/LAUX Power Cable Sercel 94 Set 135/42 Set
10. Hydrophone Variation 0/0 String 0/0 Strg
11. Hydrophone Planting Variation 0/0 Unit 0/0 Unit D. POWER UNIT
1. Generator 6 KVA/Diesel Yanmar 3/1 Unit 1/1 Unit
2. Generator 6 KVA/Gasoline Variation 3/1 Unit 1/1 Unit
3. Generator 12 KVA Hartec 1/1 Unit
4. UPS Denki Sanyo 3/3 Unit
4. UPS 2 KVA Variation 3/1 Unit 1/1 Unit
5. AC to DC Adaptor Lambda 2/2 Unit 2/2 Unit
6. Charger Delta 5/5 Unit 9/9 Unit
7. Compressor Variation 2/2 Unit 3/1 Unit E. PRELOADING CREW
1. Cap Tester CRG-200 CSR 2000 10/8 unit 13/8 Unit
2. Loading Poles @ 3 Mtr. Local 110/ 45 Btg 110/110 Btg
2.3.2. TOPOGRAPHY EQUIPMENTS 1. Total Station SOKKIA Set 3C Sokkia 13/6 Unit 19/8 Unit
2. Portable (Hand Held) GPS, Pro Mark X-CP Magellan 20/20 Unit 10/10 Unit
3. Clinometer Sunto 0/0 Unit 0/0 Unit
4. Compass Prismatic British Army Sufficiently 20/20 Unit
5. PC/Laptop Intel Pentium & Monitor IBM 3/3 Unit 4/4 Unit
6. Digital Camera Casio 1/1 Unit 1/1 Unit
7. Printer Deksjet Colour HP/ Epson/ Canon 2/2 Unit 2/2 Unit
8. Handy Talky Icom/ Kenwood 30/18 Unit 26/26 Unit
9. DGPS (Leica SR-520) Leica 4/4 Unit 4/3 Unit
10. Tide Gauge Sufficiently Sufficiently
11. Current Meter Sufficiently Sufficiently
Final Report 11
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
12. Antene Sufficiently Sufficiently
13. Blue Print Machine Regma 1/1 Set 1/1 Set
14. Pear, Sepia Film, Scales & Other Equipments Variation Sufficiently Sufficiently
15. HP 750C Plotter HP 1/1 Unit 1/1 Unit 2.3.3 DRILLING AND PRELOADING EQUIPMENTS
1.
Water Relay Machine (Include Fuel, Mechanic & Treatment)
Local/ Honda 42/12 Unit 42/23 Unit
2 Mud Pamp Honda 42/16 Unit 43/43 Unit
3.
Power Rig Machine (Include Fuel, Mechanic & Treatment)
Local/ Honda 45/16 Unit 50/36 Unit
4. Triefus 76 mm Local Sufficiently Sufficiently
Nipple Bit Triefus Local Sufficiently Sufficiently
Rock Bit 2 15/16 Inch Local Sufficiently Sufficiently
Drag Bit 2 15/16 Inch Local Sufficiently Sufficiently
Drag Bit 3 7/8 Inch Local Sufficiently Sufficiently
5. Polymer Gel / Quick Mud Local Sufficiently Sufficiently
6. Accessories (Speedy Loader, Plastic Point, Plastic Ring) Local Sufficiently Sufficiently
7. Explosive Peacemaker (Metal Strip Anchor) Local Sufficiently Sufficiently
8. Dirigent, cement for tamping, ratch to keep water Local Sufficiently Sufficiently
2.3.4. FIELD PROCESSING INSTRUMENTS A SOFTWARE
1.
PROMAX ver.7.1, Sun Blade 2000 with CPU 2 (two) license parallel processor to 3D data processing from Brute Stack Cubic Volume until Final Migration
Land Mark 1/1 Set 1/1 Set
2. GMG of Static Refraction GMG 1/1 Set 1/1 Set
3. MESA Design Versi. 7.0 GMG 1/0 Set 1/0 Set B HARDWARE
1.
CPU SUN Blade 2000, 64 bit parallel, 1 GB, CDROM 40X Clock Speed 450 MHZ, External Disk 300 GB, Eternal Network Adapter 100 base-T, Monitor 21 Inch, Floppy Drive 1,44 MB Keyboard, Mouse (Standard sesuai hardware).
SUN 1/1 Set 1/1 Set
Final Report 12
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
2. CD WRITER Variation 1/1 Unit 1/1 Unit
3.
PC, CPU Pentium IV, Clock Speed 1,4 GHz, Memory 512 MB Ethernet Network Adapter 100 base-T, Monitor 21 Inch, Keyboard, Mouse Standard, Software Operation System & Windows/Linux
Variation 2/1 Unit 2/2 Unit
4.
Client PC, CPU Pentium IV, Clock Speed 1,4 GHz, Memory 256 MB, Memory Grafis Controller 32 bit, Harddisk 20 GB, Floppy Driver 1,44 MB, Ethernet Network Adapter 100 base-T, Manitor 21 Inch, Keyboard, Mouse (Standard), Software Operation System & Utilities.
Variation 4/4 Unit 2/2 Unit
5. Switch Hub 100 Base-T minimal 24 Port Variation 1/1 Unit 2/2 Unit
6. Cartridge Drive IBM 3490E / 3590 with Stacker min: 10 Cartridge Geospace 1/1 Set 1/1 Set
7. Exabyte Driver (Densitas 7 & 14 GB) Variation 1/1 Unit 11 Unit
8. OYO Plotter Geospace GS-624 Geospace 1/1 Set 1/1 Set
9. Laser Jet Printer B/W A4 HP 1/1 Unit 1/1 Unit
10. Modem Minimal 56 KB/Detik Variation 1/1 Unit 0/0 Unit
11. Consumables :
Cartridge 3490E/3590,Tape 8 mm X 160 mm, Diskette ,Kertas Thermal Plotter 36 Inch,Kertas A4,Kertas A3 .
Variation Sufficiently Sufficiently
12. UPS 2.1 KVA Pascal 1/1 Set 2/2 Set 2.3.5 OFFICE AND CAMP EQUIPMENTS
1. Office Equipment & Supplies Variation Sufficiently Sufficiently
2. Air Conditioner National Sufficiently 41/22 Unit
3. Photocopy Machine (with enlargement / reduction)
Xerox/ Canon 1/1 Unit 1/1 Unit
4. Water Dispenser Sanex 2/2 Set 6/3 Set
5. Calculator Casio Sufficiently Sufficiently
6. Generator 5.3 KVA Yanmar Unit 4/4 Unit
7. Generator 65 KVA Perkins 2/2 Unit 1/1 Unit
8. Generator 110 KVA Perkins 2/2 Unit 1/1 Unit
9.
PC Intel Pentium IV ; Complete Ethernet Network adapter : 100 base-T include Software
Acer/ HP 15/13 Unit 22/20 Unit
10. Laser Jet Printer HP 2/2 Unit 7/6 Unit
11. Desk Jet Printer Color HP 4/4 Unit 6/6 Unit
12. Fire Extinguisher Yamato Sufficiently 56/56 Unit
Final Report 13
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
13. Bed, Furniture & Desk Variation Sufficiently Sufficiently
14. Parabola Satellite Receiver Dinasat 2/2 Unit 2/2 Unit
15. Laser / VCD Disk Pioneer/ Samsung 3/3 Unit 4/1 Unit
16. Television Sony/ Toshiba 4/4 Unit 6/2 Unit
17. Telephone / Facsimile National 2/2 Unit 3/2 Unit
18. Mechanic Tools Variation Sufficiently Sufficiently
19. Refrigerator Toshiba 3 Unit 7/7 Unit
20. Life Jacket Variation 75/75 Unit 90/90 Unit
21. Safety Helmet Variation 125 Unit Sufficiently
22. Ear Plug Variation 15 Unit Sufficiently
23. Hand Gloves Variation 50 Unit Sufficiently
24. Consumables Variation Sufficiently Sufficiently
2.3.6. TRANSPORTATION (Include Treatment, Fuel and Driver, minimum on 2002 ) AND COMMUNICATION
Vehicle
1. Long Wheel base 4WD Mitsubishi 20/20 Unit 24/20 Unit
2. TRUCK Wheel 6 Mitsubishi/ Hino 1/1 Unit 1/1 Unit
3. PICK UP Daihatsu/ Toyota 2/2 Unit 4/2 Unit
Communication
4. SSB Radio 100 WATT Yaesu/ Icom 5/5 Unit 2/2 Unit
5. Vehicle Radio VHF Yaesu/ Icom 20/20 Unit 37/22 Unit
6. Handy Talky VHF Motorola 159/ 146 Unit 192/
100 Unit
Boat
7. Speed Boat Variation 0/2 Unit 0/4 Unit
Final Report 14
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 15
3. FIELD OPERATION III.1. TECHNICAL OPERATION
3.1.1 GPS SURVEY
GPS (Global Positioning System) was used to set up the control network for the entire
survey. Procedures included GPS observations on all points in the GPS design network and
distribution of BM GPS made by Geodetic Engineer. The initial parameters for the control
nework were supplied by the client. All observation data was collected in a memory card and
down loaded using SKI Pro software. The data was processed per section; the process included
flattening all network with a note that loop closures were completed. Once completed this
represented a first order control network for the entire survey.
Figure III.01 BM Point Instalation
Final Report 16
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
3.1.2. TOPOGRAPHY
The aim of the conventional survey crerws was to lay out the seismic lines consisting of
shotpoint (SP) and receiver (Trace) according to the program supplied by Petrochina
International Jabung Ltd. The SP and Trace placement in the field was based on reference to
teoritic coordinates.
Seismic lines were measured using Total Station of SOKKIA and each trace and shot
point was layed out in accordance with the SPS files supplied by the client.The seismic lines
were marked with red flagging for Shotpoints (SP) and blue flagging for Traces. At certain
positions seismic Benchmarks (BM) were planted, i.e. at line intersections near roads, rivers
and old seismic lines.
Topography activity for the Petrochina International Jabung Ltd seismic survey
commenced on 9 September 2005 with 3D Betara starting on lines of S-46,45,43,41,40,39 and
R-07,13. The seismic lines measurement was started from polygons linked to BM GPS which
have been measured previously.
There were several support and constraint in topography operation, that is human
resource aspect, equipments and environmental as one of factor becoming field constraint. For
the human resource of, topography department composed by experienced surveyor and
supported by 16 (sixteen) of crews from 12 (twelve) beginning planned crews. The choice is
conducted because average target not yet been reached i.e 1.5 km / crew. Protected forest area
(conservation forest) and deep swamp was a major problems encountered throughout the
survey activity. The topography survey was finished on 22 January 2006 (136 workdays for the
block of 3D Betara).
The topography activity for 2D Ruku Block started on 16 January 2006 and finished on
18 Febuari 2006 (34 workdays). Ther2D Napal Extension ran from 20 March 2006 until 17
April 2006 (29 workdays). The equipments used were 18 unit of Total Station SOKKIA Set 3C
II 2 unit of Theodolit T0 for the offset of. A few damage claim/environment impact generated
will prevent of social resistance in the survey area.
Final Report 17
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Non technical problems as below:
The rain season caused flooding on some locations making production rates lower,
because topography crews cannot move on the seimic lines.
Other problems encountered during activities were the difficulty associated with
surveying over swampy areas, several canals (especially in the PT WKS area) and river
crossing. The PT. WKS activities such as acacia’s harvesting by tractors and heavy
equipment caused many lost of Shotpoints and Traces; this required some revision of
the Shotpoints and Traces on the seismic lines.
Topography activities volume of 3D/2D Betara/Napal and Ruku Block covering line
surveying, clearing-bridging and BM point instalation from first plan untill finish of process of
additional programs shall be as follows :
Description Vol. Blok 3D Betara Vol. Blok 2D Napal Vol. Blok 2D Ruku Finish Finish Finish
1. Line Surveying 1829,638 km 44, 760 km 254,250 km 1959,368 km 214,770 km 254,250 km
2. Clearing-Bridging 1829,638 km 44, 760 km 254,250 km 1959,368 km 214,770 km 254,250 km
3. BM Instalation 125 pcs 5 pcs 79 pcs 125 pcs 12 pcs 79 pcs
During activity of field surveying take place fluent and have not of resistance problems.
Statistic of topography production can be seen at Appendix III.01.
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 18
Figure III.02 Activity of Topography Surveying
3.1.3 Line Clearing and Bridging
As well as conducting of line surveying the Topography department also controled the
line clearing and bridging crews, which cleared and bridged the seismic lines of brush and
secondary growth which interfered with line survey.
Lines that crosed rivers deep swamp or canals were suitable bridged so that the other
operations could pass along the lines with little difficulty.
The sole purpose of the bridging, steps, ladders and hand rails is to facilitate the
movement of personnel and equipment along the seismic lines in a safe manner.
Clearing and bridging started at line of S-22, 23, 24, 27 and R-01. Clearing-Bridging
crews follow behind the topography crews were accountable for making the strong bridging
construction where needed on each seismic line. Bridging and steps were usually made of wood
and nails and a support hand rail was added to make access easier. Bridging was made across
some crossing of seismic line to river and irrigation. Bridging was made about 40 - 50 cm from
water level height. Clearing and bridging activity was started on 16 September 2005 and finish
on 24 January 2006 for 3D Betara Block, the 2D Ruku Block started on 22 January 2006 and
finish on 4 March 2006, whereas for 2D Napal Block (early program) on 28 December 2005
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 19
and finish on 14 January 2006, and for additional program on 2D Napal Block (Napal
Extension) on 24 March 2006 and finish on 20 April 2006. Production statistic of clearing-
bridging can be seen at Appendix III.02.
There are some reasons for revision of clearing-bridging, included:
The time between clearing-bridging to drilling and recording was to long. Therefore the
undergrowth grew back and bridging became rotten and had to be replaced.
Several canals in the location of survey generally used as transportation by society,
therefore bridging over the canal destroyed by local people or PT. WKS security
personnel.
During the height of the wet season some lines bridged during the dry season became
flooded and had to be re-bridged so the crews could access and work on the flooded
lines.
The affect of acacia’s tree harvesting at production area of PT. WKS at almost 90%
seismic survey area made a lot of damage of bridging.
The clearing – bridging can be seen as below:
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 20
Figure III.03 Clearing and Bridging
3.1.4 Drilling and Preloading
Drilling and Preloading on seismic survey is done to place the source (explosive)
according to the position which have been measured by Departement of Topography. In the
field several things happened where positions which have been measured could not be drilled,
because of the existence of Oilwell Pipe, School, religious service Place, roadway etc. in such
cases the shot point was moved to a safe place as compensation for the original SP.the general
rules for locating compensation shots were supplied by the company. Where normal rules could
not be applied a random location was picked and approved by the client. The Rules of Safe
Distance Position can be seen at Appendix III.03.
Prior to the commencement of drilling operations, drilling field camps had to be
completed to the specifications stipulated by Petrochina. Medical tests and inductions were
carried on all personnel. These had to be approved by client prior to any inductions. All drilling
and preloading crews were trained about drilling technical and about safety, healh, environment
impact and damage claim. Inductions were carried out at the field camp one day before work
commenced.
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 21
Figure III.04 Induction of drilling crews of PT.IKS by Elnusa’s Public Relation
Drilling activity on 3D/2D Betara/Napal and Ruku Block seismic survey was started on
5 October 2005 by operating 8 (eight) unit of drilling for the 3D Batara Block and 4 (four) unit
of drilling for the 2D Ruku and Napal Block.. Before any drilling was allowed to start all
inductions were completed and all camps were approved by the client and HSE staff. All camps
had to be built in acccordance with international HSE standards.
Drilling methods required the use of Power Rig in stone and sandstone areas and by
Flushing in sticky clay. The drilling on normal condition hence of by Power Rig with “drag bit"
size measure 3 7 / 8" and in deep swamp usually conducted by Flushing. In field operation of
drilling activity consisted of 8 (eight) unit of drilling (each unit consisted of 4 drilling machine ,
4 Mud Pump machine, 2 Davey Pump and prepared 1 machine drill complete for the spare of
field.
Personnel drilling drilling were provided by PT. Sumatra of Multi Kencana (SMK) and
PT. Industrialindo Konsultrain Service (IKS), Preloading labor was provided by PT. Unedo
Anderson, and the drilling equipments was provided by PT. Elnusa SDR A5.03. Labor for the
Drilling and Preloading consisted of skill personel which is provided by contractor and local
personnel (60% from Jambi) and (40% from Pendopo, South Sumatera).
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 22
Each unit consisted of 4 drilling crews, 1 water relay crew and 1 preloading crew who
were supervised by a Driller and Shooter from PT. Elnusa Geosains and assisting by Field
Mechanic from PT. Elnussa SDR and Quality Control (QC) from Petrochina Jabung. Drilling
consisted of 8 (eight) units which were supervised by a Drill Supervisor who supervised the
program from Seismologist. Driller Supervisor always gives report result of job at each unit and
gives the input for the planning of next program
Drilling and preloading operation went well because the lithology predominently
consisted of soil, blue clay, and sandstone. This made the drilling target of 25 metres and top of
charge in 24,5 metres very achievable. Each hole was preloaded with 2 pieces of explosive (1
kg) and 1 detonator. Drilling statistic can be seen at Appendix III.04.
Figure III.05 Drilling Process
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 23
Figure III.06. Preloading Process
Explosive used in 3D/2D Betara/Napal and Ruku Block was Dayagel Explosive 500
gram and Nitro Bickford Detonators with 30m leads which was obtained from PT. Dahana
Tasikmalaya. The Position of Main Explosive Storage in the vicinity of Pematang Lumut of
Subdistrict of Betara was a strategic place, for easy distribution to drilling units and also in
return unused explosives to the Main Explosive Storage because access roads were plentifull.
To operate at 2D Ruku Block aTemporary Explosive Storage (TES) was placed at Teluk Nilau
and Sinyerang of Subdistrict of Pangabuan of Tanjung Jabung Barat regency.
Access to the drills was very good and rarely caused any difficulties. Land access
existed in the form of connecting roads throughout the survey area. In the Ruku area access was
primarly via the Tungkal River system and several canals built by PT. WKS. All the crews’
requirements were transported via the river network. In compliance with Standard HSE policies
the main or temporary storages were positioned far from settlement. The explosive and
detonator was kept separately, with good condition temperature and good air circulation, rate
humidity at the most 70%, Lightningrod and also various also extinguishers.
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 24
Figure III.07. Location of Explosive Storage in Senyerang village
In preloading process it was required to attache the accessories (speedy loader, plastic
point and plastic ring) each one set for each hole and centralizer (strip anchor) at 1 position.
(Appendix III.05; Diagram of Explosive Loading), the charges were also secured by masking
tape before being loaded. Once each hole was loaded it was thoroughly tamped to avoid any
possibility of blow outs when recording shot the hole. Explosive consumed was approximately
58.739 Pcs and Detonator about 29.951 Pcs as explained in Appendix III.06.
Each preloading crew worked together with the drilling crew and was supervised
directly by a licensed Shooter from Elnusa Geosains and a PIJ Drill QC. At all times the
explosives were handled and loaded according to MIGAS safety standards.
Technical problems encountered in field as below:
In some areas where sandy formations were encountered it was difficult to get the charge
loaded before the hole caved in. Aids such as drilling fluid worked well in the dryer areas
however it is very difficult to maintain the required consistency when drilling in swamp
areas where the hole is actually submersed.
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 25
It sometimes proved very difficult to tamp holes drilled in sticky clay formations. It was
found that it was better to leave the hole for several days then tamp it once the hole had
dried out.
Figure III.08 Explosive concatenation by Shooter Preloading i
Non technical problems encountered in field as below:
Minimum access roads to the seismic lines in 2D Ruku Block resulted in the crew having to
walk great distances (up to 8 km.) to get to and from the work site.
During the wet season (November to March) flooding on the lines made it very difficult to
flush and load the holes.
The Drilling and Preloading started from date of 5 October 2005 up to 27 May 2006 for all
block is inclusive of additional block program (Napal Extention block).
3.1.5 Recording
The principal of recording activities is to record the wave data yielded by the Source
(Dayagel) and record in the form of digital. receiver to as many as 1000 Channel at each
shotpoint. In this case each channel used 18 geophones which was the array specified by PT.
Final Report 26
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Petrochina Int' Jabung QC parameters. For detail parameter of Array Geophone can be seen at
Appendix III.07, while for the configuraton of shoting see at Appendix III.08.
Parameter of 3D Blok Batara Seismic Survey - Petrochina Jabung as below:
Template : 8 lines x 120 channels
Receiver Line Orientation : 149 degrees
Source Line Orientation : 149 degrees
Total Live Channels : 960
Nominal Fold : 24
Cross Line x Inline Fold : 4 x 6
CMP Bin Size : 20 x 20
Receiver Point Spacing : 40 meters
Shoot Point Spacing : 56,56 meters
Pre Stack CMP Density : 50,000 per sq.km
Receiver Line Spacing : 400 meters
Shot Line Spacing : 400 meters
Shots per Salvo : 10
Total Receivers : 1924
Receiver Density : 64,2 per sq. km
Total Shoots : 20.270
Cross Line Offset Range : 20 to 1580
Record Lenght : 5 detik
Sampling Interval : 2 ms
Data Format : SEG-D, 6250 BPI
Parameter of 2D Ruku and Napal Seismic Survey – Petrochina Jabung as below :
Shoot Point Interval : 60 meters
Receiver Station Interval : 30 meters
Spread Geometry : Symmetrical Split (90 – 90)
Active Channel : 180
Near Offset : 75 meters
Final Report 27
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Far Offset : 2745 meters
Nominal Fold : 45 Fold
Sampling Interval : 2 ms
Low Cut Filter : Out
High Cut Filter : 200 Hz @ 72 dB/Octave
Record Length : 5 sec
Tape Format / Density : Cartridge 3490, 6250 bpi
Data Format : SEG D
Energy : Dynamite
Charge Size : 1 (one) kg’s
Drilled Hole Depth : 25 meters
Top of Charge Depth : 24.5 meters
Shot Geometry : Receiver mid-point (between the flags)
Receiver Array : Linear centered on peg
Receiver Spacing : Linear (Continuous on the peg)
Type of Receiver : High Grade, close tolerance geophone
Natural Frequency : 10 Hz
For operational considerations recording activities in the field in 3D Betara Block used
4 (four) shooters for production shooting and 4 (four) shooter redrill. The crew of shooter
redrill was provided with drilling equipment and a blaster. This was done so that any bad shot
could be re-drilled and loaded to the correct depth before being shot a second time. For the 2D
RUKU and NAPAL 2 (two) shooter and 2 (two) shooter redrill crews were used. A total of 13
line observers were used to assist in coordination line layout, geophone planting and line repair
on the seismic lines. Communication was by means of Radio and was of vital importance;
considering coordination with laborers was only way the data acquistition could be achieved.
To achieve the best possible communications a series of repeater units were set up and 4
channels were set up exclusively for recording communications.
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 28
Figure III.09 Recording Crew Induction on Field Camp of PT. SMK
Gambar III.10. Leaf Jacket Training
Final Report 29
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
In general the recording operations went very smoothly with little production lost
through technical or operational problems.
Non technical problems which emerged are as below:
Minimal of access roads in the 2D Ruku Block meant that the shooters had to travel
long distances each day to reach their field positions.
Some time was lost laying the cables across the large river that dissected the 2-D Ruku
program area.
Equipment noise caused by WKS harvesting activities in the Betara / Napal area
sometimes caused delays because of the noise problems it created.
Recording activity started from at 07.00 and finish at 16.30. Recording activity started
on 13 November 2005 in 3D Betara Block and ended on 1 May 2006 in 2D Napal Block
goodness. In detail production statistic can seen at Appendix III.09.
3.1.6 Mesa Design
Design Survey 3D block Batara made by using software of MESA Professional 7.0. Lay
out Shot point and Receiver made by orthogonal by relate at parameter of bin size 20 X 20
metre, unit templete 8 X 120 traces, Inline Bearing 149 degree, etc.
Teoritic design of 3D Betara survey cover the area for the width of 322.723 km2
consisted of 20.270 shotpoint and 1924 receiver yielding area of full fold coverage (24 fold)
aparting about 800 metre from edge of location survey. Vertically, the distribution data from
minimum of near offset 20 metre until maximum far offset 1580 metre. The continuitas of data
spreading obtained at maximum deepness of near offset 510 metre.
To supervise the process of data intake, 3D Batara seismic surveys are divided per
shooting block. Method of numbering used is Grid-Based Numbering to Identify the Shot Point
and Receiver use number 8 digits. 4 first Digit is Line number, while 4 next Digit is the number
point. Unit of template represent the system among shot point by patch is same, while salvo
defined as corps of shotpoint with the same patch. In seismic survey of 3D Batara, 1 salvo
consisted of 10 Shot Point, while unit template used is 8 active Receiver Line; each Receiver
Line consisted of 120 stations. Template Lay Out Survey 3D Betara Block can be seen at
Appendix III.10.
Final Report 30
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
The seismic data in the form of SPS files consisted as below:
1. RPS File is containing file of information about receiver (identify, position, codification) can
be seen at Appendix III.11
2. SPS File is containing File of information about source (identify, position, codification) can
be seen at Appendix III.12
3. XPS File is file of information of relationship of source and receiver, can be seen at
Appendix III.13
Fold Coverage show nominal of the CDP which is there are in each bin in area survey.
At 3D Betara survey, the teoritic design yield the full fold of equal to 24 fold. Please see at
Appendix III.14.
Fold Coverage of teoritic design will happens of the quality degradation after conducted a
shotpoint location in field. This is caused by repositioning shot point from its original position.
Repositioning can be happened when Shot Line passing of settlement, oilwell, school, funeral,
dam and etc. Full Fold Coverage of actual survey of 3D Betara Block can be seen at Appendix
III.15.
Seismic survey design can be explained as below:
Makes simulation/displacement of shotpoint and receiver, reporting its result to client
and also give the technical advice relate to the location displacement of shot point and
receiver in field.
Ascertaining result of simulation of shot point and receiver displacement is properly on
the field.
As center of database, coordination with all technical department (Topography, Drilling,
Recording and Processing) and makes QC of data and supporting data to recording.
Making SPS file for the support of Shoting of LABO and support of Geometry
Processing.
3.1.7 Field Seismic Data Processing
Field Seismic Data Processing is started at 10 November 2005, covering planning
phase, execution and evaluation. Planning phase cover consisted of ready of software and
hardware data processing, test the parameter of depth and charge, and also conduct the test of
Final Report 31
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
data processing parameter. Software utilized is software Promax 2003 ver. 3, 3 (seismic
software data processing), software SDI (software plotting) and GMG Millenium Version 5.3
(software Static Refraction Calculation), while hardware use is Sun Blade 2000, Sun Ultra 60,
Cartridge Drive 3490, Exabyte Drive, Oyo Plotter GS-624, RAM 1GB, PC Pentium IV/1.8
GHz, External Harddisk 300 GB and 77.4 GB and UPS 6 Kva.
3.1.7.1 Phase of field seismic data processing :
Quality Control, observation to quality of seismic data recording is conducted to
identify the bad of seismic data/poor. Bad seismic data can all kinds of its type, like cap
only, line cut, weak shot, low frequency and others. Bad seismic data can influence
result of data process hereinafter; therefore seismic data of result of recording checked
its quality, then bad data to be eliminated. Quality of seismic data have influenced by
some factor, like human being factor, isntruments, natural etc.
Observation of quality data is conducted by pro-active either in field and basecamp,
personel of processing department note all that is happened during recording and give
the suggestion to observer of concerning obtained data quality. Data obtained the re-
checked its data quality and its geometry use the software of Promax. If there are data
quality which poor, reported to QC Petrochina Jabung and it’s immediately advised to
observer to repeat of recording data (Redrill). If see the wrong geometry, immediately
in co-ordinate cheque from Topography, offset from Drilling and program the recording
of data form Labo to know and improve the existing mistake. Follow the example of the
data with the quality of Good, Fair and Poor at Appendix III.16 and Appendix III.17.
3.1.7.2 Refraction static and analyse the uphole time vs depth
Calculation of Refraction Static and Analyse the Uphole Time vs Depth is conducted by
using GMG Refraction Static software, and done each swath. Analyse the Uphole Time vs
Depth, is conducted to observe the hole deep drill, pursuant to result analyse of Uphole Time vs
Depth can be seen the uphole time velocity. The uphole time velocity is compared to refraction
velocity, to know the truth of hole deep drill. The hole deep drill imprecise can influence the
quality of data seismik
Final Report 32
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
3.1.7.3 Data Processing
Field data processing was conducted per swath to each inline in 24 full fold. Seismic
data was process by promax software in according to the parameters as below:
[01] Reform to int ProMAX form Rec. Length at 5 sec at 2 ms
[02] True Amplitude Recovery - Apply Spherical Divergence Corrections : 1/dist
- Time Power Const: 0.6
[03] Static Correction - Elevation Static
[04] Surface Consistent Amps - Apply Bandpass Filter When Input & Compute
Time (ms) Filter (Hz)
0000-6000 8-12-60-70
- Comp used in Amp scaling : SHOT, RCVR,OFFSET
[05] Surface Consistent Decon - Spiking
- White Noise 0.1 %, Operator Length 120 ms
[06] Velocity Analysis 1 - Picked Every 625 m
[07] NMO Application & Mute - Vel time Ref to Floating Datum
[08] Brute Stack - Apply Final Datum Static
[09] Residual Static 1 - Max Power Autostat
[10] Velocity Analysis 2 - Picked Every 625 m
[11] Final Stack 1 - Apply Residual Static
[12] Residual Static 2 - Max Power Autostat
[13] Final Stack 2 - Apply Residual Static
[14] Random Noise Attenuation- F-X Decon, White Noise 0.1%
[15] Migration - Kirchoff Time Migration
- Max. Dip to migrate 45 degrees
- Migration Aperture 1000 m
[16] Band Pass Filter Time (ms) Filter (Hz)
0000-0500 15-20-60-70
0600-2600 10-12-60-70
2700-5000 8-12-40-50
[17] Trace Equalization - AGC 500 ms gate length
The flowchart of seismic data can be seen at Appendix III.18.
Final Report 33
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
3.1.7.4 Backup of Data
All seismic data have to backup in exabyte with SEG-Y format as below:
1. Raw Data which is conducted geometry process in 32 bit format.
2. Final Stack, Migration dan Brute Stack Volume.
3. All supporting data (SPS File, Refraction Static, Editing Trace, First Break Picking, and
Observer Report) will be backup into Compac Disc.
3.1.7.5 Seismic Data Shipment
The seismic data shipment is conducted after checking and approvement by QC
Representative Petrochina. All shipment data as follow:
1. Tape Catridge
2. Supporting Data (Location Map, Explaining Note, Observer Report, Field Observer
Report, Layout Map, Full Fold Coverage, Noise Analysis, Sketch Line)
3. Sketch Posisi Shot Point.
4. SEG-Y Geometry, Final Stack, Migration dan Brute Stack Volume
5. Plotting Final Stack dan Migration
6. SPS File, Refraction Static, Editing Trace, First Break Picking, Observer Report.
3.1.8 Other Activities
There are other activities to support the project, such as:
Daily and weekly report always sent to Petrochina office in Jakarta via email.
Monthly report is contains all activity and production during one month.
Tape of recording is sent for 2 – 3 lines. Delivery of Tape A is sent to Petrochina office
in Jakarta and tape B (as backup) is sent to Petrochina Geragai in Jambi.
III.2. NON TECHNICAL SUPPORT
3.2.1 Base Camp
The Base Camp for seismic survey consists of workshop, Elnusa offices, client office,
clinic, 3 messes for the personels and ample off road parking space for crew vehicles. The base
camp construction started on 21 August 2005 and was completed on 29 September 2005.
Final Report 34
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
3.2.2 Management of Transportation
Vehicles for the operation were provided by PT. Elnusa Geosains and its sub-
contractors. The Chief of Mechanic was totally responsible for all vehicles used, include the
driver and fuel provision. The transportation was handled direct (contract of vehicle, vehicle
damage, spare part, etc) by Management Elnusa in Jakarta. The vehicles condition was an
important factor because of the frequency of vehicle usage. Therefore it required a lot of effort
from the HSE Dept. to keep the vehicles roadworthy.
3.2.3 Management of Communications
A communication system via radio was managed by the radio operator in Base Camp.
Installation of radio rig attached in each car and handy talky (HT) to all personnel supported the
communications requirements. To serve the VHS system 3 repeater were placed in Base camp,
Purwodadi village of Betara District and Paritpudin village of Pangabuan District. Radio
communications for the 3D Betara Project is use 258 units radio HT and 39 units of radio rig.
Telephone and faximile are used to forwarding the report and coordination with head office of
Petrochina and Elnusa Geosains in Jakarta. See at Appendix III.19.
3.2.4 Management of Workshop
All equipments and instruments used on the project are Elnusa’s private assets. The
mobilization of equipments and instruments from Main Storage in Bumi Serpong Damai to
base camp of Elnusa A5.43 was conducted gradually by airplane and vehicle. It is depends on
project requirement and assisted by inventory data personnel in detail requirement and makes
coordination by Management of Asset in Elnusa Geosains, Jakarta. The detail can be seen at
Appendix III.20.
3.2.5 Management of Security
System of ADM Inventory
Equipments used on the seismic survey entirely represent the Elnusa’s private asset,
therefore if any equipments damage or loss will become the Project responsibility. This
case become the serious attention and needs a management to saving the asset in
Final Report 35
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
through administrative and by correct equipments distribution. Chief Labo and
Inventory personnel will handle directly all equipments distributed to personnel of
Elnusa and Client by using form “Transmittal Letter” which sign second side and
agreed by Party Chief.
Night Guard in Field
To anticipate and avoid the trouble of all equipments kept in Workshop and also used in
the field hence will be placed a night guard. In Workshop as representing repair place
and depository all record equipments conducted by a night guard recruitedly from local
citizen during 24 clock for safety in Workshop, while for safety equipments in field
(cable, geophone, bateray etc) from liaison team will coordinate with the local
government head to take a local citizen to be assigned as equipments security.
The demobilization of recording equipments from field to workshop needs additional
security guard to anticipates the undesirable matter.
III.3. Health Safety and Environment
3.3.1 Introduction
The Enviromental Program was given the same amount of urgency as other activity.
One of the project targets was to minimize the damage of environment. Therefore, the policy,
procedure and regulation of related to environmental conservancy and management have been
applied at Elnusa Party A5.43 which also relate to MIGAS Regulation. The enviromental
programs at Elnusa Geosains party A5.43 as follows:
3.3.1.1 Waste Management
Waste yielded during activity generally non toxic and dangerous substance waste
faction (B3). Waste yielded especially is organic, inorganic, human being waste, waste of
kitchen and bathroom. Each waste yielded has been handling and management as according to
procedure HSELP 103 and other, similar rule going into effect. Nonorganic and organic
garbage coming from food consumed by the personnel crew, have to collected and kept at
separate ash can. Organic waste in Field Camp thrown in hole and it is immediately burned at
drum. While inorganic garbage thrown at dismissal hole to immediately piled up when have
Final Report 36
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
full to help decomposition process. Every Field Camp made available two hole of size measure
1 x 2 metre with 1 metre deepness for keep liquid waste coming from kitchen and bathroom.
3.3.1.1 Oil Waste Management
Oli waste that produced from mechanical activity for example: generator, drilling
machine treatment and others accomodated temporaly in drum and sent to the recycling
industry.
3.3.1.2 Program of Environmental Reservation
Program to preserve environment is given through induction to all crew concerning
damage interdict of environment. For example, prohibited to hunt and kill the wild animal,
prohibited to cut the acacia plant. For the rintis-bridging and line surveying crew are prohibited
to cut the productive and scarce crop in the field. Others, HSE Department also gives the
pictures or INFO HSE with inviting all personnel follows to participate in preserve
environment.
3.3.1.3 Reclamation
Reclamation program was conducted to minimalize environmental damage and return
the environment to its original state. Reclamation is conducted to all physical of building or
construction which have been made during seismic activity, such as base camp, field/flying
camp, explosives storage, workshop, fuel storage and others. Reclamation also conducted at
seismic line bridging. Remains material yielded from this activity generally in the form of
construction material which admit of re-used and always enthused by resident near the location
of the building. The residu of other materials cannot be exploited again was burned and piled
up. But sometimes the reclamation was not allowed by ownership of farm, hence to anticipate
the existence of damage claim in the next time, we makes a list aggreement signed by
ownership of farm and approve by local goverment.
3.3.1.4 Housekeeping
The housekeeping program was carried out to improve awareness of environmental
hygiene by cleaning environment. The housekeeping programs in Base Camp is conducted by
special personnel which cleaning the Base Camp area at all times. Housekeeping programs in
Field or flying Camp are executed under coordination of Camp Boss. The housekeeping
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 37
programs already conducted by all personnel in Base Camp every day start at 06.30 WIB, by
cleaning each office from garbage or other material which was not needed, the programs not
executed in the Field/flying Camp optimally.
After reclamation Camp in use
Figure III.11. Camp Reclamation
Figure III.12. Slank Spit Reclamation
3.3.1.5 Base Camp
All programs in Base Camp always are planned and have been specified in HSE Plan, such as:
Daily Toolbox Meeting at 07.00 wib.
Weekly Committee Meeting every Tuesday at 15.00 wib.
General housekeeping every Sunday at 16.30 wib.
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ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
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BETARA – NAPAL - RUKU
3.3.2 Proactive Performance (meeting, training, inspection, exercise etc)
3.3.2.1. Report / Observation of Incident
Stop Card intended to report the unsafe condition, unsafe act and near miss that
happened to crew. The procedure of Stop Card was to write a chronology of the unsafe act,
unsafe condition and near-miss and if possible suggest the solution in the field. The Stop Card
was continually sosialized and given to all Department, QC, Management, all supervisor, and
field operator. HSE always reviewed the report and made suggestions to appropriate
Departments.
3.3.2.2. Inspection / Audit
To know the consistency of implementation HSE according to specified standard, the
HSE department compile the proactive inspection program for all unit operation assited by all
staff Management of Elnusa Party A5.43. The inspection covered each relevant aspect with the
operation, such as Operation Crew in field, Base Camp, Field/flying Camp, Transportation,
Explosive Storage etc.
3.3.2.1 HSE Meeting
The meeting is conducted in daily or weekly which attended by all component in the
survey seismic to solve the HSE related problems.
3.3.2.1.1 Daily Meeting
Daily meeting is called as “Toolbox Meeting”. The Toolbox Meeting is conducted by
each department and discuss about work procedures relates with HSE, work preparation and
target for the day.
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 39
Figure III.13. Field Inspection
Figure III.14. Tool Box Meeting on Basecamp
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 40
3.3.2.1.2 Weekly Meeting
Weekly meeting was called the HSE Committee Meeting. The meeting was conducted
by HSE officer and involved all department head’s and sub-contractors every Tuesday on 15.00
WIB in Base Camp. The meeting discussed anything related to applying of HSE standard, the
Action Tracking List was made as a reference to control the operational accomplishment of
standard HSE.
The weekly HSE meeting internally was also conducted every unit operation in
Field/flying Camp and involve all staff management of each department, inclusive with all or
operator. In this meeting is discuss all topics both for concerning technical of operational and
HSE procedure in field. The all principal things becoming fundamental discussion at
Committee Meeting usually acted furthermore in this meeting
Figure III.15. Weekly Committee Meeting
3.3.2.1.3 Internal Meeting Department
Based on specified target and according to schedule that for each department has to
conducted weekly internal meeting minimum once a week. During the operation, there are no
exclusive problems on each department, because any problems in each department are
discussed in the Committee Meeting.
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 41
3.3.2.2 Training
All personnels who are concerned in this operation must have a knowledge about his
responsibility. Hence training programs were conducted by Department HSE related to their
responsibility as follows:
Figure III.16. Internal Meeting Department
3.3.2.2.1 Management Training of K3LL
The training is designed for all supervisor i.e Driller, Shooter and Topography operator.
The training also involves all medic and delegation from sub contractor in order to make them
more comprehensive of their responsibility and their comitmen to HSE.
3.3.2.2.2 Training in Using Manset
The training is designed for all crew and given at induction of the crew. The training is
given to ensure that all personel understand to use correct equipment and described the danger
of knife when used incorrectly which can result serious injured.
3.3.2.2.3 Training of food handling
Training of food-stuff handling is generally given to all chef both of Elnusa and sub
contractors. The personnel getting the training are about 55 people.
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 42
Figure III.17. Training in using Manset
Figure III.18. Training of Food Handling
3.3.2.2.4 Training of Extinction Fire
The training has a purpose in order to make all personnel listen carefully of a sign – of
fire and its danger. Training was conducted to all personnel both of base camp or sub
contractors both through practice and theory.
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 43
Figure III.19. Training Extinction Light Power
3.3.2.2.5 Training of First Aid and RJP
Elnusa’s medic conducted first aid and Resusitation Heart Lungs immediately at
accident victim to prevent serious injury to personnel. The items were given in the form of
practice and theory by using dummy doll. The Elnusa’s medic also gives training to the
personnel who are at base camp.
There are about 30 % or 134 personnel of gaffer get training of first aid accident and
Resusitation Heart Lungs.
Figure III.20. RJP Training
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 44
3.3.2.2.6 Defensive driving
The training is designed for all drivers in Elnusa Party A5.43 in order to improve their
skill and also improve their bad driving habits. There are 5 attitudes in driving, such as view far
forwards, master the view area, ascertaining they are see our position, there are places to avoid
of accident.
3.3.2.2.7 Job Safety Analysis (JSA)
Training of Job Safety Analysis or Job Hazard Analysis is aim to specify the steps of
safety first, therefore each personnel can eliminate a risk and affectively to decrease an accident
case. Hence, ideally the training is given before start to work.
Figure III.21. Crew recording induction
3.3.2.3 Induction
Induction is the HSE standard programs which carry out by each personnel in concerned
with the project. Induction is designed for visitor or new personel to the project. Induction
generally explains about HSE Policy and Procedure and other aspect related to health, safety
first and environmental protection, such as: procedures to evacuate when there is danger, the
risks with relevant job and elementary training regarding procedure of emergency.
Final Report 45
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Induction for crew is conducted when minimum standard of HSE already completed i.e
preparation of PPE, facility of Field/flying Camp and contractual agreement.
3.3.2.4 Accident
Accident is an undesirable and unplanned condition which resulting injury, or even
death to human being and can cause environment damage or material damageat the seismic
survey.
Clasification of accident from MIGAS are:
Fatality
High, is the accident that makes lost time more 1 day or cause lifetime injuries (LTI /
Lost time Injury).
Medium is accident that makes lost time less 1 day or causing restricted activity of the
victim (RWC / Restricted Work Case).
Low is accident with not causing of lost time (MTC / Medical treatment Case).
Just need first aid called FAC (First Aid Case).
3.3.3 Reactive Performance
3.3.3.1 Frecuancy Rate (FR)
Frekuency Rate (FR) is a ratio between accident cases with man work hours. FR in
period of 24 August 2005 – 10 May 2006 is:
5 x 1.000.000
FR = ------------------------------------- (1 year period, ANSI)
1.476.680
FR = 3,386
3.3.3.2 Safety Rate
Severity Rate (SR) is a ratio between lost time injuries with man work hours. Safety rate
in period of 08 Desember 2003 – 29 Juni 2005 is:
Final Report 46
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Total lose day x 1.000.000 SR = -------------------------------------------- (1 year periode, ANSI) Total man work hours SR = 0 3.3.3.3 Total Injury Recordable Frequency
Total Injury Recordable Frequency (TIRF) is a ratio between total of accident with total
of man work hours.
5 x 1.000.000 TIRF = ------------------------------------------------ (1 year period, ANSI) 1.476.680 TIRF = 3,386
3.3.4 Healthy Aspect
Health standard of the crew is implemented with medical check up by doctor to ensure
that all workers didn’t have any desease on the project, and this also valid for all chef. The
dominant case during the seismic survey is three major diseases type, first is ISPA, second is a
skin disease and third is Myalgia disease. Climate and weather is dominat factor the influence
to the deseases, besides by nutrition factor, job activity condition and hygene. The deseases can
be overcome in level 2 and 3 without generating a new.
3.3.4.1 Medical Officer
Facilities on the field is very limited, hence to each crew is served by medical officer on
the field. Total of medical officer in Elnusa Party A5.43 are:
No. Contractors Quantity
1. PT. Elnusa Geosains 1 person
2. PT. Sumatera Multi Kencana (Recording, Drilling, and Rintis Bridging) 3 persons
3. PT. Industrialindo Konsultrain Service (Drilling) 1 person
4. PT. Unedo Anderson (Preloading and Special Service) 2 persons
5. PT. Elnusa A5.02 (Topography) 1 person
T o t a l 8 persons
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 47
3.3.4.2 Drinking Water Procurement
Drinking water was provided from well according to requirement, whereas for Base
Camp use mineral water crated. Water is one of important factor for life, if condition of used
water improper hence big possibility will generate health problems. Medical officer cooperate
with HSE Dept conduct regularly checking and observation of water quality by physicaly
cheque such as odourless, no taste, no chromatic.
3.3.4.3 Supplying Food-Stuff
Observations of nutricion quality of food consumed by field personnel are conducted by
checking using formal Cheklist by medical officer & HSE Department of Elnusa Geosains. If
found to be unappropiate or inconstient in supplying food-stuff by subcontractors, the result
must be submitted to HSE Departement and it can be followed up by related division. During
the seismic survey, found any substandard food stuff quality. Management tour is also
conducted to correct the problem and looking for solution if found any problems of food quality
to field crew.
3.3.4.4 Supply of Medicines and Equipments
Medication is the last step in handling health problems and one of important factor to
decrease infection disease in a community. In the seismic survey, supply of medicines and
equipments not adequate for quantity, although as quality it is better because supported by
health facilities in Kuala tungkal area. Medical Inspection is conducted once a week to control
medicines quality and quantity in field champ.
Figure III.22. Medicines on Field Camp and Base Camp
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 48
3.3.4.5 Dengue Control
Based on data from Regional Public Health Service of Tanjung Jabung Barat regency,
the region is inclusive of dengue endemic area. HSE Department and medical officer makes
fogging program in Base Camp, flying camp, field camp periodically to prevent the epydemic
of dengue disease.. Fogging for all crew to improve the hygiene of himself and use mosquito
net when sleep. There are some personel infected by malaria. A5.43.
Figure III.23. Field Camp & Base Camp Fogging Activity
III.4 PUBLIC RELATION AND DAMAGE CLAIM
3.4.1 Permit Recomendation
All of permit recommendation to support the seismic activity are prepared before started
which handled and directly coordinated by Petrochina Jabung.
The permit recommendation as below:
1. Recommendation from Migas
2. Security Clearance from TNI Headquarter (SC).
3. Police License about purchasing, using, saving and transporting explosive materials.
4. Recommendation from the regent of Tanjung Jabung Barat.
5. Recommendation from Governor of Jambi.
3.4.2 Sosialization
Solializations are conducted for one month before the activity started. Firstly, the Public
Relation of Elnusa and Petrochina were carrying out social activity in Regency level (Regency
of Tanjung Jabung Barat). They were explaining all plan of seismic survey with the emphasis
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Final Report 49
on damage claim based on to Regent Decree (local SK). These activities involve the Muspida,
Muspika and all governance officer of regency in the whole survey area.
Figure III.24. Sosialization of Liaison
3.4.3 Inventory and Claim Damage
To determine the ownership of farm that was passed by seismic lines, it was made an
integrated inventory team which consisted of personnel of Sub district and Countryside. These
teams were collecting the data from ownership of farm and type plant to grow.
The result was known by Regency Head, and chief local Sub-Regency hereinafter will
be processed for the calculation of damage claim which appropriate with SK Regent. Inventory
was conducted at line surveying (topography) to know the ownership of farm as soon as
possible, and to anticipate the problems at next time.
3.4.4 Payments
Payments were based on the decree of the local Government based on data of damage
claim to survey seismic that conduct from topographic survey until recording. This data is
released by division from Public Relation representative from Petrochina and Elnusa, assisted
by special PR (elite figure from local regency) and relevant governance (RT/RW). There are 2
inventory data, i.e. 1 sheet brought by regency government and the other as from Petrochina,
Final Report 50
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
and will be used as reference in the moment of amends, hence the payments were accepted by
all of party.
Payments are directly conducted by team from Elnusa and Petrochina to the landowners
and witnessed by Head of regency and Muspika. Finally, payments can be finished well agree
with the guidance of management Petrochina, Jakarta.
3.4.5 Problems of Implementation on Field
The problems on field were caused by cultural complexity of the survey area. The
ownership of farm gets morale support from various LSM to makes unrealistic damage claim.
They are claim bigger than Regent Decree (SK), and most of them emphatically refuse the
seismic survey on their area.
The Public Relation of Elnusa and Petrochina never gives up makes resosialization to the
mass, they often cooperate with the other related parties like Muspida, Muspika, Local LSM,
elite figure (Ustad, Kyai, Sesepuh) to explain to the mass. Generally the survey is categorized
as successful.
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
4. PRODUCTION STATISTIC
Seismic operation activity from the start until the finish of operation in the PetroChina
International Jabung Ltd. program including Line surveying, Line Clearing/Bridging, Shot
Hole Drilling, Preloading, and Recording activity are as follows:
GPS Observation 3D Program (Betara block, Phase-1)
Total BM Observed program : 24 bench marks Total BM GPS Established program : 24 bench marks
GPS Observation 2D Program (Napal/Ruku block, Phase-2 until Phase-4)
Total BM Observed program : 26 bench marks Total BM GPS Established program : 26 bench marks
Line Clearing / bridging 3D Program (Betara block, Phase-1 include additional
program):
Receiver line Clearing & bridging Program : 820.080 kilometers Source line Clearing & bridging Program : 1139.288 kilometers
Line Clearing / bridging 2D Program (Napal & Ruku block, Phase-2 until Phase-4):
Total Line Clearing & Bridging production : 469.020 kilometers
Line surveying 3D Program (Betara block, Phase-1 include additional program):
Shoot Line Surveyed : 1139.288 kilometers Receiver Line Surveyed : 820.080 kilometers
Line surveying 2D Program (Napal & Ruku block, Phase-2 until Phase-4):
Line Surveyed : 469.020 kilometers
Final Report 51
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
Drilling and Preloading 3D Program (Betara block, Phase-1):
Drilling : 20,270 holes Preloading : 20,270 holes
Drilling and Preloading 2D Program (Napal & Ruku block, Phase-2 until Phase-4):
Drilling : 7,830 holes Preloading : 7,830 holes Drilling Up Holes : 50 holes
Recording 3D Program (Betara block, Phase-1):
Recording Production : 20,270 holes
Recording 2D Program (Napal & Ruku block, Phase-1 until Phase-4):
Recording Production : 7,830 holes Recording Up hole : 47 holes
Final Report 52
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
5. CONCLUSION
During the course of the survey which ran from September 2005 until May 2006,
there were many factors that influenced field activities and some had an adverse effect on the
crew achieving the production targets set.
For the purpose of this report, it is concluded that:
OPERATION:
a. The surveying operations were relatively successful, the average production rates
being above target.
b. The drilling operation was successful, both in terms of production and quality with no
serious problems encountered during the operation.
c. The recording operation experienced very few problems, once the problems with PT.
WKS about the cutting of acacia tree at the forest area production. The seismic data
recorded may be considered good quality. The Recording operation was successful,
the average production rates being above target.
Health Safety and Environment (H.S.E)
Standard and ambulatory procedure HSE according to expected goals, although there
is some resistance that happened field. In general applying of procedure of HSE field can be
reached with the good result without generating negative impact to all laboring crew field
and also to local society and environment.
The H.S.E. standards and conditions the quantity of safety equipment supplied on the
seismic survey was considered good and well within international standards. Safety
awareness amongst the subcontractors was poor and caused constant friction between the
Elnusa management and the subcontractors which in some cases led to Elnusa taking
complete control of the subcontractors operations.
Final Report 53
ELNUSA GEOSAINS A5.28 Seismic Data Aquisition
ELNUSA GEOSAINS A5.43 SEISMIC DATA AQUISITION
PETROCHINA INT’ JABUNG SURVEI SEISMIK 3D/2D BLOK
BETARA – NAPAL - RUKU
PUBLIC RELATION
The Public Relation Department Activity walk according to plan and arrange the time
targeted, there are some field constraint of concerning liaison among other things unrighteous
WKS of problem cutting of acacia wood becoming main problem. Others farm problems
plant to grow incurred by trajectory seismic own the local resident. In general fluent
ambulatory Public Relation without there constraint meaning. All Public Relations personnel
both for there field and also in base camp can work better, braiding cooperation with the
related parties. All this coordination blessing which is by non-stopping done by Public
Relation team.
The Public Relation department had coordination meetings with the all the
community centers in the survey area. This facilitated the coordination and inventory of
damage related to the seismic activities. To avoid permitting delays by village people, humas
personnel were strategically stationed in every working line sector.
Although the actual delays caused by permit problems were minimal the inventory
and payment of compensation was severally hindered by infighting between the different
village groups within the survey area. There was also an as yet unresolved dispute between
the Palm Oil plantation and the local community which made it extremely difficult to
determine the borders of the Palm Oil plantation. Final compensation payments will require
adjustment once the above dispute has been settled by the Governors Office. Until that time
there will be outstanding issue that will make any further activity in the area almost
impossible.
Final Report 54
ELNUSA GEOSAINS A5.43
SEISMIC DATA AQUISITION PETROCHINA INT’ JABUNG
SURVEI SEISMIK 3D/2D BLOK BETARA – NAPAL - RUKU
LAMPIRAN
Final Report
APPENDIX - I.01
3D-2D BETARA-NAPAL-RUKU LINE PROGRAM MAPJAMBI 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
WKS P ul p an d Paper
Telu k Kempas
S inyerang
Ketapang
JL-
610
Teluk Nilau
B a
u n
g
R i
v e r
S rindit
Parit Pudin
Rig
h t B
ram
Hita
m R
iver
Left
Bra
m H
i tam
Rive
r
B e
t a
r a
R i
v e r
Rev.
F ile Name
Date
Drawing NoSurveyed by
Drawn by
Approved by
Checked by
2D-3D SEISMIC
ELNUSA GEOSAINS A5.43
PETROCHINA INTERNATIONAL Jabung Ltd,
PROGRAM MAP2D - 3D SEISMIC SURVEY
ZONE
SCALE FACTORFALSE EASTING
FALSE NORTHING
INVERSE FLATTENING
LATITUDE ORIGIN
CENTRAL MERIDIAN
SEMI MAJOR AXIS
PROJECTION SYSTEM
ELEVATION REFERENCE
ELLIPSOID REFERENCE
: MSL: 48
: 0.9996
: 500000 M: 10000000 M
: 0° N
: 105° E
: 298.25: 6378160.00: GRS'67
: UTM
290000 E 300000 E 310000 E
9870
000
N98
8000
0 N
9890
000
N
NOT TO SCALE
320000 E285000 E
9900
000
N99
1000
0 N
JABUNG BLOCK
290000 E 300000 E 310000 E 320000 E285000 E
SF GPS-01
S impang Abadi
To JambiBM PCJ-090
BM PCJ-089
BM PC J-088
BM PCJ-087
B M PCJ-086BM PCJ-085
BM PCJ-084
BM PC J-083
BM PCJ-082
BM PCJ-081
1578
1514
1532
1422
149 8
1 54 4
1470
1300
1 35 0
1 400
1450
1200
1 250
1150
1 10 0
1050
1 00 1
1 500
1 55 4
1300
135 0
1 400
145 0
1200
1 25 0
1 150
1100
1050
100 1
1500
1 30 0
1350
140 0
1 450
1 20 0
1250
115 0
1100
105 0
1001
1 300
1350
1 400
1450
125 0
1 200
115 0
1100
1 050
1001
1 502
1 300
1350
1 400
1 450
1200
125 0
115 0
1100
1 050
100 1
140 0
1 300
1350
1200
125 0
115 0
1100
1 050
1001
1500
1300
1350
1400
1450
1200
1250
1150
1100
1050
1001
1500
1552
1300
1350
1400
1450
1250
1200
1150
1100
1050
1001
1500
1550
13 00
1350
14 00
1450
1250
1200
1150
1100
1050
1001
1450
1500
1400
1350
1300
1250
1200
1150
1100
1050
1001
1500
1300
1350
1400
1 450
120 0
1250
1150
1512
11 00
1050
100 1
PIJ06-611
PIJ06-610
PIJ06-608
PIJ06-609
PIJ06-607
PIJ06-606
PIJ0
6-60
5
PIJ
06-6
04
PIJ
06-6
02PIJ0
6-60
1
PIJ0
6-60
3
C :\Docu ment s and Se ttin gs \IBM\My Docu me nt s\My Pic tures\ Pe troc hi na Map_9 .jpg
9859
000
N
BM PCJ-130
BM PCJ-128
BM PCJ-129
BM PCJ-127
BM PCJ-126
BM PCJ-125
BM PCJ-124
BM PCJ-123
BM PCJ-122
BM PCJ-121
BM PCJ-120
BM PCJ-119
BM PCJ-118
BM PCJ-117
BM PCJ-116
BM PCJ-115
BM PCJ-114
BM PCJ-113
BM PCJ-112
BM PCJ-111
BM PCJ-110
BM PCJ-109
BM PCJ-108BM PCJ-107
BM PCJ-106
BM PCJ-105
BM PCJ-104
BM PCJ-103 BM PCJ-102
BM PCJ-101
BM PCJ-100
BM PCJ-099
BM PCJ-098BM PCJ-097
BM PCJ-096 BM PCJ-095
BM PCJ-094
BM PCJ-093
BM PCJ-092
BM PCJ-091
Sketch Location
2005
PIJ05-511
P IJ05-512
P IJ05-513
DelimaDelima
Sri ayu
A rea Pe mb ib itan PT. WKS
Pematang Buluh
Sri ayu
Sri Menanti
TSM B lok B
T SM B lok C
Purwodadi
Bumi AYU
Kec. Pengabuan
Kec.
Tung
kal I
lir
Kec. Tungkal UluKec. Betara
ELNUSA A5.43
Vil lage
Seismic Bench Mark
Well
Production Forest
Protected Forest
Subdist ric Boundary
GPS BM Established
PIJ05-50
1
PIJ05-50
2
PIJ05-50
3
PIJ05-50
4
PIJ05-505
PIJ05-50
6
PIJ05-5
07
PIJ05-508
PIJ05-50
9
PIJ05-5
10
PIJ05-511PIJ05-512
PIJ05-513
PIJ05-514
PIJ0
5-51
5
S50
1
S50 2
S50
3S
5 04
S50 5
S5 0
6S
507
S5 0
8S
5 09
S51
0S
5 11
S5 1
2S
5 13
S51
4 S 51 5
S51
6S
5 17
S5 1
8 S5 1
9S
5 20 S
5 21
S5 2
2S5
23 S5 2
4 S5 2
5S
5 26 S5
27 S5 2
8S
5 29 S5 3
0S5
31 S5 3
2 S5 3
3S
534 S
535 S5 3
6S
537 S5
3 8 S5 3
9 S54
0 S5 4
1 S542 S
5 43 S5 4
4 S5 4
5 S5 4
6 S54
7 S54
8 S54 9
S55 0 S
5 51 S5
5 2 S5 5
3 S5 5
4 S5 5
5S
5 56 S5 5
7 S5 5
8 S559 S
5 60 S5
61 S5 6
2 S5 6
3 S5 6
4 S56
5 S56
6 S56
7 S56
8 S5 6
9
S5 7
0
S57
1
S5 7
2
S5 7
3
S5 0
1
S503
S5 0
2
S5 0
4
S5 0
5
S50 6
S50
7 S50
8
S5 0
9
S51
0
S51 1
S5 1
2 S5 1
3
S51
4
S51
5
S516
S5 1
7 S5 1
8
S51
9
S520
S5 2
1 S5 2
2 S52 3 S
5 24 S 5
2 5 S52
6 S52
7 S52
8 S52
9 S53
0
S5 3
1 S5 3
2 S5 3
3 S5 3
4 S5 3
5S
536
S537 S
5 38 S5
39S5
4 0S
5 41 S5 4
2S
5 43
S54 4
S545
S5 4
6S 5
4 7S
5 48
S5 4
9S5
50S
5 51
S55
2S
553
S5 5
4S
5 55
S5 5
6S
5 57
S55 8
S55
9S
560
S5 6
1S
5 62
S5 6
3S5
64S
565
S5 6
6S
5 67
S5 6
8S5
69S
5 70
S57
1S
5 72
S5 7
3
Canal
River
Road
Legend :
: 0.60 ppmk
: 0
: 0
: 0.774"
dX
dYdZ
: -2.691 m: +14.757 m
: -4.724 m
dXdY
dZ
GEOCENTRIC PARAMETERS FROM WGS'84 to ID'74
GEODETIC PARAMETERS
1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4
TIME SCHEDULE3D AND 2D LAND SEISMIC DATA ACQUISITION SERVICES, JABUNG BLOCK, JAMBI
PETROCHINA INTERNATIONAL JABUNG LTD 2005 / 2006
No DESCRIPTION VOLUME DAY CalenderAUG SEPT OCT NOV DES JAN FEB MAR APR MAY
REMARKS
1 TENDER PREPARATION1 Contract Award 0 1-Aug - 1-Aug
2 BC Construction 30 11-Aug - 10-Sep
3 Staging Construction 20 21-Aug - 10-Sep
4 Field Camp Construction 45 21-Aug - 5-Oct
5 Socialization 25 16-Aug - 10-Sep
6 Mobilization 45 15-Aug - 29-Sep
2 Phase I - W. Betara 3D ( 322,723 sqkm / 20270 Shots ) inc. add block1 GPS and Seismic BM 125 BM 21 24-Aug - 13-Sep
2 Topography ( Advance Party ) 1,959,368 Km 136 9-Sep - 22-Jan
3 Rintis Bridging 1,959,368 Km 131 16-Sep - 24-Jan
4 Drilling and Preloading 20,270 SP 105 5-Oct - 8-Feb
5 Recording ( Basic Party ) 20,270 SP 100 13-Nov - 20-Feb
6 Special Services 167 Days 167 8-Sep - 22-Feb
3 Phase II - Napal 2D ( 45 km / 747 Shots )1 GPS and Seismic BM 5 BM 3 14-Sep - 16-Sep
2 Topography ( Advance Party ) 44,760 Km 12 5-Jan - 17-Jan
3 Rintis Bridging 44,760 Km 18 28-Dec - 14-Jan
4 Drilling and Preloading 747 SP 9 26-Jan - 4-Feb
5 Mobilization equipment & crew from 3D block to 2D Napal 3 21-Feb - 23-Feb
6 Recording ( Basic Party ) 747 SP 8 24-Feb - 3-Mar
4 Phase III - Ruku 2D ( 255 km / 4,244 Shots )1 GPS and Seismic BM 79 BM 16 18-Sep - 3-Oct
2 Topography ( Advance Party ) 254,250 Km 34 16-Jan - 18-Feb
3 Rintis Bridging 254,250 Km 42 22-Jan - 4-Mar
4 Drilling and Preloading 4,244 SP 34 6-Feb - 11-Mar
5 Recording Moving & layout preparing 1 Day 1 4-Mar - 4-Mar
6 Recording ( Basic Party ) 4,244 SP 33 5-Mar - 5-Apr
5 Phase IV - Napal 2D Extension ( 170,010 km / 2893 Shots )1 GPS and Seismic BM 7 BM 4 14-Mar - 17-Mar
2 Topography (Advvance Party) 170,010 Km 29 20-Mar - 17-Apr
3 Rintis / Bridging 170,010 Km 28 24-Mar - 20-Apr
4 Drilling / Preloading 2,839 SP 25 2-Apr - 27-Apr
5 Mobilization equip. & crew from Ruku to Napal Block ext. 2 7-Apr - 9-Apr
6 Awaiting arrival Explosive 1 10-Apr - 11-Apr
7 Recording 2,839 SP 19 13-Apr - 2-May
8 Special Service for 2D Ruku - Napal & Napal block ext. 47 23-Feb - 10-May
APPENDIX - III.01 A
GPS PRODUCTION STATISTICS3D-2D SEISMIC SURVEY, BETARA-NAPAL-RUKU BLOCK, INDONESIA
JAMBI2005 - 2006
No MonthProduction Work Day Average
Profiles Work Holiday Total Production(Point) (day) (day) (day) (Point/work) (Point/total)
1 Aug-05 12 6 - 6 2 2
2 Sep-05 20 14 - 14 1 1
3 Oct-05 11 10 - 10 1 1
4 Nov-05 2 10 - 10 0 0
5 Dec-05 - - - -
6 Jan-06 5 2 4 6 3 1
TOTAL 50 42 4 46 1 1
12
20
11
2
5
-
2
4
6
8
10
12
14
16
18
20
Prod
uctio
n (H
ole)
Aug-05 Sep-05 Oct-05 Nov-05 Dec-05 Jan-06
Month
GPS PRODUCTION STATISTICS3D-2D SEISMIC SURVEY, BETARA-NAPAL-RUKU BLOCK, INDONESIA
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.01 B
BM SURVEY PRODUCTION STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI2005 - 2006
No MonthProduction Work Day Average
Profiles Work Holiday Total Production(Point) (day) (day) (day) (Point/work) (Point/total)
1 Sep-05 21 13 - 13 2 2
2 Oct-05 21 14 - 14 2 2
3 Nov-05 23 15 4 19 2 1
4 Dec-05 15 9 - 9 2 2
TOTAL 80 51 4 55 2 1
21 2123
15
-
5
10
15
20
25
Prod
uctio
n (H
ole)
Sep-05 Oct-05 Nov-05 Dec-05
Month
BM SURVEY PRODUCTION STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.01 C
SURVEY PRODUCTION STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI2005 - 2006
No MonthProduction Work Day Average
SL RL Total Total Work Holiday Total Production(Km's) (Km's) (Km's) Crew (day) (day) (day) (Km's/day) (Km's/total)
1 Sep-05 282.970 46.120 329.090 15 22 - 22 14.959 14.959
2 Oct-05 382.854 231.680 614.534 15 31 - 31 19.824 19.824
3 Nov-05 275.220 314.720 589.940 15 25 5 30 23.598 19.665
4 Dec-05 193.888 226.680 420.568 15 30 1 31 14.019 13.567
5 Jan-06 4.356 0.880 5.236 6 6 1 7 0.873 0.748
TOTAL 1139.288 820.080 1959.368 66 114 7 121 17 16
329.090
614.534589.940
420.568
5.236
0.000
100.000
200.000
300.000
400.000
500.000
600.000
700.000
Prod
uctio
n (S
tatio
n)
Sep-05 Oct-05 Nov-05 Dec-05 Jan-06Month
SURVEY PRODUCTION STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.01 D
DAILY CUMULATIVE SURVEY PRODUCTION STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
DAILY AND CUMULATIVE SURVEY PRODUCTION STATISTICS
-
5.000
10.000
15.000
20.000
25.000
30.000
35.000
40.000
9-S
ep-0
5
13-S
ep-0
5
17-S
ep-0
5
21-S
ep-0
5
25-S
ep-0
5
29-S
ep-0
5
3-O
ct-0
5
7-O
ct-0
5
11-O
ct-0
5
15-O
ct-0
5
19-O
ct-0
5
23-O
ct-0
5
27-O
ct-0
5
31-O
ct-0
5
4-N
ov-0
5
8-N
ov-0
5
12-N
ov-0
5
16-N
ov-0
5
20-N
ov-0
5
24-N
ov-0
5
28-N
ov-0
5
2-D
ec-0
5
6-D
ec-0
5
10-D
ec-0
5
14-D
ec-0
5
18-D
ec-0
5
22-D
ec-0
5
26-D
ec-0
5
30-D
ec-0
5
3-Ja
n-06
7-Ja
n-06
11-J
an-0
6
15-J
an-0
6
19-J
an-0
6
PRO
DU
CTI
ON
(Km
)
0.000
400.000
800.000
1,200.000
1,600.000
2,000.000
2,400.000
2,800.000
3,200.000
CU
MM
ULA
TIVE
Daily Target Daily Actual Cumulative Target Cumulative Actual Average Production
Target : 18.000 Km / day
Hol
iday
Idul
Fitr
i
APPENDIX - III.01 E
ProductionProfiles Work Holiday Total(Point) (day) (day) (day) (Point/work) (Point/total)
1 Jan-06 38 27 - 27 1 1
2 Feb-06 12 10 - 10 1 1
3 Mar-06 8 7 - 7 1 1
4 Apr-06 7 7 - 7 1 1
65 51 - 51 1 1
No
TOTAL
Work DayProduction
2005-2006
AverageMonth
BM SURVEY PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
JAMBI
38
12
87
-
5
10
15
20
25
30
35
40
Prod
uctio
n (H
ole)
Jan-06 Feb-06 Mar-06 Apr-06
Month
BM SURVEY PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.01 F
Coverage Access Total Work Holiday Total(Km's) (Km's) Crew (day) (day) (day) (Coverage/day) (Coverage/total)
1 Jan-06 205,050 16,060 6 27 - 27 7,594 7,594
2 Feb-06 93,960 6,051 6 18 - 18 5,220 5,220
3 Mar-06 87,870 17,875 5 12 1 13 7,323 6,759
4 Apr-06 82,140 18,639 5 13 4 17 6,318 4,832
469,020 58,625 22 70 5 75 838 782
2005-2006
AverageMonth
SURVEY PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
JAMBI
No
TOTAL
Work DayProduction
Production
205,050
93,96087,870 82,140
-
50,000
100,000
150,000
200,000
250,000
Prod
uctio
n (S
tatio
n)
Jan-06 Feb-06 Mar-06 Apr-06Month
SURVEY PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.01 G
DAILY CUMULATIVE SURVEY PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU BLOCK, INDONESIA
JAMBI2005-2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
DAILY AND CUMULATIVE SURVEY PRODUCTION STATISTICS
-
2.000
4.000
6.000
8.000
10.000
12.000
14.000
16.000
5-Ja
n-06
7-Ja
n-06
9-Ja
n-06
11-J
an-0
6
13-J
an-0
6
15-J
an-0
6
17-J
an-0
6
19-J
an-0
6
21-J
an-0
6
23-J
an-0
6
25-J
an-0
6
27-J
an-0
6
29-J
an-0
6
31-J
an-0
6
2-Fe
b-06
4-Fe
b-06
6-Fe
b-06
8-Fe
b-06
10-F
eb-0
6
12-F
eb-0
6
14-F
eb-0
6
16-F
eb-0
6
18-F
eb-0
6
PRO
DU
CTI
ON
(Km
)
0.000
100.000
200.000
300.000
400.000
500.000
600.000
700.000
800.000
CU
MM
ULA
TIVE
Daily Target Daily Actual Cumulative Target Cumulative Actual Average Production
Target : 5.760 Km / day
Hol
iday
Idul
Adh
a
APPENDIX - III.01 H
DAILY CUMULATIVE SURVEY PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL EXTENSION BLOCK, INDONESIA
JAMBI2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
DAILY AND CUMULATIVE SURVEY PRODUCTION STATISTICS
-
2.000
4.000
6.000
8.000
10.000
12.000
14.000
20-M
ar-0
6
21-M
ar-0
6
22-M
ar-0
6
23-M
ar-0
6
24-M
ar-0
6
25-M
ar-0
6
26-M
ar-0
6
27-M
ar-0
6
28-M
ar-0
6
29-M
ar-0
6
30-M
ar-0
6
31-M
ar-0
6
1-A
pr-0
6
2-A
pr-0
6
3-A
pr-0
6
4-A
pr-0
6
5-A
pr-0
6
6-A
pr-0
6
7-A
pr-0
6
8-A
pr-0
6
9-A
pr-0
6
10-A
pr-0
6
11-A
pr-0
6
12-A
pr-0
6
13-A
pr-0
6
14-A
pr-0
6
15-A
pr-0
6
16-A
pr-0
6
17-A
pr-0
6
PRO
DU
CTI
ON
(Km
)
0.000
50.000
100.000
150.000
200.000
250.000
300.000
350.000
CU
MM
ULA
TIVE
Daily Target Daily Actual Cumulative Target Cumulative Actual Average Production
Target : 5.760 Km / day
Perm
it fr
om W
KS
Stan
d by
Flo
od A
rea
APPENDIX - III.02 A
SL RL Total Total Work Holiday Total(Km's) (Km's) (Km's) Crew (day) (day) (day) (Km's/day) (Km's/total)
1 Sep-05 128.844 29.480 158.324 16 15 - 15 10.555 10.555
2 Oct-05 237.721 111.000 348.721 18 31 - 31 11.249 11.249
3 Nov-05 317.528 220.240 537.768 26 26 4 30 20.683 17.926
4 Dec-05 425.841 451.720 877.561 11 30 1 31 29.252 28.308
5 Jan-06 29.354 7.640 36.994 12 15 1 16 2.466 2.312
1139.288 820.080 1959.368 83 117 6 123 17 16
2005 - 2006
AverageMonth
RINTIS/BRIDGING PRODUCTION STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI
No
TOTAL
Work DayProduction
Production
158.324
348.721
537.768
877.561
36.994
0.000
100.000
200.000
300.000
400.000
500.000
600.000
700.000
800.000
900.000
Prod
uctio
n (S
tatio
n)
Sep-05 Oct-05 Nov-05 Dec-05 Jan-06Month
RINTIS/BRIDGING PRODUCTION STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.02 B
DAILY CUMULATIVE RINTIS/BRIDGING PRODUCTION STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
DAILY AND CUMULATIVE RINTIS/BRIDGING PRODUCTION STATISTICS
-
5.000
10.000
15.000
20.000
25.000
30.000
35.000
40.000
16-S
ep-0
5
20-S
ep-0
5
24-S
ep-0
5
28-S
ep-0
5
2-O
ct-0
5
6-O
ct-0
5
10-O
ct-0
5
14-O
ct-0
5
18-O
ct-0
5
22-O
ct-0
5
26-O
ct-0
5
30-O
ct-0
5
3-N
ov-0
5
7-N
ov-0
5
11-N
ov-0
5
15-N
ov-0
5
19-N
ov-0
5
23-N
ov-0
5
27-N
ov-0
5
1-D
ec-0
5
5-D
ec-0
5
9-D
ec-0
5
13-D
ec-0
5
17-D
ec-0
5
21-D
ec-0
5
25-D
ec-0
5
29-D
ec-0
5
2-Ja
n-06
6-Ja
n-06
10-J
an-0
6
14-J
an-0
6
18-J
an-0
6
22-J
an-0
6
PRO
DU
CTI
ON
(Km
)
-
400.000
800.000
1,200.000
1,600.000
2,000.000
2,400.000
2,800.000
3,200.000
CU
MM
ULA
TIVE
Daily Target Daily Actual Cumulative Target Cumulative Actual Average Production
Target : 18.000 Km / day
Hol
iday
Idul
Fitr
i
APPENDIX - III.02 C
Coverage Access Total Work Holiday Total(Km's) (Km's) Crew (day) (day) (day) (Coverage/day) (Coverage/total)
1 Dec-05 4,260 - 4 4 - 4 1,065 1,065
2 Jan-06 122,430 - 6 23 8 31 5,323 3,949
3 Feb-06 163,770 2,500 6 28 - 28 5,849 5,849
4 Mar-06 61,290 3,310 6 11 1 12 5,572 5,108
5 Apr-06 117,270 - 6 21 1 22 5,584 5,330
469,020 5,810 28 87 10 97 67 60
2005-2006
AverageMonth
RINTIS/BRIDGING PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
JAMBI
No
TOTAL
Work DayProduction
Production
4,260
122,430
163,770
61,290
117,270
-
20,000
40,000
60,000
80,000
100,000
120,000
140,000
160,000
180,000
Prod
uctio
n (S
tatio
n)
Dec-05 Jan-06 Feb-06 Mar-06 Apr-06Month
RINTIS/BRIDGING PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.02 D
DAILY CUMULATIVE RINTIS/BRIDGING PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU BLOCK, INDONESIA
JAMBI2005-2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
DAILY AND CUMULATIVE RINTIS/BRIDGING PRODUCTION STATISTICS
-
2.000
4.000
6.000
8.000
10.000
12.000
14.000
16.000
18.000
20.000
28-D
ec-0
5
30-D
ec-0
5
1-Ja
n-06
3-Ja
n-06
5-Ja
n-06
7-Ja
n-06
9-Ja
n-06
11-J
an-0
6
13-J
an-0
6
15-J
an-0
6
17-J
an-0
6
19-J
an-0
6
21-J
an-0
6
23-J
an-0
6
25-J
an-0
6
27-J
an-0
6
29-J
an-0
6
31-J
an-0
6
2-Fe
b-06
4-Fe
b-06
6-Fe
b-06
8-Fe
b-06
10-F
eb-0
6
12-F
eb-0
6
14-F
eb-0
6
16-F
eb-0
6
18-F
eb-0
6
20-F
eb-0
6
22-F
eb-0
6
24-F
eb-0
6
26-F
eb-0
6
28-F
eb-0
6
2-M
ar-0
6
4-M
ar-0
6
PRO
DU
CTI
ON
(Km
)
-
84.000
168.000
252.000
336.000
420.000
504.000
588.000
672.000
756.000
840.000
CU
MM
ULA
TIVE
Daily Target Daily Actual Cumulative Target Cumulative Actual Average Production
Target : 5.760 Km / dayH
olid
ay Id
ul a
dha
Stan
d B
y
Re
Indu
ctio
n
APPENDIX - III.02 E
DAILY CUMULATIVE RINTIS/BRIDGING PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL EXTENSION BLOCK, INDONESIA
JAMBI2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
DAILY AND CUMULATIVE RINTIS/BRIDGING PRODUCTION STATISTICS
-
2.000
4.000
6.000
8.000
10.000
12.000
14.000
24-M
ar-0
6
25-M
ar-0
6
26-M
ar-0
6
27-M
ar-0
6
28-M
ar-0
6
29-M
ar-0
6
30-M
ar-0
6
31-M
ar-0
6
1-A
pr-0
6
2-A
pr-0
6
3-A
pr-0
6
4-A
pr-0
6
5-A
pr-0
6
6-A
pr-0
6
7-A
pr-0
6
8-A
pr-0
6
9-A
pr-0
6
10-A
pr-0
6
11-A
pr-0
6
12-A
pr-0
6
13-A
pr-0
6
14-A
pr-0
6
15-A
pr-0
6
16-A
pr-0
6
17-A
pr-0
6
18-A
pr-0
6
19-A
pr-0
6
20-A
pr-0
6
21-A
pr-0
6
22-A
pr-0
6
PRO
DU
CTI
ON
(Km
)
-
50.000
100.000
150.000
200.000
250.000
300.000
350.000
CU
MM
ULA
TIVE
Daily Target Daily Actual Cumulative Target Cumulative Actual Average Production
Target : 5.760 Km / day
Perm
it fr
om W
KS
APPENDIX - III.03 A
MINIMUM SAFE DRILLING DISTANCES FROM OBSTACLESBETARA 3D SEISMIC SURVEY 2005/2006
OBSTRUCTION DISTANCE ACCORDING TO CHARGECharge Size Per Shot Hole 0.5 Kg 1.0 Kg 2.0 Kg SIZE
1 Oil or Gas Well Sumur minyak 100 100 100 Meters2 Metal and PVC-Pipe Water Well Sumur Air pipa PVC dan Besi 50 100 150 Meters3 Water Well Concrete Sumur Air Semen 100 100 100 Meters4 Pipe Above Ground Pipa di atas Tanah 25 50 50 Meters5 Pipe Line Surface Pipa di Permukaan Tanah 25 50 50 Meters6 Pipe Line Buried Pipa di bawah Tanah 50 100 100 Meters7 Road Dirt Gravel Jalan Tanah Kerikil 5 10 10 Meters8 Power Line Electric Jaringan Listrik 50 50 50 Meters9 Phone Line Jaringan Telpon 30 30 30 Meters
10 Brick / Cement Bridge Jembatan Semen / Beton 30 50 50 Meters11 Wooden Bridge Jembatan Kayu 10 30 30 Meters12 Bamboo Wood Building Bangunan Kayu / Bambu 15 50 50 Meters13 Brick / Cement Building Bangunan Semen / Beton 50 100 150 Meters14 Place of Worship Tempat Ibadah 100 100 150 Meters15 School Sekolahan 50 100 150 Meters16 Cemetery Makam 25 50 50 Meters17 Chicken House Kandang Ayam 75 100 150 Meters18 Soil Dyke Tanggul Tanah 10 20 50 Meters19 Sement Dam Bendungan Semen 10 20 50 Meters20 Soil Dam Bendungan Tanah 10 20 50 Meters21 Canals (Cement) Selokan 25 50 100 Meters
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.03 B
SHOT POINT OFFSET PROCEDURES3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI2005 - 2006
40m
40m 40mo
o
o
o oS- 571 S- 572 S- 573
o o o
o o o
o o o
o o o
o o 1 2 3 4 5 o
1 2 340m 80m 120m 160m 200m
o o o
o o o
o o o
o o o
1. Jika SP tersebut tidak bisa dibor maka di offset dengan Radius 10 meter.
2. Jika peraturan pertama tidak bisa maka di offset dengan kelipatan 40, 80, 120, 160, 200 meter - ( ke Kanan 149o atau ke kiri 329o Sejajar Receiver Line).
3. Jika peraturan pertama dan ke dua tidak bisa maka di offset keatas atau ke bawah tegak lurus Receiver Line 400 meter - ( 40m kanan atau ke kiri dan ke atas dari posisi SP setelah di offset 400 meter).
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
10m
Receiver Line
Receiver Line
400m
APPENDIX - III.03 C
SHOT POINT OFFSET PROCEDURES2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
JAMBI2005-2006
COMPENSATION & OFFSET SHOT POINT
S.P. CompensationS.P. Compensation
1 (One) SP, Rear or Front
MINIMUM SAFE DRILLING DISTANCES FROM OBSTACLESOBSTRUCTION DISTANCE ACCORDING TO CHARGE
Charge Size Per Shot Hole 0.5 Kg 1.0 Kg 2.0 Kg SIZE1 Oil or Gas Well Sumur minyak 100 100 100 Meters2 Metal and PVC-Pipe Water Well Sumur Air pipa PVC dan Besi 50 100 150 Meters3 Water Well Concrete Sumur Air Semen 100 100 100 Meters4 Pipe Above Ground Pipa di atas Tanah 25 50 50 Meters5 Pipe Line Surface Pipa di Permukaan Tanah 25 50 50 Meters6 Pipe Line Buried Pipa di bawah Tanah 50 100 100 Meters7 Road Dirt Gravel Jalan Tanah Kerikil 5 10 10 Meters8 Power Line Electric Jaringan Listrik 50 50 50 Meters9 Phone Line Jaringan Telpon 30 30 30 Meters
10 Brick / Cement Bridge Jembatan Semen / Beton 30 50 50 Meters11 Wooden Bridge Jembatan Kayu 10 30 30 Meters12 Bamboo Wood Building Bangunan Kayu / Bambu 15 50 50 Meters13 Brick / Cement Building Bangunan Semen / Beton 50 100 150 Meters14 Place of Worship Tempat Ibadah 100 100 150 Meters15 School Sekolahan 50 100 150 Meters16 Cemetery Makam 25 50 50 Meters17 Chicken House Kandang Ayam 75 100 150 Meters18 Soil Dyke Tanggul Tanah 10 20 50 Meters19 Sement Dam Bendungan Semen 10 20 50 Meters20 Soil Dam Bendungan Tanah 10 20 50 Meters21 Canals (Cement) Selokan 25 50 100 Meters
SP.1001
TRACES
S.P. DRILLED
S.P. NO DRILLED
=
=
=
60 Meters
30 Meters
SP.1003
==
=
S.P. COMPENSATION
S.P. OFFSET
RIVER
TR1001
TR1002
TR1003
TR1004
TR1005
SP.1005
TR1006
TR1007
TR1008
TR1009
TR1010
SP.1007
Offset Maximum15 Meters
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.04 A
Total Depth Work Holiday Total depth(hole) ( m). (day) (day) (day) (hole/work) (hole/total) m/hole
1 Oct-05 4,042 98734.0 26 - 26 155 155 24.4
2 Nov-05 3,335 81928.0 23 7 30 145 111 24.6
3 Dec-05 6,779 165902.0 30 1 31 226 219 24.5
4 Jan-06 5,983 146469.5 30 1 31 199 193 24.5
5 Feb-06 131 3205.5 5 - 5 26 26 24.5
20,270 496,239.0 114 9 123 178 165 24.5
2005 - 2006
AverageMonthNo
TOTAL
Work DayProduction
Production
DRILLING SHOT POINT PRODUCTION STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI
4,042
3,335
6,779
5,983
131
-
1,000
2,000
3,000
4,000
5,000
6,000
7,000
Prod
uctio
n (H
ole)
Oct-05 Nov-05 Dec-05 Jan-06 Feb-06Month
DRILLING PRODUCTION STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.04 B
DAILY CUMULATIVE DRILLING PRODUCTION STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
DAILY AND CUMULATIVE DRILLING PRODUCTION STATISTICS
-
40
80
120
160
200
240
280
5-O
ct-0
5
9-O
ct-0
5
13-O
ct-0
5
17-O
ct-0
5
21-O
ct-0
5
25-O
ct-0
5
29-O
ct-0
5
2-N
ov-0
5
6-N
ov-0
5
10-N
ov-0
5
14-N
ov-0
5
18-N
ov-0
5
22-N
ov-0
5
26-N
ov-0
5
30-N
ov-0
5
4-D
ec-0
5
8-D
ec-0
5
12-D
ec-0
5
16-D
ec-0
5
20-D
ec-0
5
24-D
ec-0
5
28-D
ec-0
5
1-Ja
n-06
5-Ja
n-06
9-Ja
n-06
13-J
an-0
6
17-J
an-0
6
21-J
an-0
6
25-J
an-0
6
29-J
an-0
6
2-Fe
b-06
6-Fe
b-06
PRO
DU
CTI
ON
(SP)
-
4,000
8,000
12,000
16,000
20,000
24,000
28,000
CU
MM
ULA
TIVE
Daily Target Daily Actual Cumulative Target Cumulative Actual Average Production
Target : 175 holes / day
Hol
iday
Idul
Fitr
i
Hol
iday
Chr
istm
as
Hol
iday
New
Yea
r
Hol
iday
Idul
Adh
a
No
prod
uctio
n Pe
rmit
from
WK
S
No
prod
uctio
n Pe
rmit
from
WK
S
APPENDIX - III.04 C
Holes Depth Coverage Total Work Holiday Total depth(Mtr) (Km's) (Crew) (day) (day) (day) (hole/work) (hole/total) m/hole
1 Jan-06 611 22891.0 51,390 4 6 - 6 102 102 37.5
2 Feb-06 3,169 58249.0 132,540 4 28 - 28 113 113 18.4
3 Mar-06 1,211 78014.0 174,960 4 11 - 11 110 110 64.4
4 Apr-06 2,839 69458.0 169,680 4 23 3 26 123 109 24.5
7,830 228612.0 528,570 16 68 3 71 115 110 29.2
DRILLING PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
JAMBI2005-2006
No
TOTAL
Work DayProduction
Production AverageMonth
611
3,169
1,211
2,839
-
500
1,000
1,500
2,000
2,500
3,000
3,500
Prod
uctio
n (H
ole)
Jan-06 Feb-06 Mar-06 Apr-06Month
DRILLING PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.04 D
DAILY CUMULATIVE DRILLING PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU BLOCK, INDONESIA
JAMBI2005-2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
DAILY AND CUMULATIVE DRILLING PRODUCTION STATISTICS
-
40
80
120
160
200
240
280
26-J
an-0
6
28-J
an-0
6
30-J
an-0
6
1-Fe
b-06
3-Fe
b-06
5-Fe
b-06
7-Fe
b-06
9-Fe
b-06
11-F
eb-0
6
13-F
eb-0
6
15-F
eb-0
6
17-F
eb-0
6
19-F
eb-0
6
21-F
eb-0
6
23-F
eb-0
6
25-F
eb-0
6
27-F
eb-0
6
1-M
ar-0
6
3-M
ar-0
6
5-M
ar-0
6
7-M
ar-0
6
9-M
ar-0
6
11-M
ar-0
6
PRO
DU
CTI
ON
(SP)
-
1,000
2,000
3,000
4,000
5,000
6,000
7,000
CU
MM
ULA
TIVE
Daily Target Daily Actual Cumulative Target Cumulative Actual Average Production
Target : 100 holes / day
Perm
it Pr
oble
m
Perm
it Pr
oble
m
APPENDIX - III.04 E
DAILY CUMULATIVE DRILLING PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL EXTENSION BLOCK, INDONESIA
JAMBI2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
DAILY AND CUMULATIVE DRILLING PRODUCTION STATISTICS
-
40
80
120
160
200
240
2-A
pr-0
6
3-A
pr-0
6
4-A
pr-0
6
5-A
pr-0
6
6-A
pr-0
6
7-A
pr-0
6
8-A
pr-0
6
9-A
pr-0
6
10-A
pr-0
6
11-A
pr-0
6
12-A
pr-0
6
13-A
pr-0
6
14-A
pr-0
6
15-A
pr-0
6
16-A
pr-0
6
17-A
pr-0
6
18-A
pr-0
6
19-A
pr-0
6
20-A
pr-0
6
21-A
pr-0
6
22-A
pr-0
6
23-A
pr-0
6
24-A
pr-0
6
25-A
pr-0
6
26-A
pr-0
6
PRO
DU
CTI
ON
(SP)
-
1,000
2,000
3,000
4,000
5,000
6,000
CU
MM
ULA
TIVE
Daily Target Daily Actual Cumulative Target Cumulative Actual Average Production
Target : 100 holes / day
No
Prod
uctio
n du
e to
the
late
ar
rival
exp
losi
ve
APPENDIX - III.05
EXPLOSIVE LOADING DIAGRAM3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI2005 - 2006
Main Charge 1 kg Dayagel1 pcs Detonator
Rafia Rope
Cap Wire
O'Ring
Fully Tamped
Plastic Point
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX -III.06
EXPLOSIVES CONSUMPTION STATISTICS3D-2D SEISMIC SURVEY, BETARA-NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
JAMBI2005 - 2006
No MonthDynamite Detonator Work Day Average Usage
500 Gr Total 100 Feet Work Holiday Total Dynamite Detonator(Pcs) (Kg) (Pcs) (Day) (Day) (Day) (Kg/day) (Pcs/day)
1 Oct-05 8,235 4,118 4,119 26 - 26 158 158
2 Nov-05 6,992 3,496 3,496 23 7 30 152 152
3 Dec-05 14,080 7,040 7,040 30 1 31 235 235
4 Jan-06 13,655 6,828 6,847 30 1 31 228 228
5 Feb-06 7,062 3,531 3,593 28 - 28 126 128
6 Mar-06 2,792 1,396 1,734 31 - 31 45 56
7 Apr-06 5,927 2,964 3,135 28 2 30 106 112
8 May-06 2 1 1 1 - 1 1 1
TOTAL 58,745 29,373 29,965 197 11 208 149 152
8,235
4,119
6,992
3,496
14,080
7,040
13,655
6,847 7,062
3,593
2,792
1,734
5,927
3,135
2 1
-
2,000
4,000
6,000
8,000
10,000
12,000
14,000
16,000
U S
E D
Oct-05 Nov-05 Dec-05 Jan-06 Feb-06 Mar-06 Apr-06 May-06Month
EXPLOSIVES CONSUMPTION STATISTICS3D-2D SEISMIC SURVEY, BETARA-NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
Dynamite Detonator
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.07 A
3D SPREAD LAY OUT 8 LINES X 120 CHANNELSYMMETRICAL SPLIT SPREAD
ELNUSA GEOSAINS A5.43 - PETROCHINA INTERNATIONAL JABUNG LTD.2005 - 2006
GEOPHONE ARRAY
to take out / station unit
LEGENDS :- O = GEOPHONE- 1 - 24 = NUMBER OF GEOPHONE- X = 2.352 meters ( DISTANCE BETWEEN GEOPHONE )
CH.1
2360 m20 m
CH.1 CH.60 CH.61 CH.120
7120 m
SP2360 m
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
X X X XX XX X XXXXX XXX X
1 2 3 124 865 7 9 1110 14 1513 16 1817
1.04 m0.52 m
40 m
X X X XX XX X XXXXX XXX X
First string ( 9 geophones ) Second string ( 9 geophones )
2.352 m1.176 m
APPENDIX - III.07 B
2D SPREAD LAY OUT 180 CHANNELSYMMETRICAL SPLIT SPREAD
ELNUSA GEOSAINS A5.43 - PETROCHINA INTERNATIONAL JABUNG LTD.2005 - 2006
GEOPHONE ARRAY
to take out / station unit
LEGENDS :- O = GEOPHONE- 1 - 18 = NUMBER OF GEOPHONE- X = 1.764 meters ( DISTANCE BETWEEN GEOPHONE )
CH.1
2670 m75 m
CH.1 CH.90 CH.91 CH.180
5490 m
SP2670 m
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
X X X XX XX X XXXXX XXX X
1 2 3 124 865 7 9 1110 14 1513 16 1817
1.04 m0.52 m
30 m
X X X XX XX X XXXXX XXX X
First string ( 9 geophones ) Second string ( 9 geophones )
1.764 m0.882 m
APPENDIX - III.08
Notes :- 18 seismo ( 8 series and 2 parralell )- Resistor 1 K Ohm- Spike XM 2B- Casing XM 2B
SEISMO CONNECTING SCHEME3D-2D SEISMIC SURVEY, BETARA-NAPAL-RUKU BLOCK, INDONESIA
JAMBI, 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS
APPENDIX - III.09 A
Profile Km's Work Holiday Total(SP) (Sqr) (day) (day) (day) (Profile/work) (Profile/total)
1 Nov-05 3,520 56.051 18 - 18 196 196
2 Dec-05 6,995 111.385 30 1 31 233 226
3 Jan-06 5,107 81.322 23 8 31 222 165
4 Feb-06 4,645 73.965 20 - 20 232 232
20,267 322.723 91 9 100 223 203
2005 - 2006
AverageMonth
RECORDING PRODUCTION STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI
No
TOTAL
Work DayProduction
Production
3,520
6,995
5,107
4,645
-
1,000
2,000
3,000
4,000
5,000
6,000
7,000
Prod
uctio
n (S
P)
Nov-05 Dec-05 Jan-06 Feb-06Month
RECORDING PRODUCTION STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.09 B
DAILY CUMULATIVE RECORDING PRODUCTION STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
DAILY AND CUMULATIVE RECORDING PRODUCTION STATISTICS
-
50
100
150
200
250
300
350
400
13-N
ov-0
5
16-N
ov-0
5
19-N
ov-0
5
22-N
ov-0
5
25-N
ov-0
5
28-N
ov-0
5
1-D
ec-0
5
4-D
ec-0
5
7-D
ec-0
5
10-D
ec-0
5
13-D
ec-0
5
16-D
ec-0
5
19-D
ec-0
5
22-D
ec-0
5
25-D
ec-0
5
28-D
ec-0
5
31-D
ec-0
5
3-Ja
n-06
6-Ja
n-06
9-Ja
n-06
12-J
an-0
6
15-J
an-0
6
18-J
an-0
6
21-J
an-0
6
24-J
an-0
6
27-J
an-0
6
30-J
an-0
6
2-Fe
b-06
5-Fe
b-06
8-Fe
b-06
11-F
eb-0
6
14-F
eb-0
6
17-F
eb-0
6
20-F
eb-0
6
PRO
DU
CTI
ON
-
3,000
6,000
9,000
12,000
15,000
18,000
21,000
24,000
CU
MM
ULA
TIVE
Daily Target Daily Actual Cumulative Actual Cumulative Target Average Production
Target : 175 SP / day
Hol
iday
Chr
itmas
Hol
iday
New
Yea
r
Hol
iday
Idul
Adh
a
No
Prod
uctio
n Pe
rmit
from
WK
S
APPENDIX - III.09 C
DIRECTION SHOT PROGRAM3D-2D SEISMIC SURVEY, BETARA-NAPAL-RUKU BLOCK
JAMBI 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
WKS P ul p and Paper
Teluk Kempas
Sinyerang
Ketapang
JL-
610
Teluk Nilau
B a
u n
g
R i
v e
r
Srindit
P arit Pudin
Rig
ht B
ram
Hita
m R
iv er
Left
Bra
m H
i tam
Riv e
r
B e
t a
r a
R i
v e r
Rev.
File Name
Date
Drawing NoSurveyed by
Drawn by
Approved by
Checked by
2D-3D SEISMIC
ELNUSA GEOSAINS A5.43
PETROCHINA INTERNATIONAL Jabung Ltd,
PROGRAM MAP2D - 3D SEISMIC SURVEY
ZONE
SCALE FACTORFALSE EASTINGFALSE NORTHING
INVERSE FLATTENING
LATITUDE ORIGINCENTRAL MERIDIAN
SEMI MAJOR AXIS
PROJECTION SYSTEM
ELEVATION REFERENCE
ELLIPSOID REFERENCE
: MSL: 48
: 0.9996
: 500000 M: 10000000 M
: 0° N: 105° E: 298.25
: 6378160.00: GRS'67
: UTM
290000 E 300000 E 310000 E
9870
000
N98
8000
0 N
9890
000
N
NOT TO SCALE
320000 E285000 E
9900
000
N99
1000
0 N
JABUNG BLOCK
290000 E 300000 E 310000 E 320000 E285000 E
SF GPS-01
Simpang A badi
T o J ambi
BM PC J-090
B M PCJ-089
BM PCJ-088
BM PCJ-087
B M PCJ-086BM PC J-085
BM PCJ-084
BM PCJ-083
BM PCJ-082
BM PC J-081
15 78
15 14
15 32
1 42 2
1 49 8
1 54 4
1470
1300
1350
1400
1 45 0
1 20 0
1250
1 15 0
1 10 0
105 0
1001
1500
1 55 4
130 0
1 35 0
1 40 0
1 450
1200
1250
1 150
1 10 0
1 05 0
1001
1 50 0
1300
1350
140 0
1 45 0
1 20 0
1 250
1 15 0
1 10 0
1050
1001
1 30 0
1 350
1400
1450
1 25 0
120 0
1150
1100
1 050
1 00 1
1 50 2
1 30 0
1 35 0
1400
1 450
1200
125 0
1150
1100
1050
1 00 1
1400
1300
1350
1 200
1 250
1 15 0
110 0
105 0
1001
150 0
1300
13 50
1400
1450
1 200
1250
115 0
1100
1050
10 01
1500
155 2
1300
135 0
1 400
1450
1250
1 200
1150
1100
1050
10 01
1 500
1550
1 300
1350
140 0
14 50
12 50
120 0
1150
1 100
105 0
1001
1450
150 0
1400
13 50
1300
1250
1 200
115 0
1100
1050
1 001
1500
1300
1350
1400
1450
1200
1250
1150
1512
1100
1050
1001
PIJ06-611
PIJ06-610
PIJ06-608
PIJ06-609
PIJ06-607
PIJ06-606
PIJ0
6-60
5
PIJ
06-6
04
PIJ
06-6
02PIJ0
6-60
1
PIJ
06-6
03
C:\ Do cume nt s an d Se ttin gs\I BM\My Do cume nt s\ My Pic tu re s\ Petrochi na Map _9.jpg
9859
000
N
BM PCJ-130
B M P CJ-128
BM PCJ-129
BM PCJ-127
BM PCJ-126
BM PCJ-125
BM PCJ-124
BM PCJ-123
BM PCJ-122
BM PCJ-121
BM PCJ-120
BM PCJ-119
BM PCJ-118
BM PCJ-117
BM P CJ-116
BM PCJ-115
BM PCJ-114
BM P CJ-113
BM PCJ-112
BM PCJ-111
BM PCJ-110
BM PCJ-109
BM PCJ-108BM PCJ-107
BM PCJ-106
BM PCJ-105
BM PCJ-104
BM PCJ-103 BM P CJ-102
BM PCJ-101
BM PCJ-100
BM PCJ-099
BM PCJ-098BM PCJ-097
BM PCJ-096 BM PCJ-095
BM PCJ-094
BM PCJ-093
BM PCJ-092
BM PCJ-091
Sketch Location
2005PIJ 05-511
P IJ05-512
P IJ 05-513
D el imaD el ima
S riayu
A re a Pembib itan P T. WKS
Pematan g Buluh
Sri ayu
S ri Men anti
T SM Blo k B
T SM Blok C
Pur wodadi
B umi AYU
Kec. Pengabuan
Kec.
Tung
kal I
lir
Kec. Tungkal UluKec. Betara
ELNUSA A5.43
Village
Seismic Bench Mark
We ll
Production Forest
Protected Forest
Subdist ric Boundary
GPS BM Established
PIJ05-5
01
PIJ05-5
02
PIJ05-5
03
PIJ05-5
04
PIJ05-5
05
PIJ05-5
06
PIJ05-5
07
PIJ05-5
08
PIJ05-5
09
PIJ05-5
10
PIJ05-511PIJ05-512
PIJ05-513
PIJ05-514
PIJ0
5-51
5
S50
1
S50
2
S50
3S
504
S50
5S
506
S50
7S
508
S50
9S
510
S51
1S
512
S51
3S
514 S51
5S
516
S51
7S
518 S51
9S
520 S
521 S52
2S
523 S52
4S
525
S52
6 S52
7 S52
8S
529 S53
0S
531 S53
2 S53
3S
534 S
535 S
536
S53
7 S53
8S
539 S54
0 S54
1 S54
2 S54
3 S54
4 S54
5 S54
6 S54
7 S54
8 S54
9
S55
0 S55
1 S55
2 S55
3 S55
4 S55
5S
556 S55
7 S55
8 S55
9 S56
0 S56
1 S56
2 S56
3 S56
4 S56
5 S56
6 S56
7 S56
8 S56
9
S57
0
S57
1
S57
2
S57
3
S50
1
S50
3
S50
2
S50
4
S50
5
S50
6
S50
7 S50
8
S50
9
S51
0
S51
1
S51
2 S51
3
S51
4
S51
5
S51
6
S51
7 S51
8
S51
9
S52
0
S52
1 S52
2 S52
3 S52
4 S52
5 S52
6 S52
7 S52
8 S52
9 S53
0S
531 S53
2 S53
3 S53
4 S53
5S
536
S53
7 S53
8 S53
9S
540
S54
1 S54
2S
543
S54
4S
545
S54
6S
547
S54
8S
549
S55
0S
551
S55
2S
553
S55
4S
555
S55
6S
557
S55
8S
559
S56
0S
561
S56
2S
563
S56
4S
565
S56
6S
567
S56
8S
569
S57
0S
571
S57
2S
573
Canal
River
Road
Legend :
: 0.60 ppmk
: 0
: 0: 0.774"
dX
dYdZ
: -2.691 m: +14.757 m
: -4.724 m
dXdY
dZ
GEOCENTRIC PARAMETERS FROM WGS'84 to ID'74
GEODETIC PARAMETERS
1
2
3
4
5
6
7
8
9
10
11
12
13
15
14
16
17
18
19
20
21
22
23
2425
26
27
28
29
APPENDIX - III.09 D
1 Nov-05 - 118 5 15 4 8 28 23 9 20
2 Dec-05 - 177 3 96 13 14 4 7 7 21
3 Jan-06 - 178 1 112 18 2 2 3 1 20
4 Feb-06 3 162 5 81 31 4 1 4 - 28
3 635 14 304 66 28 35 37 17 89 TOTAL
2005 - 2006
Line cutNo Open wire Lost wire Cap only Short wire No CTB Dead capMonth
MISFIRE STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI
Skip Re-drill Wrong Spread
-
20
40
60
80
100
120
140
160
180
Misf
ire
(SP)
Nov-05 Dec-05 Jan-06 Feb-06
Month
MISFIRE STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
Skip Re-drill Wrong Spread Open wire Lost wire Cap only Short wire Dead cap Line cut No CTB
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.09 E
1 Nov-05 - 118 - 3 1 5 23 15 4 8 28 2 - 9 20
2 Dec-05 - 177 - 6 3 3 7 96 13 14 4 0 3 7 21
3 Jan-06 - 178 - 14 2 1 3 112 18 2 2 2 2 1 20
4 Feb-06 3 162 - 4 - 5 4 81 31 4 1 0 4 - 28
3 635 - 27 6 14 37 304 66 28 35 4 9 17 89
PROSENTASE / AVERAGE 0.00% 0.13% 0.03% 0.07% 0.18% 1.50% 0.33% 0.14% 0.17% 0.02% 0.04% 0.08% 0.44%
Dead capBad Record
Blow Out
No CTB
Open wire
Lost wire Cap only Short
wireLost
RecordWeak ShotMonth
MISFIRE STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI2005 - 2006
Skip Line cutRe-drill Wrong
SpreadHole Stuck
TOTAL
No
MISFIRE STATISTICS3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
Bad Record1%
No CTB6%
Wrong Spread2%
Hole Stuck4%
Weak Shot1%
Blow Out 0%
Lost wire10%
Cap only4%
Short wire6%
Lost Record1%
Open wire48%
Dead cap3%
Line cut14%
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.09 F
DISTRIBUTING OF STUCK HOLES AND MISS FIRE MAP3D-2D SEISMIC SURVEY, BETARA-NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
JAMBI 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
PIJ0
6-60
1
PIJ0
6-60
3
PIJ0
6-60
2
PIJ0
6-60
4
PIJ0
6-60
5
PIJ06-606
PIJ06-607
PIJ06-608
PIJ06-609
PIJ06-610PIJ06-611
R100/6180
R099 /6200R 098/6220
S57
4 S575 S57
6
S57
7
R097 /6240R 096/6260
R149/5240
R118 /5820R
117 /5840
R101 /6160
R102 /6140
R103 /6120
R104 /6100
R105/ 6080
R 106/6060
R 107/6040
R108/6020
R109 /6000
R110/ 5980
R111 /5960
R112 /5940
R113/5920
R114 /5900
R 115/5880
R116 /5860
R119 /5800
R120 /5780
R121 /5760
R122 /5740
R123/ 5720
R124 /5700
R125 /5680R126 /5660
R127/ 5640R128/ 5620
R129 /5600
R 130/5580
R131/ 5560
R132/5540R133/5520
R134/5500R135 /5480
R136 /5460R 137/5440
R138 /5420
R 139/5400R140 /5380
R141 /5360R142/ 5340
R 143/5320R144 /5300
R 145/5280R146 /5260R 148/5220R149/ 5200
R 150 /5180R151 /5160
R152 /5140R153/5120
R154/ 5100
R 155/5080R156 /5060
R157/ 5040R158 /5020
R159/5000
S50
1
S50
3S
504
S505
S50
6S5
07S
508
S50
9S5
10S
511
S51
2S
513
S51
4 S515
S516
S517
S51
8 S51
9S
520 S52
1S
522
S52
3 S524 S52
5S
526 S52
7 S52
8S5
29 S53
0S
531 S5
32 S533
S53
4 S53
5 S53
6S
537 S53
8S
539 S5
40 S54
1 S54
2 S54
3 S54
4 S545 S
546 S5
47 S54
8 S54
9
S550 S
551 S55
2 S553 S
554 S5
55S
556 S55
7
S55
8 S55
9 S56
0 S56
1 S56
2 S56
3 S564 S5
65 S56
6 S56
7 S56
8 S56
9
S57
0
S571
S57
2
S57
3
S50
2
BASE CAMP ELNUSA
290000 E 300000 E 310000 E 320000 E285000 E
PABRIK WKS
MISFIRE AND STUCK HOLE MAP
2D-3D SEISMIC
Tahun 2005
Rev.
File Name
Date
Drawing NoSurveyed by
Drawn by
Approved by
Checked by
Legend :
2D-3D SEISMICELNUSA GEOSAINS A5.43
PETROCHINA INTERNATIONAL Jabung Ltd,
290000 E 300000 E 310000 E
9870
000
N98
8000
0 N
9890
000
N
Scale : 1 : 75 000
PIJ02 GPS 08
PIJ02 GPS 01
PIJ02 GPS 11
PIJ02 GPS 09
PIJ02 GPS 02
PIJ02 GPS 03
PIJ02 GPS 04
PIJ02 GPS 05
PIJ02 GPS 06
PIJ02 GPS 07
320000 E285000 E
9900
000
N99
1000
0 N
JABUNG BLOCK
PIJ05-5
01
PIJ05-
502
PIJ05-5
03
PIJ05-5
04
PIJ05-
505
PIJ05-
506
PIJ05-5
07
PIJ05-5
08
PIJ05-5
09
PIJ05-51
0
PIJ05-511PIJ05-512
PIJ05-513
PIJ05-514
PIJ0
5-51
5
APPENDIX - III.09 G
Profile Skip Coverage Work Holiday Total(SP) (SP) (Km's) (day) (day) (day) (hole/work) (hole/total)
1 Feb-06 583 - 34,860 5 - 5 6,972 6,972
2 Mar-06 3,764 1 225,240 30 1 31 7,508 7,266
3 Apr-06 3,317 - 198,240 23 7 30 8,619 6,608
4 May-06 165 - 9,900 1 - 1 9,900 9,900
7,829 1 468,240 59 8 67 7,936 6,989
No
TOTAL
Work DayProduction
Production
2005-2006
AverageMonth
RECORDING PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
JAMBI
583
3,764
3,317
165
-
500
1,000
1,500
2,000
2,500
3,000
3,500
4,000
Prod
uctio
n (S
P)
Feb-06 Mar-06 Apr-06 May-06Month
RECORDING PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.09 H
DAILY CUMULATIVE RECORDING PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU BLOCK, INDONESIA
JAMBI2005-2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
DAILY AND CUMULATIVE RECORDING PRODUCTION STATISTICS
-
40
80
120
160
200
240
280
24-F
eb-0
6
26-F
eb-0
6
28-F
eb-0
6
2-M
ar-0
6
4-M
ar-0
6
6-M
ar-0
6
8-M
ar-0
6
10-M
ar-0
6
12-M
ar-0
6
14-M
ar-0
6
16-M
ar-0
6
18-M
ar-0
6
20-M
ar-0
6
22-M
ar-0
6
24-M
ar-0
6
26-M
ar-0
6
28-M
ar-0
6
30-M
ar-0
6
1-A
pr-0
6
3-A
pr-0
6
5-A
pr-0
6
PRO
DU
CTI
ON
-
1,000
2,000
3,000
4,000
5,000
6,000
7,000
CU
MM
ULA
TIVE
Daily Target Daily Actual Cumulative Actual Cumulative Target Average Production
Target : 100 SP / day
Mov
ing
to R
uku
Blo
ck
APPENDIX - III.09 I
DAILY CUMULATIVE RECORDING PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL EXTENSION BLOCK, INDONESIA
JAMBI2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
DAILY AND CUMULATIVE RECORDING PRODUCTION STATISTICS
-
40
80
120
160
200
240
13-A
pr-0
6
14-A
pr-0
6
15-A
pr-0
6
16-A
pr-0
6
17-A
pr-0
6
18-A
pr-0
6
19-A
pr-0
6
20-A
pr-0
6
21-A
pr-0
6
22-A
pr-0
6
23-A
pr-0
6
24-A
pr-0
6
25-A
pr-0
6
26-A
pr-0
6
27-A
pr-0
6
28-A
pr-0
6
29-A
pr-0
6
30-A
pr-0
6
1-M
ay-0
6
PRO
DU
CTI
ON
-
1,000
2,000
3,000
4,000
5,000
6,000
CU
MM
ULA
TIVE
Daily Target Daily Actual Cumulative Actual Cumulative Target Average Production
Target : 100 SP / day
APPENDIX - III.09 J
1 Feb-06 - 49 - 7 36 - 1 - - -
2 Mar-06 1 107 4 20 61 2 4 3 2 1
3 Apr-06 - 33 - 8 12 1 - 1 2 4
4 May-06 - 1 - - - - - - 1 -
1 190 4 35 109 3 5 4 5 5
Month
MISFIRE STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
JAMBI
Skip Re-drill Weak Shot
TOTAL
2005-2006
Line cutNo Open wire Lost wire Cap only Short wire No CTB Dead cap
-
20
40
60
80
100
120
Misf
ire
(SP)
Feb-06 Mar-06 Apr-06 May-06
Month
MISFIRE STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
Skip Re-drill Weak Shot Open wire Lost wire Cap only Short wire Dead cap Line cut No CTB
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.09 K
1 Feb-06 - 49 - 3 1 1 - 7 36 - 1 - - - -
2 Mar-06 1 107 - 5 4 1 3 20 61 2 4 - 4 2 1
3 Apr-06 - 33 - 1 - 2 1 8 12 1 - 2 - 2 4
4 May-06 - 1 - - - - - - - - - - - 1 -
1 190 - 9 5 4 4 35 109 3 5 2 4 5 5
PROSENTASE / AVERAGE 0.00% 0.11% 0.06% 0.05% 0.05% 0.45% 1.39% 0.04% 0.06% 0.03% 0.05% 0.06% 0.06%
Dead capBad Record
Blow Out
No CTB
Open wire
Lost wire Cap only Short
wireLost
RecordWeak ShotMonth
MISFIRE STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
JAMBI2005 - 2006
Skip Line cutRe-drill Wrong
SpreadHole Stuck
TOTAL
No
MISFIRE STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
Bad Record3%
No CTB2%
Wrong Spread2%
Hole Stuck5%
Weak Shot2%
Blow Out 0%
Lost wire56%
Cap only2%
Short wire3%
Lost Record1%
Open wire18%
Dead cap3%
Line cut3%
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.09 L
Profile Depth Work Stand by Total(hole) ( m). (day) (day) (day) (Profile/work) (Depth m/hole)
1 Feb-06 5 250 3 - 3 2 50
2 Mar-06 36 1,800 30 1 31 1 50
3 Apr-06 17 850 12 - 12 1 50
58 2,900 45 1 46 1 63
No
TOTAL
Work DayProduction
Production
2005-2006
AverageMonth
UP-HOLE SURVEY PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
JAMBI
5
36
17
-
5
10
15
20
25
30
35
40
Prod
uctio
n (H
ole)
Feb-06 Mar-06 Apr-06Month
UP-HOLE SURVEY PRODUCTION STATISTICS2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.10
LAYOUT TEMPLATE OF BETARA 3D SEISMIC SURVEYMESA PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
H00 SPS format version num. RPS1.0,20 SEP 2005 (GEOSAINS A5.43),(SN408) ; H01 Description of survey area INDONESIA,PETROCHINA_JABUNG Ltd, 3D ; H02 Date of survey C..PR._T,C..PR._T ; H021Post-plot date of issue 23.02.06 ; H022Tape/disk identifier SWATH 96-158 ; H03 Client PETROCHINA JABUNG Ltd. ; H04 Geophysical contractor ELNUSA GEOSAINS,A5.43 ; H05 Positioning contractor ELNUSA GEOSAINS,A5.43 ; H06 Positioning Proc. Contractor ELNUSA GEOSAINS,A5.43 ; H07 Field computer system(s) GMG/SIS MESA 7.0, SN408 :HR, SU-6 ; H08 Coordinate location centre of source and receiver pattern ; H09 Offset from coord. location 0.0 M ; H10 Clock time (GMT) +7 ; H12 Geodetic datum,-spheroid ID 74 ; H14 Geodetic datum parameters Semi major Axis:6378160.0 ; H17 Vertical Datum description MSL (0 m) - Mean Sea Level ; H18 Projection type UTM (Universal Transverse Mercator) ; H19 Projection zone Zone 48, South ; H20 Grid Units METRES ; H201Factor to meters 0.9996 ; H21 Lat. of standard paralel(s) 00/00/00.000 Northing ; H22 Long. of central meridian 500000 E 10000000 N ; H23 Grid coords at grid origin x=297971.81 Easting, y=9866869.45 Northing ; H24 Tie Point-Line 0.00 (Sercel Line) ; H25 Tie Point-Station 0.00 (Sercel Station) ; H30 Project code and description 3-D BETARA AREA ; H31 Line number format YEAR(1:2),CODE(3:4),LINE NUMBER(7:10) ; H310Receiver Line number format RL(n)=5000+20(n-1) ; H311Receiver number format trace(n)=1201+20(n-1) ; H312Shot Line number format SL(n) not defined caused by slanted ; H313Shot number format SP(n) based on grid ; H400Type,Model,Polarity 1,SERCEL SN408 PAM,009,SEG ; H401Crew name, Comment 1,ELNUSA A5.43 ; H402Sample Int., Record Length 1,2.0 ms, 5.0 s ; H403Number of channels 960 ; H404Tape type, format, density 1,IBM 3490, SEG D DEMUX 8058 24BIT, 6250 bpi ; H405Filter_alias Hz,Db pnt,slope1, 200HZ,-3dB,72dB/OCT ; H406Filter_notch Hz,-3Db points 1,OUT ; H407Filter_low Hz, Db pnt slope 1,OUT ; H408Time delay FTB-SOD app Y/N 1,0.00 ms, Not Applied ; H409Multi component recording 1,NO ; H410Aux. channel 1 contents 1,Ana Uphole,1,Uphole ; H600Type,Model,Polarity G1,GEOPHOPE 18SEISMO,OYO GS-32CT,SEG ; H601Damp coeff,natural freq. G1,0.7, 10 Hz ; H602Nunits, len(X),width(Y) G1,18, 40.0 M, 1.0 M ; H603Unit spacing X,Y G1,2.20M, 0 M ;
H604Spare G1,ARRAY 2.35M ; H610Type,Model,Polarity G2,GEOPHONE 18SEISMO,OYO GS32CT,SEG ; H614Spare G2,CIRCLE DIAMETER APPROX 1 METRE ; H620Type,Model,Polarity G3,GEOPHONE 18SEISMO, OYO GS-32CT,SEG ; H624Spare G3,REVERSED POLARITY ; H630Type,Model,Polarity H1,HYDROPHONE,GEOSPACE MP24 L3,SEG ; H640Type,Model,Polarity H2,HYDROPHONE,GEOSPACE MP24 L3,SEG ; H644Spare H2,REVERSED POLARITY ; H700Type,Model,Polarity E1,EXPLOSIVE,DAYAGEL,SEG ; H701Size,vert. stk fold E1,1.0 KG,1 ; H990R,S,X file quality control Thu,23Feb06,00:38,Mr. NURDIN PRAMONO ; H991Coord. status final/prov Final,23Feb06,00:38,Mr. AGUS ISKANDARSYAH ; H99211Record Identification : col 1 - 1 ; H99212Line Number (left adj.) : col 2 - 17 ; H99213Point Number (right adj.) : col 18 - 25 ; H99214Point Index : col 26 - 26 ; H99215Point Code : col 27 - 28 ; H99216Static Correction : col 29 - 32 ; H99217Receiver depth : col 33 - 36 ; H99220Water Depth : col 43 - 46 ; H99221Map Grid Easting : col 47 - 55 ; H99222Map Grid Northing : col 56 - 65 ; H99223Surface Elevation : col 66 - 71 ; H99224Day of shooting : col 72 - 74 ; H99225Time of shooting : col 75 - 80 ; H9925678901234567890123456789012345678901234567890123456789012345678901234567890 H993 1 2 3 4 5 6 7 8 R5000 12011G1 0 0.0 0.0 295924.5 9870305.6 32.9001235959 R5000 12031G1 0 0.0 0.0 295903.9 9870339.9 33.0001235959 R5000 12051G1 0 0.0 0.0 295883.3 9870374.2 41.8001235959 R5000 12071G1 0 0.0 0.0 295862.7 9870408.5 40.6001235959 R5000 12091G1 0 0.0 0.0 295842.1 9870442.8 34.2001235959 R5000 12111G1 0 0.0 0.0 295821.5 9870477.1 29.6001235959 R5000 12131G1 0 0.0 0.0 295800.8 9870511.4 46.4001235959 R5000 12151G1 0 0.0 0.0 295780.2 9870545.7 55.0001235959 R5000 12171G1 0 0.0 0.0 295759.6 9870579.9 57.6001235959 R5000 12191G1 0 0.0 0.0 295739.0 9870614.2 59.0001235959 R5000 12211G1 0 0.0 0.0 295718.4 9870648.5 58.9001235959 R5000 12231G1 0 0.0 0.0 295697.8 9870682.8 55.5001235959 R5000 12251G1 0 0.0 0.0 295677.2 9870717.1 51.0001235959
H00 SPS format version num. RPS1.0,20 SEP 2005 (GEOSAINS A5.43),(SN408) ; H01 Description of survey area INDONESIA,PETROCHINA_JABUNG Ltd, 3D ; H02 Date of survey C..PR._T,C..PR._T ; H021Post-plot date of issue 23.02.06 ; H022Tape/disk identifier SWATH 96-158 ; H03 Client PETROCHINA JABUNG Ltd. ; H04 Geophysical contractor ELNUSA GEOSAINS,A5.43 ; H05 Positioning contractor ELNUSA GEOSAINS,A5.43 ; H06 Positioning Proc. Contractor ELNUSA GEOSAINS,A5.43 ; H07 Field computer system(s) GMG/SIS MESA 7.0, SN408 :HR, SU-6 ; H08 Coordinate location centre of source and receiver pattern ; H09 Offset from coord. location 0.0 M ; H10 Clock time (GMT) +7 ; H12 Geodetic datum,-spheroid ID 74 ; H14 Geodetic datum parameters Semi major Axis:6378160.0 ; H17 Vertical Datum description MSL (0 m) - Mean Sea Level ; H18 Projection type UTM (Universal Transverse Mercator) ; H19 Projection zone Zone 48, South ; H20 Grid Units METRES ; H201Factor to meters 0.9996 ; H21 Lat. of standard paralel(s) 00/00/00.000 Northing ; H22 Long. of central meridian 500000 E 10000000 N ; H23 Grid coords at grid origin x=297971.81 Easting, y=9866869.45 Northing ; H24 Tie Point-Line 0.00 (Sercel Line) ; H25 Tie Point-Station 0.00 (Sercel Station) ; H30 Project code and description 3-D BETARA AREA ; H31 Line number format YEAR(1:2),CODE(3:4),LINE NUMBER(7:10) ; H310Receiver Line number format RL(n)=5000+20(n-1) ; H311Receiver number format trace(n)=1201+20(n-1) ; H312Shot Line number format SL(n) not defined caused by slanted ; H313Shot number format SP(n) based on grid ; H400Type,Model,Polarity 1,SERCEL SN408 PAM,009,SEG ; H401Crew name, Comment 1,ELNUSA A5.43 ; H402Sample Int., Record Length 1,2.0 ms, 5.0 s ; H403Number of channels 960 ; H404Tape type, format, density 1,IBM 3490, SEG D DEMUX 8058 24BIT, 6250 bpi ; H405Filter_alias Hz,Db pnt,slope1, 200HZ,-3dB,72dB/OCT ; H406Filter_notch Hz,-3Db points 1,OUT ; H407Filter_low Hz, Db pnt slope 1,OUT ; H408Time delay FTB-SOD app Y/N 1,0.00 ms, Not Applied ; H409Multi component recording 1,NO ; H410Aux. channel 1 contents 1,Ana Uphole,1,Uphole ; H600Type,Model,Polarity G1,GEOPHOPE 18SEISMO,OYO GS-32CT,SEG ; H601Damp coeff,natural freq. G1,0.7, 10 Hz ; H602Nunits, len(X),width(Y) G1,18, 40.0 M, 1.0 M ; H603Unit spacing X,Y G1,2.20M, 0 M ;
H604Spare G1,ARRAY 2.35M ; H610Type,Model,Polarity G2,GEOPHONE 18SEISMO,OYO GS32CT,SEG ; H614Spare G2,CIRCLE DIAMETER APPROX 1 METRE ; H620Type,Model,Polarity G3,GEOPHONE 18SEISMO, OYO GS-32CT,SEG ; H624Spare G3,REVERSED POLARITY ; H630Type,Model,Polarity H1,HYDROPHONE,GEOSPACE MP24 L3,SEG ; H640Type,Model,Polarity H2,HYDROPHONE,GEOSPACE MP24 L3,SEG ; H644Spare H2,REVERSED POLARITY ; H700Type,Model,Polarity E1,EXPLOSIVE,DAYAGEL,SEG ; H701Size,vert. stk fold E1,1.0 KG,1 ; H990R,S,X file quality control Thu,23Feb06,00:38,Mr. NURDIN PRAMONO ; H991Coord. status final/prov Final,23Feb06,00:38,Mr. AGUS ISKANDARSYAH ; H99211Record Identification : col 1 - 1 ; H99212Line Number (left adj.) : col 2 - 17 ; H99213Point Number (right adj.) : col 18 - 25 ; H99214Point Index : col 26 - 26 ; H99215Point Code : col 27 - 28 ; H99216Static Correction : col 29 - 32 ; H99217Receiver depth : col 33 - 36 ; H99220Water Depth : col 43 - 46 ; H99221Map Grid Easting : col 47 - 55 ; H99222Map Grid Northing : col 56 - 65 ; H99223Surface Elevation : col 66 - 71 ; H99224Day of shooting : col 72 - 74 ; H99225Time of shooting : col 75 - 80 ; H9925678901234567890123456789012345678901234567890123456789012345678901234567890 H993 1 2 3 4 5 6 7 8 S1178 61591E1 024.5 016 0.0 316030.8 9881849.9 5.3317155009 S1176 61571E1 024.5 015 0.0 316017.0 9881795.1 5.5318101854 S1174 61551E1 024.5 018 0.0 316003.2 9881739.8 5.3318102906 S1172 61531E1 024.5 022 0.0 315989.3 9881685.2 5.4318103127 S1170 61511E1 024.5 020 0.0 315975.5 9881630.3 5.5318103718 S1218 61591E1 024.5 016 0.0 315618.7 9882535.8 5.5318103828 S1258 61591E1 024.5 019 0.0 315206.2 9883220.9 4.5318104813 S1256 61571E1 024.5 025 0.0 315192.9 9883166.0 4.7318105010 S1254 61551E1 024.0 024 0.0 315178.4 9883110.8 4.5318105919 S1252 61531E1 024.5 019 0.0 315164.1 9883056.2 4.5318110052 S1250 61511E1 024.5 027 0.0 315153.2 9883000.6 4.7318111705 S1248 61491E1 024.5 024 0.0 315139.4 9882945.6 4.5318111818 S1246 61471E1 024.5 026 0.0 315125.7 9882891.7 4.4318112948 S1244 61451E1 023.5 029 0.0 315112.6 9882836.2 4.3318113038 S1168 61491E1 024.5 028 0.0 315961.6 9881575.2 5.5318132624 S1166 61471E1 024.5 023 0.0 315947.8 9881520.5 5.4318132705
H00 SPS format version num. RPS1.0,20 SEP 2005 (GEOSAINS A5.43),(SN408) ; H01 Description of survey area INDONESIA,PETROCHINA_JABUNG Ltd, 3D ; H02 Date of survey C..PR._T,C..PR._T ; H021Post-plot date of issue 23.02.06 ; H022Tape/disk identifier SWATH 96-158 ; H03 Client PETROCHINA JABUNG Ltd. ; H04 Geophysical contractor ELNUSA GEOSAINS,A5.43 ; H05 Positioning contractor ELNUSA GEOSAINS,A5.43 ; H06 Positioning Proc. Contractor ELNUSA GEOSAINS,A5.43 ; H07 Field computer system(s) GMG/SIS MESA 7.0, SN408 :HR, SU-6 ; H08 Coordinate location centre of source and receiver pattern ; H09 Offset from coord. location 0.0 M ; H10 Clock time (GMT) +7 ; H12 Geodetic datum,-spheroid ID 74 ; H14 Geodetic datum parameters Semi major Axis:6378160.0 ; H17 Vertical Datum description MSL (0 m) - Mean Sea Level ; H18 Projection type UTM (Universal Transverse Mercator) ; H19 Projection zone Zone 48, South ; H20 Grid Units METRES ; H201Factor to meters 0.9996 ; H21 Lat. of standard paralel(s) 00/00/00.000 Northing ; H22 Long. of central meridian 500000 E 10000000 N ; H23 Grid coords at grid origin x=297971.81 Easting, y=9866869.45 Northing ; H24 Tie Point-Line 0.00 (Sercel Line) ; H25 Tie Point-Station 0.00 (Sercel Station) ; H30 Project code and description 3-D BETARA AREA ; H31 Line number format YEAR(1:2),CODE(3:4),LINE NUMBER(7:10) ; H310Receiver Line number format RL(n)=5000+20(n-1) ; H311Receiver number format trace(n)=1201+20(n-1) ; H312Shot Line number format SL(n) not defined caused by slanted ; H313Shot number format SP(n) based on grid ; H400Type,Model,Polarity 1,SERCEL SN408 PAM,009,SEG ; H401Crew name, Comment 1,ELNUSA A5.43 ; H402Sample Int., Record Length 1,2.0 ms, 5.0 s ; H403Number of channels 960 ; H404Tape type, format, density 1,IBM 3490, SEG D DEMUX 8058 24BIT, 6250 bpi ; H405Filter_alias Hz,Db pnt,slope1, 200HZ,-3dB,72dB/OCT ; H406Filter_notch Hz,-3Db points 1,OUT ; H407Filter_low Hz, Db pnt slope 1,OUT ; H408Time delay FTB-SOD app Y/N 1,0.00 ms, Not Applied ; H409Multi component recording 1,NO ; H410Aux. channel 1 contents 1,Ana Uphole,1,Uphole ; H600Type,Model,Polarity G1,GEOPHOPE 18SEISMO,OYO GS-32CT,SEG ; H601Damp coeff,natural freq. G1,0.7, 10 Hz ; H602Nunits, len(X),width(Y) G1,18, 40.0 M, 1.0 M ; H603Unit spacing X,Y G1,2.20M, 0 M ;
H604Spare G1,ARRAY 2.35M ; H610Type,Model,Polarity G2,GEOPHONE 18SEISMO,OYO GS32CT,SEG ; H614Spare G2,CIRCLE DIAMETER APPROX 1 METRE ; H620Type,Model,Polarity G3,GEOPHONE 18SEISMO, OYO GS-32CT,SEG ; H624Spare G3,REVERSED POLARITY ; H630Type,Model,Polarity H1,HYDROPHONE,GEOSPACE MP24 L3,SEG ; H640Type,Model,Polarity H2,HYDROPHONE,GEOSPACE MP24 L3,SEG ; H644Spare H2,REVERSED POLARITY ; H700Type,Model,Polarity E1,EXPLOSIVE,DAYAGEL,SEG ; H701Size,vert. stk fold E1,1.0 KG,1 ; H990R,S,X file quality control Thu,23Feb06,00:38,Mr. NURDIN PRAMONO ; H991Coord. status final/prov Final,23Feb06,00:38,Mr. AGUS ISKANDARSYAH ; H99211Record Identification : col 1 - 1 ; H99212Tape Number : col 2 - 5 ; H99213Field Record Number : col 8 - 11 ; H99214Field record increment : col 12 - 12 ; H99215Instrument code : col 13 - 13 ; H99216Shotline Number : col 14 - 17 ; H99217Shotpoint Number : col 34 - 37 ; H99218Point index : col 38 - 38 ; H99219First Channel : col 40 - 42 ; H99220Last Channel : col 44 - 46 ; H99221Channel increment : col 47 - 47 ; H99222ReceiverLine Number : col 48 - 50 ; H99223First Trace : col 68 - 71 ; H99224Last Trace : col 76 - 79 ; H99225Trace index : col 80 - 80 ; H9925678901234567890123456789012345678901234567890123456789012345678901234567890 H993 1 2 3 4 5 6 7 8 X2 12111178 61591 1 9416080 1101 12871 X2 12111178 61591 95 17816100 1121 12871 X2 12111178 61591 179 26216120 1121 12871 X2 12111178 61591 263 33616140 1141 12871 X2 12111178 61591 337 40016160 1161 12871 X2 12111178 61591 401 45416180 1181 12871 X2 12111178 61591 455 50816200 1181 12871 X2 12111178 61591 509 56216220 1181 12871 X3 21111176 61571 1 9416080 1101 12871 X3 21111176 61571 95 17816100 1121 12871 X3 21111176 61571 179 26216120 1121 12871 X3 21111176 61571 263 33616140 1141 12871 X3 21111176 61571 337 40016160 1161 12871 X3 21111176 61571 401 45416180 1181 12871 X3 21111176 61571 455 50816200 1181 12871 X3 21111176 61571 509 56216220 1181 12871
APPENDIX - III.14
LAYOUT OF BETARA 3D SEISMIC SURVEYMESA PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.15 A
FULL FOLD COVERAGE OF POST RECORDINGMESA PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.15 B
FULL FOLD COVERAGE AFTER EDIT OF POST RECORDINGMESA PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.15 C
FOLD DISTRIBUTION ( 500 - 1000 m ) POST RECORDINGMESA PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2002 - 2003
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.15 D
FOLD DISTRIBUTION (1000 - 1500 m ) POST RECORDINGMESA PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.15 E
FOLD DISTRIBUTION (1500 - 2000 m ) POST RECORDINGMESA PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.15 F
FOLD DISTRIBUTION (2000 - 2500 m ) POST RECORDINGMESA PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.15 G
No SWATH S LINE SP LAMA X LAMA Y LAMA SP BARU X BARU Y BARU E OFFSET1 158 501 14665007 293314.8 9874920.7 14665007 293309.9 9874927.6 24.3 Radius 9 m Kiri2 158 507 13425003 294521.80 9872738.70 13425003 294522.60 9872736.40 19.90 Radius 10 m mundur3 157 502 14685029 293671.3 9875181.6 14685029 293678.9 9875172.7 18.7 Radius 10m Kanan4 157 511 12905031 295539.00 9872150.69 12885031 295559.70 9872116.21 27.15 Offset 40m Kanan5 156 508 13705051 295057.9 9873728.2 13745051 295016.8 9873796.8 26.6 Offset 80m Kiri6 156 508 13725053 295071.6 9873783.1 13765053 295030.7 9873851.9 27.1 Offset 80m Kiri7 156 508 13745055 295085.3 9873838.0 13765055 295065.0 9873872.3 28.9 Offst 40m kiri8 156 508 13785059 295112.7 9873947.8 13765059 295133.1 9873913.5 29.1 Offset 40m Kanan9 156 519 11405041 297255.75 9869682.32 11425041 297235.0 9869717.1 44.3 Offst 40m kiri10 155 504 14705071 294370.7 9875648.6 14665071 294412.9 9875579.7 29.0 Offset 80m kanan11 155 504 14725073 294384.4 9875703.5 14665073 294443.5 9875600.4 30.2 Offset 120m Kanan12 155 504 14745075 294398.1 9875758.3 14825075 294316.6 9875896.7 31.0 Offset 160m Kanan13 155 504 14765077 294411.8 9875813.2 14805070 294263.5 9875811.6 31.4 Random 150 m kiri14 155 504 14785079 294425.5 9875868.1 14785079 294433.0 9875874.4 31.6 Radius 10m Kanan15 155 507 14005061 294920.4 9874345.5 13985061 294939.4 9874311.0 30.2 Offset 40m Kanan16 155 507 14025063 294934.0 9874400.4 14125063 294831.1 9874572.4 30.4 Offset 200m Kiri17 155 507 14045065 294947.7 9874455.3 14105065 294882.2 9874556.4 31.3 Offset 120m kiri18 155 507 14065067 294961.4 9874510.2 14105067 294919.3 9874578.8 31.4 Offset 80m Kiri19 155 508 13805061 295126.4 9874002.7 13745061 295188.4 9873901.0 29.3 Offset 120m Kanan20 155 508 13825063 295140.1 9874057.5 13845063 295119.6 9874092.0 29.9 Offst 40m kiri21 155 508 13845065 295153.7 9874112.4 13825065 295174.2 9874078.4 29.9 Offset 40m Kanan22 155 508 13865067 295167.4 9874167.3 13825067 295210.0 9874097.9 30.3 Offset 80m kanan23 155 508 13885069 295181.1 9874222.2 13965069 295098.9 9874359.4 30.5 Offset 160m Kiri24 155 508 13905071 295194.8 9874277.1 13945071 295153.5 9874346.1 30.6 Offset 80m Kiri25 155 508 13925073 295208.5 9874332.0 13945073 295188.0 9874365.8 30.4 Offst 40m kiri26 155 509 13625063 295346.1 9873714.7 13605063 295366.5 9873680.2 29.5 Offset 40m Kanan27 155 509 13645065 295359.8 9873769.6 13605065 295401.1 9873701.0 29.4 Offset 80m kanan28 155 509 13665067 295373.4 9873824.5 13685067 295352.9 9873858.7 29.6 Offst 40m kiri29 155 509 13705071 295400.8 9873934.2 13685071 295421.3 9873900.0 29.3 Offset 40m Kanan30 155 509 13725073 295414.5 9873989.1 13665073 295475.3 9873884.9 29.481 Offset 120m Kanan31 155 509 13745075 295428.2 9874044.0 13765075 295408.1 9874078.3 31.3 Offst 40m kiri32 155 509 13785079 295455.5 9874153.8 13745079 295496.5 9874085.1 30.4 Offset 80m kanan33 155 510 13465067 295579.5 9873481.6 13445067 295600.3 9873446.9 31.4 Offset 40m Kanan34 155 510 13525073 295620.5 9873646.3 13505073 295642.1 9873615.0 29.5 Offset 40m Kanan35 154 504 14805081 294439.2 9875923.0 14905081 294336.4 9876096.5 31.7 Offset 200m Kiri36 154 504 14825083 294452.8 9875977.9 14905083 294370.3 9876116.6 31.3 Offset 160m Kiri37 154 504 14845085 294466.5 9876032.8 14905085 294405.0 9876136.7 31.1 Offset 120m kiri38 154 504 14865087 294480.2 9876087.7 14905087 294439.7 9876157.0 30.1 Offset 80m Kiri39 154 505 14625083 294658.9 9875635.0 14605083 294679.4 9875600.8 33.2 Offset 40m Kanan40 154 505 14645085 294672.5 9875689.9 14585085 294734.2 9875586.7 32.9 Offset 120m Kanan41 154 505 14665087 294686.2 9875744.8 14565087 294789.3 9875573.6 32.5 Offset 200 kanan42 154 505 14685089 294699.9 9875799.7 14735088 294614.1 9875864.5 33.7 Random 108m kiri43 154 505 14705091 294713.6 9875854.6 14755089 294633.6 9875922.3 34.2 Random 105m kiri44 154 505 14725093 294727.3 9875909.5 14645093 294807.8 9875772.4 33.2 Offset 160m Kanan45 154 505 14745095 294741.0 9875964.4 14645095 294844.0 9875792.5 33.8 Offset 200m kanan46 154 505 14765097 294754.7 9876019.2 14845096 294581.5 9876154.6 31.6 Random 220m kiri47 154 505 14785099 294768.3 9876074.1 14855097 294589.4 9876208.0 31.7 Random 224m kri48 154 506 14525093 294933.3 9875566.6 14485093 294974.4 9875498.0 34.0 Offset 80m kanan49 154 506 14545095 294947.0 9875621.5 14485095 295008.5 9875518.5 32.2 Offset 120m Kanan50 154 506 14565097 294960.7 9875676.4 14465097 295064.5 9875507.3 32.2 Offset 200 kanan51 154 506 14585099 294974.4 9875731.3 14585101 295004.08 9875752.00 32.65 Random 36m kanan52 154 509 13805081 295469.2 9874208.7 13745081 295528.4 9874104.8 29.5 Offset 120m Kanan53 154 509 13825083 295482.9 9874263.6 13745083 295563.1 9874125.5 28.6 Offset 160m Kanan54 154 509 13845085 295496.6 9874318.4 13865085 295473.4 9874352.2 27.8 Offst 40m kiri55 154 510 13645085 295702.6 9873975.6 13625085 295723.7 9873942.1 28.9 Offset 40m Kanan56 153 505 14805101 294782.0 9876129.0 14855098 294596.9 9876258.1 33.0 Random 226m kiri57 153 505 14825103 294795.7 9876183.9 14865099 294595.9 9876301.8 33.3 Random 232m kiri58 153 505 14845105 294809.4 9876238.8 14845105 294811.9 9876248.6 34.8 Radius 10m Kiri59 153 505 14885109 294836.8 9876348.6 14925109 294795.2 9876416.5 36.1 Offset 80m Kiri60 153 505 14905111 294850.4 9876403.5 14925111 294829.8 9876437.7 35.2 Offst 40m kiri61 153 505 14925113 294864.1 9876458.3 15025113 294758.8 9876624.3 34.2 Offset 200m Kiri62 153 505 14945115 294877.8 9876513.2 15025115 294794.9 9876650.6 35.2 Offset 160m Kiri63 153 505 14965117 294891.5 9876568.1 15005117 294851.0 9876636.9 35.7 Offset 80m Kiri64 153 505 14985119 294905.2 9876623.0 15005119 294884.3 9876657.6 35.7 Offst 40m kiri65 153 506 14645105 295015.4 9875895.9 14645105 295005.7 9875897.7 34.1 Radius 10m Kiri
LIST OF RADIUS, OFFSET, COMPENSATION & RANDOMMESA PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
No SWATH S LINE SP LAMA X LAMA Y LAMA SP BARU X BARU Y BARU E OFFSET66 153 506 14665107 295029.1 9875950.8 14695107 294995.8 9875909.0 34.5 Random 54m kiri67 153 506 14685109 295042.8 9876005.7 14765112 295006.0 9876183.8 Random 182m kiri68 153 506 14705111 295056.5 9876060.6 14755111 295004.8 9876146.9 Random 101m kiri69 153 506 14725113 295070.1 9876115.5 14795113 295002.5 9876237.9 Random 140m kiri70 153 506 14745115 295083.8 9876170.4 14755113 295011.5 9876261.0 34.6 Random 116m kiri71 153 506 14765117 295097.5 9876225.3 14775114 294997.5 9876281.7 35.1 Random 115m kiri72 153 506 14785119 295111.2 9876280.1 14795115 294981.6 9876299.3 35.0 Random 131m kiri73 153 507 14485109 295248.8 9875662.8 14465109 295269.5 9875628.4 30.6 Offset 40m Kanan74 153 507 14505111 295262.5 9875717.7 14425111 295348.1 9875580.4 32.2 Offset 160m Kanan75 153 507 14525113 295276.2 9875772.6 14565113 295235.2 9875841.3 32.2 Offset 80m Kiri76 153 507 14545115 295289.9 9875827.5 14585115 295249.1 9875896.1 32.3 Offset 80m Kiri77 153 507 14565117 295303.5 9875882.4 14525121 295422.4 9875857.0 35.5 Random 121m kanan78 153 507 14585119 295317.2 9875937.3 14585119 295315.6 9875947.1 34.8 Radius 10m Kiri79 153 508 14385119 295523.2 9875594.4 14365119 295543.9 9875560.0 33.2 Offset 40m Kanan80 152 506 14805121 295124.9 9876335.0 14865119 295022.1 9876367.3 34.8 Random 108m kanan81 152 506 14825123 295138.6 9876389.9 14905123 295055.3 9876527.9 34.4 Offset 160m Kiri82 152 506 14845125 295152.3 9876444.8 14825129 295213.0 9876459.1 35.2 Random 62m kanan83 152 506 14865127 295165.9 9876499.7 14845127 295186.5 9876465.0 34.7 Offset 40m Kanan84 152 506 14885129 295179.6 9876554.6 14845129 295138.6 9876622.9 34.5 Offset 80m Kiri85 152 506 14905131 295193.3 9876609.5 14925131 295173.0 9876644.1 33.8 Offst 40m kiri86 152 507 14605121 295330.9 9875992.2 14545121 295393.1 9875889.0 34.8 Offset 120m Kanan87 152 507 14625123 295344.6 9876047.1 14645143 295668.3 9876286.4 35.2 Comp 400 depan+40 m kiri88 152 507 14645125 295358.3 9876101.9 14665145 295680.2 9876342.1 34.4 Comp 400 depan+40 m kiri89 152 507 14665127 295372.0 9876156.8 14685147 295694.4 9876397.2 34.1 Comp 400 depan+40 m kiri90 152 507 14685129 295385.6 9876211.7 14665131 295437.7 9876250.8 34.5 Random 65m kanan91 152 507 14705131 295399.3 9876266.6 14685131 295420.4 9876233.3 34.9 Offset 40m Kanan92 152 507 14725133 295413.0 9876321.5 14705133 295433.6 9876286.7 34.5 Offset 40m Kanan93 152 507 14745135 295426.7 9876376.4 14725135 295447.2 9876342.0 34.3 Offset 40m Kanan94 152 507 14765137 295440.4 9876431.3 14785137 295419.8 9876465.2 34.4 Offst 40m kiri95 152 507 14785139 295454.1 9876486.2 14885139 295351.6 9876658.3 35.6 Offset 200m Kiri96 152 508 14405121 295536.9 9875649.3 14345121 295599.0 9875546.3 33.8 Offset 120m Kanan97 152 508 14425123 295550.6 9875704.2 14345123 295633.3 9875567.0 34.4 Offset 160m Kanan98 152 508 14445125 295564.3 9875759.1 14345125 295667.3 9875587.8 34.0 Offset 200 kanan99 152 508 14465127 295578.0 9875814.0 14425129 295646.8 9875782.0 35.0 Random 75m kanan
100 152 508 14485129 295591.7 9875868.9 14445129 295632.5 9875800.2 35.1 Offset 80m kanan101 152 508 14505131 295605.3 9875923.7 14425131 295688.5 9875785.5 36.1 Offset 160m Kanan102 152 508 14525133 295619.0 9875978.6 14585113 295214.6 9875876.3 32.8 Comp 400 depan+120 m kiri103 152 508 14545135 295632.7 9876033.5 14565135 295612.5 9876077.8 36.1 Offst 40m kiri104 152 508 14565137 295646.4 9876088.4 14605137 295605.5 9876157.3 36.0 Offset 80m Kiri105 152 509 14365137 295852.4 9875745.5 14345137 295872.6 9875710.9 34.2 Offset 40m Kanan106 151 507 14805141 295467.8 9876541.1 14865141 295405.7 9876644.1 35.0 Offset 120m kiri107 151 507 14825143 295481.4 9876595.9 14865143 295440.2 9876664.4 34.4 Offset 80m Kiri108 151 507 14845145 295495.1 9876650.8 14865145 295473.4 9876685.0 33.2 Offst 40m kiri109 151 509 14505151 295948.2 9876129.8 14465151 295984.7 9876058.1 34.3 Offset 80m kanan110 151 509 14525153 295961.9 9876184.6 14505153 295982.1 9876150.3 34.4 Offset 40m Kanan111 151 509 14545155 295975.6 9876239.5 14625155 295893.0 9876377.1 33.9 Offset 160m Kiri112 151 509 14565157 295989.3 9876294.4 14645157 295906.9 9876431.5 34.5 Offset 160m Kiri113 151 509 14585159 296003.0 9876349.3 14645159 295940.9 9876452.5 32.8 Offset 120m kiri114 151 518 12765157 297843.4 9873208.6 12765157 297841.0 9873199.0 29.5 Radius 10m mundur115 151 522 11945155 298653.34 9871782.35 11945155 298651.41 9871774.59 21.75 Radius 8m mundur116 150 509 14605161 296016.6 9876404.2 14665161 295954.9 9876507.4 32.2 Offset 120m kiri117 150 509 14625163 296030.3 9876459.1 14645163 296009.7 9876493.6 31.05 Offst 40m kiri118 150 509 14665167 296057.7 9876568.9 14685167 296035.8 9876603.1 30.376 Offst 40m kiri119 150 509 14685169 296071.4 9876623.8 14705169 296048.1 9876658.1 30.143 Offst 40m kiri120 150 517 13085169 297719.5 9873880.8 13105169 297698.8 9873915.2 26.8 Offst 40m kiri121 149 510 14645185 296386.9 9876720.0 14625185 296407.5 9876685.6 33.0 Offset 40m Kanan122 149 510 14665187 296400.6 9876774.9 14705187 296359.2 9876843.5 34.0 Offset 80m Kiri123 149 511 14565197 296675.0 9876706.5 14625197 296613.3 9876809.6 35.4 Offset 120m kiri124 149 511 14585199 296688.7 9876761.3 14645199 296628.0 9876854.5 36.2 Offset 120m kiri125 149 521 12425183 298639.4 9872893.6 12445183 298620.0 9872927.1 18.6 Offst 40m kiri126 149 530 10605181 300479.8 9869752.9 10625201 300802.0 9869993.3 26.6 Comp 400 depan+40 m kiri127 149 530 10625183 300493.5 9869807.8 10645203 300816.2 9870048.3 28.3 Comp 400 depan+40 m kiri128 149 530 10645185 300507.2 9869862.7 10745185 300404.5 9870034.0 32.5 Offset 200m Kiri129 149 530 10665187 300520.9 9869917.5 10705187 300479.9 9869986.6 30.7 Offset 80m Kiri130 149 531 10425183 300699.5 9869464.9 10425183 300697.2 9869455.3 34.1 Radius 10m Kiri131 149 531 10445185 300713.2 9869519.8 10525205 300973.5 9869863.2 26.5 Comp 400 depan+160 m kiri132 149 531 10465187 300726.9 9869574.7 10505207 301028.4 9869849.7 25.3 Comp 400 depan+80 m kiri133 149 531 10485189 300740.6 9869629.6 10505209 301062.9 9869869.9 25.2 Comp 400 depan+40 m kiri134 149 531 10505191 300754.3 9869684.5 10525211 301076.7 9869925.1 24.8 Comp 400 depan+40 m kiri135 149 531 10525193 300767.9 9869739.3 10545203 301090.2 9869979.5 25.3 Comp 400 depan+40 m kiri136 149 531 10545195 300781.6 9869794.2 10565205 301104.0 9870035.0 25.4 Comp 400 depan+40 m kiri137 149 531 10565197 300795.3 9869849.1 10585207 301118.0 9870088.9 29.2 Comp 400 depan+40 m kiri138 149 531 10585199 300809.0 9869904.0 10645199 300747.5 9870006.9 28.0 Offset 120m kiri139 148 511 14605201 296702.4 9876816.2 14645201 296661.1 9876885.2 35.4 Offset 80m Kiri140 148 511 14625203 296716.1 9876871.1 14645203 296695.0 9876905.6 36.0 Offst 40m kiri
No SWATH S LINE SP LAMA X LAMA Y LAMA SP BARU X BARU Y BARU E OFFSET141 148 512 14465207 296949.4 9876638.0 14465207 296954.2 9876630.0 33.2 Radius 10m Kanan142 148 512 14485209 296963.1 9876692.9 14425209 297004.6 9876623.8 32.3 Offset 80m kanan143 148 512 14505211 296976.8 9876747.8 14605211 296873.4 9876919.1 36.8 Offset 200m Kiri144 148 512 14525213 296990.5 9876802.7 14585213 296928.8 9876905.5 36.7 Offset 120m kiri145 148 512 14545215 297004.2 9876857.6 14605215 296942.4 9876960.4 36.9 Offset 120m kiri146 148 512 14565217 297017.9 9876912.5 14625217 296956.3 9877015.2 38.4 Offset 120m kiri147 148 512 14585219 297031.6 9876967.4 14665219 296949.1 9877104.6 38.7 Offset 160m Kiri148 148 513 14345215 297210.2 9876514.7 14425235 297470.4 9876858.5 33.6 Comp 400 depan+160 m kiri149 148 513 14365217 297223.9 9876569.6 14445237 297484.4 9876913.1 30.9 Comp 400 depan+160 m kiri150 148 513 14385219 297237.6 9876624.5 14445239 297517.8 9876932.7 30.8 Comp 400 depan+120 m kiri151 148 514 14185219 297443.6 9876281.6 14165219 297464.1 9876247.1 33.4 Offset 40m Kanan152 148 518 13225203 298158.2 9874471.0 13205203 298178.6 9874436.7 28.3 Offset 40m Kanan153 148 518 13245205 298171.9 9874525.9 13285205 298130.6 9874594.7 29.3 Offset 80m Kiri154 148 518 13265207 298185.5 9874580.8 13265207 298182.3 9874589.4 29.6 Radius 10m Kiri155 148 518 13285209 298199.2 9874635.7 13285209 298194.7 9874644.8 29.7 Radius 10m Kiri156 148 519 13165217 298460.0 9874512.4 13145217 298480.7 9874478.3 27.0 Offset 40m Kanan157 148 519 13185219 298473.7 9874567.3 13165219 298494.3 9874532.5 26.7 Offset 40m Kanan158 148 532 10405201 301028.7 9869616.0 10425221 301351.4 9869856.3 22.5 Comp 400 depan+40 m kiri159 148 532 10425203 301042.4 9869670.9 10445223 301363.7 9869911.1 26.9 Comp 400 depan+40 m kiri160 148 532 10445205 301056.1 9869725.8 10505205 300994.5 9869828.7 26.4 Offset 120m kiri161 148 532 10465207 301069.7 9869780.7 10485207 301049.2 9869815.1 24.9 Offst 40m kiri162 147 512 14605221 297045.2 9877022.2 14665221 296983.8 9877124.9 38.5 Offset 120m kiri163 147 512 14625223 297058.9 9877077.1 14665223 297017.7 9877145.8 39.5 Offset 80m kiri164 147 512 14645225 297072.6 9877132.0 14665225 297053.4 9877166.4 37.3 Offst 40m kiri165 147 513 14405221 297251.3 9876679.4 14445241 297553.0 9876953.7 31.2 Comp 400 depan+80 m kiri166 147 513 14425223 297264.9 9876734.3 14445243 297587.0 9876974.6 29.7 Comp 400 depan+40 m kiri167 147 513 14445225 297278.6 9876789.2 14465245 297601.0 9877029.6 30.8 Comp 400 depan+40 m kiri168 147 513 14465227 297292.3 9876844.0 14485247 297614.7 9877084.4 32.1 Comp 400 depan+40 m kiri169 147 513 14485229 297306.0 9876898.9 14565249 297565.6 9877243.6 29.0 Comp 400 depan+160 m kiri170 147 513 14505231 297319.7 9876953.8 14445231 297381.5 9876851.2 36.5 Offset 120m Kanan171 147 513 14525233 297333.4 9877008.7 14485233 297374.7 9876940.1 35.1 Offset 80m kanan172 147 513 14545235 297347.1 9877063.6 14505235 297388.8 9876994.9 34.7 Offset 80m kanan173 147 513 14565237 297360.7 9877118.5 14525237 297401.7 9877049.7 33.7 Offset 80m kanan174 147 513 14585239 297374.4 9877173.4 14605239 297354.4 9877206.4 33.3 Offst 40m kiri175 147 514 14205221 297457.3 9876336.5 14165221 297508.3 9876268.1 30.6 Offset 80m kanan176 147 514 14225223 297471.0 9876391.4 14165223 297530.4 9876291.0 30.9 Offset 120m Kanan177 147 514 14245225 297484.6 9876446.3 14225245 297846.8 9876618.4 32.5 Comp 400 depan+40m kiri178 147 514 14265227 297498.3 9876501.2 14245247 297861.9 9876673.4 27.2 Comp 400 depan+40m kanan179 147 514 14285229 297512.0 9876556.1 14265249 297875.6 9876727.7 29.6 Comp 400 depan+40m kanan180 147 514 14305231 297525.7 9876611.0 14265251 297909.6 9876748.4 27.8 Comp 400 depan+80m kanan181 147 514 14325233 297539.4 9876665.8 14265253 297944.1 9876768.9 25.5 Comp 400 depan+120m kanan182 147 514 14345235 297553.1 9876720.7 14285235 297613.8 9876617.8 33.6 Offset 120m Kanan183 147 514 14365237 297566.8 9876775.6 14425237 297505.6 9876879.4 33.9 Offset 120m kiri184 147 514 14385239 297580.4 9876830.5 14425239 297540.1 9876898.8 31.7 Offset 80m Kiri185 147 515 14145235 297759.1 9876377.9 14125235 297781.5 9876343.6 33.5 Offset 40m Kanan186 147 515 14165237 297772.8 9876432.7 14145237 297793.5 9876399.9 34.2 Offset 40m Kanan187 147 515 14185239 297786.5 9876487.6 14165239 297807.1 9876452.2 34.7 Offset 40m Kanan188 147 520 13085229 298748.1 9874498.9 13105229 298726.9 9874531.9 27.4 Offst 40m kiri189 147 531 10805221 300959.5 9870507.8 10805221 300961.0 9870515.6 26.8 Radius 8m maju190 146 514 14405241 297594.1 9876885.4 14425241 297573.8 9876920.0 31.5 Offst 40m kiri191 146 514 14505251 297662.5 9877159.8 14545251 297621.4 9877228.4 26.2 Offset 80m Kiri192 146 515 14205241 297800.1 9876542.5 14185241 297820.8 9876508.8 34.5 Offset 40m Kanan193 146 515 14225243 297813.8 9876597.4 14205243 297836.1 9876563.4 33.3 Offset 40m Kanan194 146 515 14305251 297868.6 9876817.0 14285251 297888.6 9876782.4 30.3 Offset 40m Kanan195 146 515 14325253 297882.2 9876871.9 14285253 297924.0 9876802.9 28.3 Offset 80m kanan196 146 516 14045245 298033.5 9876309.4 14025245 298053.7 9876273.8 22.6 Offset 40m Kanan197 146 535 10225243 301934.1 9869740.1 10205243 301954.5 9869705.7 17.6 Offset 40m Kanan198 146 535 10365257 302029.9 9870124.3 10365257 302027.7 9870114.3 20.3 Radius 10m mundur199 145 537 10045265 302496.7 9869658.1 10045265 302502.0 9869649.4 19.2 Radius 10m Kanan200 144 517 14385299 298609.0 9877448.6 14365299 298630.2 9877414.2 22.7 Offset 40m Kanan201 144 519 13885289 298952.6 9876488.4 13985289 298849.3 9876659.2 26.6 Offset 200m Kiri202 144 519 13905291 298966.3 9876543.3 13965291 298904.4 9876646.3 27.0 Offset 120m kiri203 144 519 13925293 298980.0 9876598.2 13965293 298938.9 9876666.8 26.2 Offset 80m Kiri204 144 519 13945295 298993.7 9876653.0 13965295 298973.2 9876687.3 26.3 Offst 40m kiri205 144 519 13965297 299007.4 9876707.9 13985297 298985.0 9876742.5 25.6 Offst 40m kiri206 143 519 14005301 299034.8 9876817.7 14025301 299014.1 9876852.1 24.4 Offst 40m kiri207 143 519 14025303 299048.4 9876872.6 14045303 299027.7 9876906.7 20.8 Offst 40m kiri208 143 519 14045305 299062.1 9876927.5 14065305 299041.3 9876962.0 24.4 Offst 40m kiri209 143 520 13925313 299322.9 9876804.2 13885313 299363.9 9876735.3 17.2 Offset 80m kanan210 143 520 13945315 299336.6 9876859.1 13885315 299399.0 9876755.7 17.9 Offset 120m kanan211 143 520 13965317 299350.3 9876913.9 13865317 299453.9 9876742.5 16.9 Offset 200 kanan212 143 520 13985319 299363.9 9876968.8 14045319 299302.1 9877071.6 26.6 Offset 120m Kanan213 143 521 13625303 299460.5 9876186.9 13605303 299483.5 9876151.7 17.4 Offset 40m Kanan214 143 521 13645305 299474.2 9876241.7 13625305 299497.4 9876206.2 17.0 Offset 40m Kanan215 143 525 12845305 300298.2 9874870.3 12865305 300278.0 9874903.6 30.2 Offst 40m kiri
No SWATH S LINE SP LAMA X LAMA Y LAMA SP BARU X BARU Y BARU E OFFSET216 143 529 12125313 301177.0 9873718.4 12125313 301179.4 9873726.9 22.4 Radius 9m kiri217 142 517 14625323 298773.3 9878107.2 14645323 298751.0 9878140.9 26.8 Offst 40m kiri218 142 519 14385339 299294.8 9877860.6 14365339 299315.2 9877825.8 20.5 Offset 40m Kanan219 142 520 14005321 299377.6 9877023.7 14045321 299336.1 9877092.7 25.4 Offset 80m Kiri220 142 520 14025323 299391.3 9877078.6 14045323 299371.1 9877112.9 25.5 Offst 40m kiri221 142 522 13685329 299844.4 9876557.5 13705329 299827.8 9876587.6 14.3 Offst 40m kiri222 142 525 13165337 300517.2 9875748.5 13125337 300559.0 9875680.1 27.5 Offset 80m kanan223 142 525 13185339 300530.9 9875803.4 13145339 300571.9 9875734.8 24.9 Offset 80m kanan224 141 519 14405341 299308.5 9877915.5 14365341 299349.7 9877847.0 20.5 Offset 80m kanan225 141 519 14425343 299322.1 9877970.4 14365343 299383.6 9877867.2 23.5 Offset 120m Kanan226 141 519 14445345 299335.8 9878025.2 14485345 299295.2 9878093.5 27.3 Offset 80m Kiri227 141 522 13925353 300008.6 9877216.2 13905353 300025.4 9877186.0 13.9 Offset 40m Kanan228 141 525 13205341 300544.5 9875858.3 13245341 300503.0 9875926.8 34.5 Offset 80m Kiri229 138 520 14825403 299938.7 9879274.1 14865403 299897.6 9879343.0 18.8 Offset 80m Kiri230 138 520 14845405 299952.4 9879329.0 14885405 299911.6 9879397.7 20.7 Offset 80m Kiri231 138 520 14865407 299966.1 9879383.9 14905407 299928.2 9879451.0 21.7 Offset 80m Kiri232 138 522 14485409 300391.8 9878753.1 14465409 300411.0 9878719.0 18.0 Offset 40m Kanan233 138 533 12245405 302630.6 9874871.8 12245405 302634.2 9874864.3 17.5 Radius 9m mundur234 137 526 13865427 301339.0 9877875.6 13845427 301360.4 9877840.8 7.7 Offset 40m Kanan235 137 527 13705431 301572.4 9877642.5 13685431 301593.2 9877608.0 16.9 Offset 40m Kanan236 137 527 13725433 301586.1 9877697.4 13665433 301647.8 9877593.4 13.7 Offset 120m Kanan237 137 527 13745435 301599.8 9877752.3 13665435 301682.3 9877613.0 11.0 Offset 160m Kanan238 137 527 13765437 301613.5 9877807.2 13805437 301572.8 9877875.4 10.7 Offset 80m Kiri239 137 527 13785439 301627.2 9877862.1 13805439 301606.5 9877896.6 11.6 Offst 40m kiri240 137 528 13525433 301792.1 9877354.5 13525433 301794.7 9877361.9 8.8 Radius 8m maju241 137 540 11185439 304305.4 9873404.8 11165439 304327.1 9873372.4 20.5 Offset 40m Kanan242 136 516 16145455 299470.5 9882072.7 16105455 299511.8 9882004.2 12.9 Offset 80m kanan243 136 516 16165457 299484.2 9882127.6 16105457 299546.5 9882024.6 13.4 Offset 120m Kanan244 136 516 16185459 299497.8 9882182.5 16105459 299580.7 9882045.5 12.6 Offset 160m Kanan245 136 517 15985459 299703.9 9881839.6 15925459 299765.4 9881736.8 14.9 Offset 120m Kanan246 136 520 15225443 300212.4 9880371.9 15205443 300230.8 9880342.7 13.0 Offset 40m Kanan247 136 523 14705451 300885.2 9879562.9 14685451 300904.3 9879528.9 13.1 Offset 40m Kanan248 135 516 16205461 299511.5 9882237.4 16185441 299188.7 9881996.7 9.4 Comp 400 belakang+40m kanan249 135 516 16225463 299525.2 9882292.3 16205443 299203.9 9882051.8 9.9 Comp 400 belakang+40m kanan250 135 516 16245465 299538.9 9882347.1 16225445 299216.6 9882106.5 9.2 Comp 400 belakang+40m kanan251 135 516 16265467 299552.6 9882402.0 16365467 299449.6 9882573.2 8.8 Offset 200m Kiri252 135 516 16285469 299566.3 9882456.9 16365469 299484.0 9882595.9 8.3 Offset 160m Kiri253 135 517 16005461 299717.5 9881894.5 15925461 299800.3 9881757.7 15.0 Offset 160m Kanan254 135 517 16025463 299731.2 9881949.4 15925463 299834.9 9881777.5 14.4 Offset 200m kanan255 135 517 16045465 299744.9 9882004.3 15965485 300170.5 9882072.7 10.6 Comp 400 depam+160 kanan256 135 517 16065467 299758.6 9882059.2 16045487 300122.3 9882231.2 11.3 Comp 400 depam+40 kanan257 135 517 16085469 299772.3 9882114.0 16065489 300135.9 9882285.5 11.7 Comp 400 depam+40 kanan258 135 517 16105471 299786.0 9882168.9 16085491 300149.6 9882340.4 12.0 Comp 400 depam+40 kanan259 135 517 16125473 299799.6 9882223.8 16085493 300184.3 9882361.0 11.8 Comp 400 depam+80 kanan260 135 517 16145475 299813.3 9882278.7 16245475 299710.3 9882450.0 10.7 Offset 200m Kiri261 135 517 16165477 299827.0 9882333.6 16245477 299745.3 9882471.0 11.2 Offset 160m Kiri262 135 517 16185479 299840.7 9882388.5 16225479 299799.6 9882457.1 9.0 Offset 80m Kiri263 135 518 15825463 299937.2 9881606.5 15825463 299935.5 9881599.1 14.3 Radius 8m mundur264 135 518 15985479 300046.7 9882045.6 15985479 300045.1 9882038.0 10.7 Radius 8m mundur265 134 517 16205481 299854.4 9882443.4 16225481 299834.1 9882477.7 8.7 offset 40m kiri266 134 518 16005481 300060.4 9882100.5 15945481 300122.6 9881997.9 11.3 Offset 120m Kanan267 134 518 16025483 300074.1 9882155.4 15945483 300155.9 9882018.8 12.2 Offset 160m Kanan268 134 518 16045485 300087.8 9882210.3 15985485 300149.4 9882107.3 12.1 Offset 120m Kanan269 134 518 16105491 300128.8 9882375.0 16145491 300087.6 9882443.7 10.0 Offset 80m Kiri270 134 518 16125493 300142.5 9882429.8 16145493 300122.1 9882464.2 9.9 Offst 40m kiri271 134 541 11405481 304798.8 9874214.6 11425481 304778.5 9874249.4 12.8 Offst 40m kiri272 134 545 10785499 305746.0 9873337.1 10765499 305766.7 9873302.6 23.2 Offset 40m Kanan273 133 545 10805501 305759.7 9873392.0 10765501 305801.7 9873323.5 23.4 Offset 80m kanan274 133 545 10825503 305773.4 9873446.9 10845503 305753.2 9873481.7 18.5 Offst 40m kiri275 131 523 15685549 301555.8 9882252.4 15645549 301597.1 9882183.5 9.6 Offset 80m kanan276 131 523 15705551 301569.5 9882307.3 15765551 301507.4 9882410.4 9.1 Offset 120m kiri277 131 523 15725553 301583.1 9882362.2 15785553 301521.2 9882464.9 9.2 Offset 120m kiri278 131 523 15745555 301596.8 9882417.0 15765555 301576.9 9882451.0 9.8 Offst 40m kiri279 129 542 12285589 305743.8 9876835.7 12285589 305747.9 9876828.2 8.7 Radius 8m kanan280 128 544 12125613 306320.0 9876808.6 12125613 306321.6 9876803.1 8.0 Radius 6m kanan281 127 539 13385639 305467.9 9879236.5 13385639 305467.2 9879244.7 6.7 Radius 8m kiri282 127 551 10905631 307885.3 9874902.5 10905631 307883.1 9874894.4 9.1 Radius 8m mundur283 126 543 12605641 306305.6 9877919.9 12605641 306301.8 9877925.4 7.3 Radius 7m kiri284 123 540 13985719 306221.3 9881089.1 14005719 306200.5 9881123.8 6.2 Offst 40m kiri285 123 557 10445705 309627.7 9874876.2 10445705 309629.7 9874883.8 16.1 Radius 8m maju286 122 550 12145735 308390.9 9878099.6 12145735 308391.2 9878098.0 5.8 Radius 8m maju287 122 551 11925733 308583.2 9877701.8 11925733 308580.9 9877693.9 7.0 Radius 8m mundur288 121 539 14465747 306206.9 9882200.4 14465747 306208.9 9882208.9 7.3 Radius 9m maju289 120 561 10245765 310862.4 9875151.4 10245765 310858.5 9875144.0 14.3 Radius 8m mundur290 119 554 11865787 309570.8 9878155.2 11865787 309575.5 9878162.5 5.6 Radius 9m maju
No SWATH S LINE SP LAMA X LAMA Y LAMA SP BARU X BARU Y BARU E OFFSET291 118 528 17265807 304351.2 9887618.6 17265807 304354.4 9887628.3 5.3 Radius 10m maju292 118 528 17385819 304433.3 9887948.0 17385819 304437.5 9887956.8 6.1 Radius 10m maju293 117 528 17405821 304447.0 9888002.8 17405821 304451.0 9888012.5 5.3 Radius 10m maju294 117 528 17565837 304556.5 9888441.9 17565837 304559.2 9888451.0 5.1 Radius 10m maju295 116 548 13645845 308731.6 9881804.2 13645845 308729.3 9881796.1 5.0 Radius 9m mundur296 115 529 17785879 305049.9 9889251.7 17785879 305046.9 9889245.0 4.3 Radius 7m mundur297 115 548 13885869 308895.8 9882462.8 13885869 308900.0 9882455.8 5.0 Radius 8m kanan298 114 529 17825883 305077.3 9889361.5 17825883 305074.0 9889352.5 4.5 Radius 10m mundur299 114 529 17865887 305104.7 9889471.3 17865887 305107.2 9889483.6 4.6 Radius 10m maju300 114 529 17945895 305159.4 9889690.8 17945895 305156.6 9889677.5 4.9 Radius 10m mundur301 114 529 17985899 305186.8 9889800.6 17985899 305182.7 9889792.5 4.0 Radius 10m mundur302 114 566 10445885 312713.5 9876730.3 10445885 312716.7 9876721.9 3.4 Radius 10m Kanan303 113 544 15065907 308331.7 9884877.2 15065907 308337.0 9884868.6 4.6 Radius 10m Kanan304 113 544 15085909 308345.4 9884932.0 15065909 308366.2 9884897.7 0.0 Offset 40m Kanan305 110 570 10405961 314057.6 9877444.6 10405961 314055.6 9877435.9 2.6 Radius 9m mundur306 108 555 13846005 311268.5 9883795.1 13846005 311272.3 9883804.4 4.4 Radius 10m maju307 107 542 16646025 308727.1 9888801.3 16646025 308724.7 9888807.0 4.1 Radius 8m kiri308 106 542 16846045 308864.0 9889350.2 16846045 308860.4 9889356.5 4.9 Radius 9m kiri309 104 554 14826083 311596.2 9886278.7 14806083 311616.9 9886244.3 0.0 Offset 40m Kanan310 104 554 14846085 311609.9 9886333.5 14826085 311630.5 9886299.3 0.0 Offset 40m Kanan311 104 554 14866087 311623.6 9886388.4 14846087 311644.4 9886354.3 0.0 Offset 40m Kanan312 104 554 14886089 311637.2 9886443.3 14866089 311657.9 9886408.9 0.0 Offset 40m Kanan313 103 559 14046105 312776.8 9885168.1 14026105 312797.5 9885133.8 4.5 Offset 40m Kanan314 103 559 14066107 312790.5 9885223.0 14006107 312852.4 9885120.1 0.0 Offset 120m Kanan315 103 559 14086109 312804.2 9885277.9 14006109 312886.6 9885140.7 0.0 Offset 160m Kanan316 101 550 16366157 311278.5 9889681.0 16346137 310957.1 9889441.6 4.0 Comp 400 belakang+40 kanan317 101 550 16386159 311292.2 9889735.9 16386159 311296.9 9889726.4 4.2 Radius 10m Kanan318 101 554 15546155 312088.9 9888254.6 15546155 312095.5 9888246.7 4.1 Radius 8m kanan319 101 567 12926153 314753.4 9883742.5 12906153 314774.9 9883708.5 0.0 Offset 40m Kanan320 101 567 12946155 314767.1 9883797.4 12926155 314794.9 9883759.4 0.0 Offset 40m Kanan321 100 570 12426163 315439.80 9882988.30 12426163 315445.0 9882979.5 6.6 Radius 10m Kanan322 100 571 12366177 315741.6 9883029.7 12346177 315762.8 9882994.8 4.9 Offset 40m Kanan323 100 572 12026163 315851.9 9882302.6 12026163 315862.2 9882296.2 5.2 Radius 10m Kanan324 99 568 13126193 315233.1 9884497.4 13166193 315191.9 9884566.2 4.2 Offset 80m Kiri325 99 568 13146195 315246.8 9884552.3 13166195 315226.5 9884586.9 3.5 Offst 40m kiri326 99 568 13166197 315260.5 9884607.1 13186197 315240.2 9884641.9 3.8 Offst 40m kiri327 97 569 13266227 315671.7 9885087.6 13246227 315692.3 9885053.3 3.4 Offset 40m Kanan328 97 569 13286229 315685.4 9885142.5 13246229 315727.0 9885073.1 3.5 Offset 80m kanan329 97 569 13306231 315699.1 9885197.4 13326231 315678.5 9885231.8 3.3 Offst 40m kiri330 96 570 13206241 315973.6 9885129.0 13186241 315994.9 9885094.2 2.0 Offset 40m Kanan331 96 570 13226243 315987.2 9885183.8 13206243 316008.5 9885149.2 4.0 Offset 40m Kanan332 96 570 13246245 316000.9 9885238.7 13266245 315980.9 9885273.0 2.3 Offst 40m kiri333 96 570 13346255 316069.4 9885513.2 13326255 316089.8 9885479.0 1.9 Offset 40m Kanan334 96 570 13366257 316083.0 9885568.1 13306257 316144.4 9885462.4 1.5 Offset 120m Kanan335 96 570 13386259 316096.7 9885622.9 13286259 316199.5 9885451.3 1.6 Offset 200 kanan336 96 573 12686249 316646.3 9884319.9 12626249 316687.8 9884251.17 2.359 Offset 80m kanan337 96 573 12706251 316660.0 9884374.8 12746251 316618.3 9884443.73 2.526 Offset 80m Kiri338 96 573 12726253 316673.7 9884429.7 12746253 316652 9884464.64 2.428 Offst 40m kiri339 96 573 12746255 316687.4 9884484.6 12846255 316583.9 9884657.29 2.214 Offset 200m Kiri340 96 573 12766257 316701.1 9884539.5 12866257 316598.2 9884712.57 1.982 Offset 200m Kiri341 96 573 12786259 316714.8 9884594.3 12886259 316610.8 9884768.84 1.673 Offset 200m Kiri
APPENDIX - III.16 A
GOOD DATA OF RECORDINGPROMAX PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.16 B
POOR DATA OF RECORDINGPROMAX PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.17 A
SHOT POINT DISPLAY ( AGC off )PROMAX PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.17 B
SHOT POINT DISPLAY ( AGC off )PROMAX PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 C
SHOT POINT DISPLAY ( AGC on )PROMAX PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 D
SHOT POINT DISPLAY ( AGC on )PROMAX PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 E
INLINE STACK DISPLAY SWATH 109PROMAX PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 F
INLINE STACK DISPLAY SWATH 138PROMAX PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 G
DISPLAY DAILY TEST ( CROSS TALK )PROMAX PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 H
DISPLAY DAILY TEST ( DISTORTION )PROMAX PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 I
DISPLAY DAILY TEST ( FIELD NOISE )PROMAX PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 J
DISPLAY DAILY TEST ( PULSE )PROMAX PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 K
DISPLAY DAILY TEST ( COM MODE )PROMAX PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 L
SHOT POINT DISPLAY ( AGC off )PROMAX PROGRAM
2D SEISMIC SURVEY, NAPAL-RUKU BLOCK, JAMBI 2005 - 2006
PETROCHINA INT' JABUNG LTD.PT. ELNUSA GEOSAINS A5.43
APPENDIX - III.17 M
SHOT POINT DISPLAY ( AGC on )PROMAX PROGRAM
2D SEISMIC SURVEY, NAPAL-RUKU BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 N
MIGRATION STACK DISPLAY LINE PIJ05-507PROMAX PROGRAM
2D SEISMIC SURVEY, NAPAL-RUKU BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 O
DISPLAY DAILY TEST ( CROSS TALK )PROMAX PROGRAM
2D SEISMIC SURVEY, NAPAL-RUKU BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 P
DISPLAY DAILY TEST ( DISTORTION )PROMAX PROGRAM
2D SEISMIC SURVEY, NAPAL-RUKU BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 Q
DISPLAY DAILY TEST ( FIELD NOISE )PROMAX PROGRAM
2D SEISMIC SURVEY, NAPAL-RUKU BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 R
DISPLAY DAILY TEST ( PULSE )PROMAX PROGRAM
2D SEISMIC SURVEY, NAPAL-RUKU BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.17 S
DISPLAY DAILY TEST ( COM MODE )PROMAX PROGRAM
2D SEISMIC SURVEY, NAPAL-RUKU BLOCK, JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.18
FIELD PROCESSING FLOWPROMAX PROGRAM
3D SEISMIC SURVEY, BETARA BLOCK, JAMBI 2005 - 2006
3D SEISMIC FIELD PROCESSING FLOW
SEGD - INPUT
REFORMATTING To Promax Internal Format
3D INLINE GEOM HEADER LOAD
PT. ELNUSA GEOSAINS A5.43
GEOMETRY QC
Apply Elevation Static
PRE-PROCESSING
ERROR ?
EDITING For Bad Traces
3D GEOMETRY Assign Midpoint Method:
Matching line and station number in the SIN and PAT Spreadsheets
Repositioning
Deconvolution (Minimum Phase Predictive)Operator Length 120 ms
Apply Bandpass Filter : 8-15-60-70
True Amplitude Recovery (TAR)Apply dB Correction Constant = 1.6 dB/sec
Apply Kill trace
OK
Apply Top Mute
PLOTTINGPlotter thermal
SEGY- STACK VOLUME
VELOCITY ANALYSIS 1st EVERY 50 CDP ( 1000 M )
Bandpass filter : type Ormsby bandpass, value: 8-12-40-50AGC Operator Length 500 ms
Method Computing function : Delta delta-t
INLINE BRUTE STACKNMO : forward direction NMO, Strech Mute 50
ensemble stack(Ensemble input CDP, method Mean)
GMG software ver 5.4QC Geometry, Uphole
and Picking first break time
APPLY RESIDUAL STATICMaxpower Autostatics
INLINE FINAL STACKNMO : forward direction NMO, Strech Mute 50
Apply Residual Static ensemble stack
(Ensemble input CDP, method Mean)
VELOCITY ANALYSIS 2ndApply Residual Static
EVERY 25 CDP ( 500 M )Bandpass filter : type Ormsby bandpass, value: 8-12-40-50
AGC Operator Length 500 msMethod Computing function : Delta delta-t
PETROCHINA INT' JABUNG LTD.
APPENDIX - III.18 B
FIELD PROCESSING FLOWPROMAX PROGRAM
2D SEISMIC SURVEY, NAPAL-RUKU BLOCK, JAMBI 2005 - 2006
2D SEISMIC FIELD PROCESSING FLOW
SEGD - INPUT
REFORMATTING To Promax Internal Format
GEOM HEADER LOAD
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
GEOMETRY QC
Apply Elevation Static
PRE-PROCESSING
ERROR ?
EDITING For Bad Traces
2D GEOMETRY Assign Midpoint Method:
Matching line and station number in the SIN and PAT Spreadsheets
Repositioning
Deconvolution (Minimum Phase Spiking)Operator Length 120 ms
Apply Bandpass Filter : 8-15-60-70
True Amplitude Recovery (TAR)Apply dB Correction Constant = 1.6 dB/sec
Apply Kill trace
OK
Apply Top Mute
PLOTTINGPlotter thermal
SEGY- FINAL STACK
VELOCITY ANALYSIS 1st EVERY 40 CDP ( 600 M )
Bandpass filter : type Ormsby bandpass, value: 8-12-40-50AGC Operator Length 500 ms
Method Computing function : Delta delta-t
BRUTE STACKNMO : forward direction NMO, Strech Mute 35
ensemble stack(Ensemble input CDP, method Mean)
GMG software ver 5.4QC Geometry, Uphole
and Picking first break time
APPLY RESIDUAL STATICMax Power Autostatics
FINAL STACKNMO : forward direction NMO, Strech Mute 35
Apply Residual Static ensemble stack
(Ensemble input CDP, method Mean)
VELOCITY ANALYSIS 2ndApply Residual Static
EVERY 40 CDP ( 600 M )Bandpass filter : type Ormsby bandpass, value: 8-12-40-50
AGC Operator Length 500 msMethod Computing function : Delta delta-t
APPENDIX - III.19
DIAGRAM ALUR KOMUNIKASISURVEY SEISMIK 3D - 2D DAERAH TANJUNG JABUNG BARAT
PROYEK ELNUSA GEOSAINS A5.43 - PETROCHINA INT'L JABUNG LTD.TAHUN 2005 - 2006 JAMBI
ELNUSA GEOSAINS JAKARTA
Phone : 021-78830866 Ext. 1311
PETROCHINA JAKARTAPhone : 021-5700363
Fax : 021-5203773
BC. ELNUSA A5.43GM.300
VHF : CH.3VHF : CH.4VHF : CH.11
Phone : 021-2500222 Ext. 2992Fax : 021-2500222 Ext. 2992
PETROCHINA JAMBIPhone : 021-2500222 Ext. 2991
BC. PT. SMKRINTIS BRIDGING
DRILLINGRECORDING
CH. 3 VHF
FREQ.150.325155.325
CH.4 VHFFREQ.150.575
155.575
RX TX
BC. PT. IKSDRILLINGCH. 3 VHF
FREQ.150.325155.325
CH.4 VHF
FREQ.150.575155.575
RX TX
RX TX
BC. PT. UNEDORINTIS BRIDGING
CH. 3 VHF
FREQ.150.325155.325
CH.4 VHF
FREQ.150.575155.575
RX TX
RX TX
CAMP DRILLERDAN SHOOTER
CH. 3 VHF
FREQ.150.325155.325
CH.4 VHF
FREQ.150.575155.575
RX TX
RX TX
GUDANGBHN PELEDAK
CH. 3 VHF
FREQ.150.325155.325
CH.4 VHF
FREQ.150.575155.575
RX TX
RX TX
CAMP SHOOTEROBSERVER
CH. 3 VHF
FREQ.150.325155.325
CH.4 VHF
FREQ.150.575155.575
RX TX
RX TX
WORKSHOPSLABO
CH. 3 VHF
FREQ.150.325155.325
CH.4 VHF
FREQ.150.575155.575
RX TX
RX TX
MOBIL LABO
CH. 3 VHF
FREQ.150.325155.325
CH.4 VHF
FREQ.150.575155.575
RX TX
RX TX
SHOOTERLAPANGAN
Chanel BlasterPoint to point
RX TX
151.235 151.235
R TX
FIELD CAMP SMKCH. 3 VHF
FREQ.150.325155.325
CH.4 VHFFREQ.150.575
155.575
FIELD CAMP IKSCH. 3 VHF
FREQ.150.325155.325
CH.4 VHF
FREQ.150.575155.575
FIELD CAMP UNEDOCH. 3 VHF
FREQ.150.325155.325
CH.4 VHF
FREQ.150.575155.575
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
Appendix - III.20 A
DIAGRAM MANAGEMENT ASSETSURVEY SEISMIK 3D - 2D DAERAH TANJUNG JABUNG BARAT
PROYEK ELNUSA GEOSAINS A5.43 - PETROCHINA INT'L JABUNG LTD.TAHUN 2005 - 2006 JAMBI
Manager AssetMS
Manager SDAPR
PARTY CHIEF A5.43TRI HARJIANTO
GD. LABOINVENTORY /
CABLE REPAIR
NURSALIM
DISTRIBUSITransmittal Letter
PERMINTAAN
MASUKAN
MASUK
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
Appendix - III.20 B
DIAGRAM ALUR PERALATANSURVEY SEISMIK 3D - 2D DAERAH TANJUNG JABUNG BARAT
PROYEK ELNUSA GEOSAINS A5.43 - PETROCHINA INT'L JABUNG LTD.TAHUN 2005 - 2006 JAMBI
BSD JAKARTAINVENTORY
BC. ELNUSAGEOSAINS A5.43
INVENTORY
NURSALIM
SMK RECORDINGINVENTORY
ALO RAMELAN
FIELDMandor
---------------------
KEMBALI
MASUK
GD. LABOCABLE REPAIR
NURSALIM
CHECK
CHECK
KEMBALI
MASUK KEMBALI
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.21 A
IMPORTANT CORRESPONDENCE3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.21 B
IMPORTANT CORRESPONDENCE3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.22 A
GEOPHONE PRODUCT BROCHURE3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.22 B
GEOPHONE PRODUCT BROCHURE3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.22 C
SN 408 XL PRODUCT BROCHURE3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.22 D
SN 408 XL PRODUCT BROCHURE3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.22 E
SN 408 XL PRODUCT BROCHURE3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.22 F
SN 408 XL PRODUCT BROCHURE3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI 2005 - 2006
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III 23 A
LIST PRODUCTION SHIPMENT3D SEISMIC SURVEY, BETARA BLOCK, INDONESIA
JAMBI2005/2006
Nb.Date
Swath Tape Nb. Total Tape Record Nb. Total Rec.OfShipment
1 01-Dec-05 101 106 1 45 45 01 2365 2189
2 12-Dec-05 107 112 46 84 39 2366 4560 2091
3 21-Dec-05 113 119 85 141 57 4561 7786 3080
4 02-Jan-06 120 125 142 185 44 7787 - 8354 01 - 1893 2340
5 12-Jan-06 126 129 186 213 28 1894 3456 1471
6 20-Jan-06 130 135 214 - 228 230 - 255 41 3457 5803 2206
7 03-Feb-06 136 141 256 293 38 5804 7848 1943
8 09-Feb-06 142 145 294 - 306 308 - 316 22 7849 - 8982 01 - 78 1154
9 20-Feb-06 146 158 317 361 45 79 2658 2443
10 24-Feb-06 096 100 362 386 25 2659 4078 1350
TOTAL 384 20,267
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.
APPENDIX - III.23 B
LIST PRODUCTION SHIPMENT2D SEISMIC SURVEY, NAPAL-RUKU-NAPAL EXTENSION BLOCK, INDONESIA
JAMBI2005-2006
Nb.Date
Line Tape Nb. Total Tape Record Nb. Total Rec.OfShipment
1 09-Mar-06 PIJ05- 514 01 04 4 01 506 431
2 09-Mar-06 PIJ05- 515 05 09 5 512 875 316
3 13-Mar-06 PIJ05- 505 10 11 2 876 1225 316
4 13-Mar-06 PIJ05- 504 12 13 2 1226 1542 277
5 13-Mar-06 PIJ05- 503 14 15 2 1543 1847 269
6 20-Mar-06 PIJ05- 502 16 17 2 1848 2168 281
7 20-Mar-06 PIJ05- 501 18 19 2 2169 2460 248
8 28-Mar-06 PIJ05- 511 20, 21, 30, 31 4 2461 - 2745, 3818 - 4108 531
9 28-Mar-06 PIJ05- 512 22, 23, 28, 29 4 2746 - 3013, 3555 - 3812 500
10 28-Mar-06 PIJ05- 513 24 27 4 3014 3554 488
11 04-Apr-06 PIJ05- 510 32 33 2 4109 4386 253
12 04-Apr-06 PIJ05- 509 34 35 2 4387 4682 269
13 04-Apr-06 PIJ05- 508 36 37 2 4683 4994 269
14 07-Apr-06 PIJ05- 507 38 40 3 4995 5269 234
15 07-Apr-06 PIJ05- 506 41 43 3 5270 5597 308
16 24-Apr-06 PIJ06- 602 45 47 3 5598 5905 266
17 24-Apr-06 PIJ06- 601 48 49 2 5906 6203 256
18 24-Apr-06 PIJ06- 608 50 51 2 6204 6470 249
19 24-Apr-06 PIJ06- 609 52 53 2 6471 6770 272
20 24-Apr-06 PIJ06- 610 54 55 2 6771 7058 277
21 03-May-06 PIJ06- 611 56 57 2 7059 7307 235
22 03-May-06 PIJ06- 603 58 59 2 7308 7606 289
23 03-May-06 PIJ06- 604 60 62 3 7607 7899 276
24 03-May-06 PIJ06- 605 63 64 2 7900 8180 257
25 03-May-06 PIJ06- 606 65 66 2 8181 8404 211
26 03-May-06 PIJ06- 607 67 69 3 8405 8665 251
TOTAL 68 7,829
PT. ELNUSA GEOSAINS A5.43 PETROCHINA INT' JABUNG LTD.