DFE04-PO-004 Double Coloumn Nov 08
5
7/17/2019 DFE04-PO-004 Double Coloumn Nov 08 http://slidepdf.com/reader/full/dfe04-po-004-double-coloumn-nov-08 1/5 DFE04-PO-004 INDONESIAN PETROLEUM ASSOCIATION Proceedings, Deepwater And Frontier Exploration In Asia & Australasia Symposium, December 2004 TURBIDITE PUCANGAN FORMATION AND PETROLEUM SYSTEM IN THE EASTERN PART OF THE KENDENG ZONE, NORTH-EAST JAVA BASIN Moch. Yohannes Pranoto Koesoemo* ABSTRACT The tectonic evolution of the eastern part of the Kendeng zone, North-east Java Basin, extends from Late Cretaceous to Recent times. Paleogene extension was followed by Neogene compression which resulted in faulting and folding. A Pleistocene sea-level fall and sequence boundary at 2.9 Ma is interpreted from analysis of outcrop, seismic and well data. The sequence boundary is identified from outcrops at Kalibeng, Kabuh and Pucangan Hill. The Pucangan Formation was deposited from north- flowing turbidity currents and is recognised as a new hydrocarbon play in the area. The postulated petroleum system comprises early Miocene Pelang Formation shale source rock, hydrocarbons migrating via faults and Pucangan Formation turbidites forming both reservoir (Ta,Tb) and seal (Td, Te). INTRODUCTION Detailed geological studies comprising outcrop observations, sequence stratigraphy, well log analysis and seismic stratigraphy have been undertaken on the middle Pleistocene turbiditic Pucangan Formation of the Kendeng area, north- east Java (Figure 1). Erosion took place in response to sea-level falls during the middle Pleistocene. In the eastern part of Kendeng zone the eroded clastic sediments were transported towards the north and redeposited by turbidity currents within a submarine fan complex, as seen in outcrops north of Jombang. RESULTS The 2.9 Ma sequence boundary may be observed in outcrops on the eastern bank of Kali Beng River at Pojoklitik Village where marl of the Kalibeng * Pusdiklat Migas, Cepu Formation underlies the turbiditic Pucangan Formation (Figure 2). The middle part of the Pucangan Formation, interpreted as having been deposited on the upper part of a submarine fan system (Figure 3), crops out in the Pucangan Hill area (Figure 4) and also 20 km north-east of Jombang. The upper part of the formation is well exposed at the village of Kabuh, 10 km north of Jombang (Figure 5) where coarse- grained clastic sand (Bouma division Ta) forms the reservoir for the Watudakon and Wunut gas-fields By using sedimentological analysis, a Pucangan hydrocarbon play may be inferred, with coarse clastic sand (Bouma divisions Ta, Tb) reservoir rocks, fine-grained clastic sediment (Bouma divisions Td, Te) providing caprock, and shale of the Miocene Pelang Formation as a potential source. CONCLUSIONS 1. Coarse clastic turbidite sands (Bouma division Ta) of the Pucangan Formation forms the reservoir in the Watudakon and Wunut gas fields ( Lapindo Brantas ). 2. Marls of the Pelang Formation and the shale of the lower and middle Kerek Formation are possible source rocks. 3. Hydrocarbon migration occurred through faults. 4. Pucangan Formation shales (Bouma divisions Td and Te) constitute potential cap-rocks. 5. It is recommended that further detailed study of outcrop geology and analysis of seismic stratigraphy be undertaken to provide further important information on the petroleum systems in this part of north-east Java. ACKNOWLEGEMENT The author thanks Dr. Ir. Zuhdan Fathoni, Head of Oil and Gas Educational and Training Centre
-
Upload
ishak-sanjaya -
Category
Documents
-
view
217 -
download
0
description
ngnhjmjukjili
Transcript of DFE04-PO-004 Double Coloumn Nov 08
7/17/2019 DFE04-PO-004 Double Coloumn Nov 08
http://slidepdf.com/reader/full/dfe04-po-004-double-coloumn-nov-08 1/5
DFE04-PO-004
INDONESIAN PETROLEUM ASSOCIATION
Proceedings, Deepwater And Frontier Exploration In Asia & Australasia Symposium, December 2004
TURBIDITE PUCANGAN FORMATION AND PETROLEUM SYSTEM IN THE EASTERN PART
OF THE KENDENG ZONE, NORTH-EAST JAVA BASIN
Moch. Yohannes Pranoto Koesoemo*
ABSTRACT
The tectonic evolution of the eastern part of the
Kendeng zone, North-east Java Basin, extends from
Late Cretaceous to Recent times. Paleogene
extension was followed by Neogene compression
which resulted in faulting and folding.
A Pleistocene sea-level fall and sequence boundary
at 2.9 Ma is interpreted from analysis of outcrop,
seismic and well data. The sequence boundary is
identified from outcrops at Kalibeng, Kabuh and
Pucangan Hill.
The Pucangan Formation was deposited from north-
flowing turbidity currents and is recognised as a
new hydrocarbon play in the area. The postulated
petroleum system comprises early Miocene Pelang
Formation shale source rock, hydrocarbons
migrating via faults and Pucangan Formationturbidites forming both reservoir (Ta,Tb) and seal
(Td, Te).
INTRODUCTION
Detailed geological studies comprising outcrop
observations, sequence stratigraphy, well log
analysis and seismic stratigraphy have been
undertaken on the middle Pleistocene turbiditic
Pucangan Formation of the Kendeng area, north-
east Java (Figure 1).
Erosion took place in response to sea-level falls
during the middle Pleistocene. In the eastern part of
Kendeng zone the eroded clastic sediments were
transported towards the north and redeposited by
turbidity currents within a submarine fan complex,
as seen in outcrops north of Jombang.
RESULTS
The 2.9 Ma sequence boundary may be observed in
outcrops on the eastern bank of Kali Beng River at
Pojoklitik Village where marl of the Kalibeng
* Pusdiklat Migas, Cepu
Formation underlies the turbiditic Pucangan
Formation (Figure 2).
The middle part of the Pucangan Formation,
interpreted as having been deposited on the upper
part of a submarine fan system (Figure 3), crops out
in the Pucangan Hill area (Figure 4) and also 20 km
north-east of Jombang. The upper part of theformation is well exposed at the village of Kabuh,
10 km north of Jombang (Figure 5) where coarse-
grained clastic sand (Bouma division Ta) forms the
reservoir for the Watudakon and Wunut gas-fields
By using sedimentological analysis, a Pucangan
hydrocarbon play may be inferred, with coarse
clastic sand (Bouma divisions Ta, Tb) reservoir
rocks, fine-grained clastic sediment (Bouma
divisions Td, Te) providing caprock, and shale of
the Miocene Pelang Formation as a potential source.
CONCLUSIONS
1. Coarse clastic turbidite sands (Bouma division
Ta) of the Pucangan Formation forms the
reservoir in the Watudakon and Wunut gas
fields ( Lapindo Brantas ).
2. Marls of the Pelang Formation and the shale of
the lower and middle Kerek Formation are
possible source rocks.
3. Hydrocarbon migration occurred through
faults.
4.
Pucangan Formation shales (Bouma divisions
Td and Te) constitute potential cap-rocks.
5. It is recommended that further detailed study of
outcrop geology and analysis of seismic
stratigraphy be undertaken to provide further
important information on the petroleum systems
in this part of north-east Java.
ACKNOWLEGEMENT
The author thanks Dr. Ir. Zuhdan Fathoni, Head of
Oil and Gas Educational and Training Centre
7/17/2019 DFE04-PO-004 Double Coloumn Nov 08
http://slidepdf.com/reader/full/dfe04-po-004-double-coloumn-nov-08 2/5
(PPT Migas), for motivation and kindly providing
financial support during field work and the
preparation of this paper.
REFERENCES
Koesoemo, Y.P., Yuwono, N.T., and Musliki, S.,
1996.Sequence Stratigraphic Concept Applied to
Middle Miocene to Pliocene Outcrops in Northeast
Java Basin Indonesia. Proceedings of International
Symposium on Sequence Stratigraphy in S.E. Asia,
p. 329–344.
Koesoemo, Y. P., 1993. Sequence Stratigraphy
Middle to Upper Miocene N.E. Java Basin, Thesis
S2 Geology ITB, Bandung.
Van Bemmelen, R.W., 1949. The Geology of
Indonesia. Martinus Nijhoff, The Hague,
Netherland.
Vail, P. R., 1977. Seismic Stratigraphy and Global
Change of Sea Level, Part 3: Relative Changes of
Sea Level from Coastal Onlap. AAPG Memoir 26,
p. 53-97.
7/17/2019 DFE04-PO-004 Double Coloumn Nov 08
http://slidepdf.com/reader/full/dfe04-po-004-double-coloumn-nov-08 3/5
Figure 1 - Location Map.
Figure 2 - Outcrop of lower Pucangan Formation, Pojoklitik, 7 km north-west Jombang.
7/17/2019 DFE04-PO-004 Double Coloumn Nov 08
http://slidepdf.com/reader/full/dfe04-po-004-double-coloumn-nov-08 4/5
Figure 3 - Outcrop of middle Pucangan Formation, Kabuh village, 10 km north Jombang.
Figure 4 - Outcrop middle Turbidite Pucangan Formation, Pucangan Hill, 20 km NE of
Jombang. Interpreted as having been deposited in mid-fan environment.
7/17/2019 DFE04-PO-004 Double Coloumn Nov 08
http://slidepdf.com/reader/full/dfe04-po-004-double-coloumn-nov-08 5/5
Figure 5 - Outcrop of middle pucangan Formation, Kabuh village, 10 km north of Jombang.
Figure 6 - WD # X gas well, coarse-grained reservoir of Pucangan Formation at 250 m depth,
Bekucuk Village, 1 km North of Iodium Kimia Farma Factory 5 km west of
Mojokerto.
