DOCSLIB.ORG

Member Country Report of INDONESIA

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Member Country Report of INDONESIA CCOP-53AS/3-7 COORDINATING COMMITTEE FOR GEOSCIENCE PROGRAMMES IN EAST AND SOUTHEAST ASIA (CCOP) 53rd CCOP Annual Session 16 – 19 October 2017 Cebu City, Philippines Member Country Report of INDONESIA Submitted by Indonesian Delegation / Geological Agency (For Agenda Item 3) COORDINATING COMMITTEE FOR GEOSCIENCE PROGRAMMES IN EAST AND SOUTHEAST ASIA (CCOP) CCOP Building, 75/10 Rama VI Road, Phayathai, Ratchathewi, Bangkok 10400, Thailand Tel: +66 (0) 2644 5468, Fax: +66 (0) 2644 5429, E-mail: [email protected], Website: www.ccop.or.th ANNUAL MEMBER COUNTRY REPORT Country: INDONESIA Period: 1 July 2016 - 30 June 2017 I. OUTREACH The technical activities has been reclassified into three sectors and seven programmes as follows: Geo-Resources (Mineral, Energy, Groundwater), Geo-Environment (Coastal, Geohazard, Environmental Geology), and Geo-information (Geo data and Information Management) GEO-RESOURCES SECTOR 1. MINERAL PROGRAMME 1.1. Summary Several companies holding license for exploration activities in mining for metallic mineral have reported the results of their activities and the development of resources and reserves of several minerals. Several mineral commodities resources and reserves are shown in the following figure. Figure 1.1. Bar charts of some mineral commodities resources and reserves of Indonesia 2012 - 2016 CCOP Member Country Report: INDONESIA 1 The government has planned to revise Law No. 4/2009 due to some provisions in this regulation that can not be implemented/experiencing obstacles in the implementation, need to be adjusted with Law Number 23 Year 2014 on Local Government, The Constitutional Court Decision, and the government policy to simplify licensing and public services, including in this case licensing of mineral sub-sector. 1.2. Annual Review of Individual Technical Activities During July 2016 – June 2017 period, Geological Agency conducted mineral exploration at several areas. In the second semester of 2016, metallic mineral exploration conducted at Southeast Minahasa, North Sulawesi, Banjar and Tanah Laut, South Kalimantan, and Gowa, South Sulawesi, whereas non metallic mineral exploration has been done at Merangin, South Sumatera, Tanggamus, Lampung and East Kotawaringin, Central Kalimantan . In the first semester of 2017, metallic mineral exploration has been done at Belu, East Nusa Tenggara, Tanah Datar, West Sumatera, Bangka, Bangka Belitung Island, Jayapura, Papua. Joint Geochemical Survey between Geological Agency of Indonesia and China Geological Survey has been carried out in the northern part of Sumatera. Non metallic mineral exploration also carried out in several areas: limestone at South Konawe, Southeast Sulawesi, quartz sand at East Kotawaringin, Central Kalimantan and Kalium at Kudus, Central Jawa. Figure 1.2. Location Map of Metallic Mineral Survey in 2nd Semester 2016 – 1st Semester 2017 1.3. Proposed Future Activities Nothing to Report. 2 CCOP Member Country Report: INDONESIA 1.4. Assistance Required from CCOP/Other Member Countries in Support of Future Activities Capacity building program in exploration methodology and training program for integrated geophysical and geochemical data interpretation especially for REE are needed in order to achieve expected exploration targets and to get more new prospect discoveries. The exchange of various exploration experiences through establishment of special forum dealing with relevant and actual issues between CCOP member countries would be helpful to cope with exploration problems encountered in any exploration project plan. 1.5. Assistance Offered to CCOP/Other Member Countries in Support of Future Activities Nothing to Report 1.6. Others Comments Direct responses on reviews mentioned above for improvement of project outcomes and for perfecting any exploration plans would be kindly required from technical director of CCOP. Programme Contact Person: Hedi Hidayat Center for Mineral, Coal and Geothermal Resources Geological Agency of Indonesia Jl. Sukarno Hatta 444 Bandung, West Jawa, Indonesia Phone : +62-22-5202698; +62-22-5205572 Fax : +62-22-5226263 Email : [email protected] 2. ENERGY PROGRAMME 2.1. HYDROCARBON 2.1.1. Summary One of the Indonesian government's strategic program is to increase the Reserve Replacement Ratio (RRR) to more than 100% in the next five years through one of the programs in House of Energy Sovereignty (to conduct aggressive exploration activities). Status of Indonesian total oil reserves in 2016 is 7,251 billion barrels or decreased by 0.049 billion barrels (0.67%) compared to oil reserves in January 1st, 2015 (7.3 billion barrels). For natural gas, there is also decresed in reserves of 151.33 TCF to 144,09 TCF or decreased by 7,27 TCF (4,8%) (LEMIGAS, 2016). Based on data of late 2016, national reserve potential of oil and gas is 5.2 billion barrels of oil equivalent, consisting of 2.7 billion barrels of oil and 14 trillion cubic feet of gas, estimated from 108 proven oil and gas discovery wells (KEN, 2016). To support the government’s policy in order to increase the Reserve Replacement Ratio (RRR) to more than 100% for the next five years, one of the exploration research activities of CCOP Member Country Report: INDONESIA 3 LEMIGAS during the years 2017 are Intensification of Oil and Gas Exploration in Indonesia (especially eastern area). Indonesia has 82 Tertiary sedimentary basins and 4 pre-Tertiary Basins. 46 of them are located in Eastern Indonesia (BPMIGAS - LAPI ITB, 2008). Based on the basin status of 2017, there are 17 production basins, 14 basins with hydrocarbon discovery, 17 basins with hydrocarbon indication, 38 basins with no hydrocarbon indication. Based on classification of hydrocarbon resources, there are total lead resource around 71019,84 MMSTB of oil and 580274,4 BSCF of gas, total drillable resource around 15930,5 MMSTB of oil and 122346. BSCF of gas, total postdrill resource around 1248,34 MMSTB of oil and 8739,3 BSCF of gas, and total discovery resource around 123,1822 MMSTB of oil and 1790,9 BSCF of gas. Figure 2.1. Oil and Gas Reserve Map, Status 2016 (LEMIGAS, 2016) 2.1.2. Annual Review of Technical Programs/Activities The study areas for exploration are mostly focused in Papua Island, Arafura Sea, Sulawesi and Kalimantan, including Tanah Merah, Atsy, Merauke, MisoolTimur, East Kai, North Bone Gulf, Tomini and East Tanimbar. To increase the economic value of the blocks, reevaluation of unsold blocks is conducted to Morowali, Sunda Strait IV, Halmahera III and Tarakan II areas. The result of reevaluation reveals that Sunda Strait IV and Tarakan II are interesting in petroleum system perspective, whilst Morowali and Halmahera III are not prospective. 4 CCOP Member Country Report: INDONESIA Figure 2.2. Oil and gas resources in Indonesia Figure 2.3. Research area map of oil and gas working area in 2016 2.1.2.1. Intensification of Oil and Gas Exploration in Indonesia Intensification of Oil and Gas Exploration in Indonesia is collaboration research among LEMIGAS, Geological Agency, National Data Center of Minisitry of Energy and Mineral Resources (MEMR) and Directorate General of Oil and Gas. 1) Atsy Block Based on geochemical analysis, this basin has problems in the potential source rock and maturity level of the source rock. In addition, the configuration structure does not support the formation of significant structural traps, and this is characterized by the flat seismic reflector. CCOP Member Country Report: INDONESIA 5 2) East Kai Block Petroleum system of East Kai area has been active as it is indicated by the occurrence of a number of oil and gas seepages in the Yamtimur area. In general, the East Kai Block has a complete petroleum system elements. Based on a comprehensive review of the hydrocarbon system, the study area has potential to generate and stores hydrocarbon. 3) Tanah Merah Block The Tanah Merah Block is characterized by a thin sedimentary rock sequence that is not supporting for maturation process and the absent of sedimentary rock interval that has potential as a source rock (low content of organic material and maturity level). Related to the reservoir rock, Wonimogi and Kais Formations have a low porosity value (9 - 11%). The research of hydrocarbons potential study of the area is still on progress. 4) Tomini Block The formation with a good quality and quantity of organic material has not be found. Eventually, the speculative volumetric calculation indicates uneconomic potential. 5) Merauke Block Due to thin sedimentary rock sequence, maturation process of source rock is not supported. However, there is minor indication of active petroleum system in the outcrop (seepage) as shown by geological survey done by PSG, whilst oil show from well data is absent. Based on geochemistry analysis, Mesozoikum Piniya Formation is the main candidate to become potential source rock (thickness is 300-400 meters, TOC is 0.8 to 1.4%). The main problems of petroleum system in this area is the absence of good quality of reservoir. 6) Misool Block The Eastern Misool block is located in the offshore northeast of Misool Island which geographically includes in the regional Salawati Basin. Salawati Basin is a mature basin that has been proven to have an active petroleum system as evidenced by the occurences of many seepages of oil and also with some oil and gas fields that have been producing. The source rocks of Permo-trias and Jura intervals have excellent potential and quality with total organic carbon ranges of value is 0.5 to 10% and have reached matured phase with Ro value reaching 1,0. This block has good potential to generate and store hydrocarbon. 2.1.2.2. Unconventional Hydrocarbon The study on the Nias and Meulaboh areas (Sibolga Basin) has been conducted to identify biogenic gas potential. The result of the study indicates that these areas have good potential in both Miocene carbonate and Pliocene siliciclastic plays. 2.1.2.2.1. Biogenic Gas in Nias Area Nias Area is located in The Sibolga basin (fore arc basin) which placed in the western part of Sumatra offshore.
Load more

Recommended publications
  • South-East Asia Second Edition CHARLES S
    Geological Evolution of South-East Asia Second Edition CHARLES S. HUTCHISON Geological Society of Malaysia 2007 Geological Evolution of South-east Asia Second edition CHARLES S. HUTCHISON Professor emeritus, Department of geology University of Malaya Geological Society of Malaysia 2007 Geological Society of Malaysia Department of Geology University of Malaya 50603 Kuala Lumpur Malaysia All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior permission of the Geological Society of Malaysia ©Charles S. Hutchison 1989 First published by Oxford University Press 1989 This edition published with the permission of Oxford University Press 1996 ISBN 978-983-99102-5-4 Printed in Malaysia by Art Printing Works Sdn. Bhd. This book is dedicated to the former professors at the University of Malaya. It is my privilege to have collabo­ rated with Professors C. S. Pichamuthu, T. H. F. Klompe, N. S. Haile, K. F. G. Hosking and P. H. Stauffer. Their teaching and publications laid the foundations for our present understanding of the geology of this complex region. I also salute D. ]. Gobbett for having the foresight to establish the Geological Society of Malaysia and Professor Robert Hall for his ongoing fascination with this region. Preface to this edition The original edition of this book was published by known throughout the region of South-east Asia. Oxford University Press in 1989 as number 13 of the Unfortunately the stock has become depleted in 2007. Oxford monographs on geology and geophysics.
    [Show full text]
  • Undiscovered Petroleum Resources of Indonesia by John Kingston
    UNITED STATES DEPARTMENT OF THE INTERIOR GEOLOGICAL SURVEY Undiscovered Petroleum Resources of Indonesia by John Kingston Open-File Report 88-379 This report is preliminary and has not been reviewed for conformity with U.S. Geological Survey editorial standards and stratigraphic nomenclature 1988 ASSESSMENT OF RECOVERABLE ENERGY RESOURCES The World Energy Resources Program of the U.S. Geological Survey (USGS) Intends to develop reliable and credible estimates of undiscovered recoverable petroleum resources throughout the world. Initial program efforts have focused on the major producing areas of the world to gain a broad geological understanding of the characteristics of petroleum occurrence for purposes of resource assessment, as well as for analysis of production potential. Investigations of production potential are carried out In cooperation with other U.S. Government agencies; specifically, the studies of the main free world exporting nations, of which this study Is a part, are carried out In cooperation with the Foreign Energy Supply Assessment Program of the Department of Energy. The estimates represent the views of a U.S. Geological Survey study team and should not be regarded as an official position of the U.S. Government. The program seeks to Investigate resource potential at the basin level, primarily through analogy with other petroleum regions, and does not necessarily require, therefore, current exploration Information that Is commonly held proprietary. In conducting the geological Investigations, we Intend to build a support base of publicly available data and regional geologic synthesis against which to measure the progress of exploration and thereby validate the assessment. Most of these Investigations will lead directly to quantitative resource assessments; resource assessment, like exploration, to be effective, must be an ongoing process taking advantage of changing Ideas and data availability the results produced being progress reports reflecting on a state of knowledge at a point In time.
    [Show full text]
  • Reconstruction of Floral Changes During Deposition of the Miocene Embalut Coal from Kutai Basin, Mahakam Delta, East Kalimantan
    Organic Geochemistry 40 (2009) 206–218 Contents lists available at ScienceDirect Organic Geochemistry journal homepage: www.elsevier.com/locate/orggeochem Reconstruction of floral changes during deposition of the Miocene Embalut coal from Kutai Basin, Mahakam Delta, East Kalimantan, Indonesia by use of aromatic hydrocarbon composition and stable carbon isotope ratios of organic matter Sri Widodo a,*, Achim Bechtel b, Komang Anggayana c, Wilhelm Püttmann a a Institute of Atmospheric and Environmental Sciences, Department of Analytical Environmental Chemistry, J.W. Goethe University, Altenhöferallee1, D-60438 Frankfurt a.M., Germany b EAWAG, Department of Surface Waters – Biogeochemistry, Seestr. 79, CH-6047 Kastanienbaum, Switzerland c Department of Mining Engineering, Bandung Institute of Technology, Jln Ganesa 10, I-40132 Bandung, Indonesia article info abstract Article history: The distribution of aromatic hydrocarbons and stable carbon isotope ratios of organic matter in a series of Received 19 May 2008 nine Miocene Embalut coal samples obtained from nine coal seams of Kutai Basin, East Kalimantan, Indo- Received in revised form 22 October 2008 nesia were studied. The rank of the Embalut coals ranged from lignites to low rank sub-bituminous coals Accepted 25 October 2008 (0.36–0.50% Rr), based on measurements of huminite reflectance. The aromatic hydrocarbon fractions of Available online 5 November 2008 all coal samples were dominated by cadalene in the lower boiling point range and picene derivatives in the higher boiling point range of the gas chromatograms. Cadalene can be attributed to the contribution of Dipterocarpaceae and various hydrated picenes to the contribution of additional angiosperms to the coal forming vegetation. The picenes originate from alpha- and beta-amyrin.
    [Show full text]
  • 02 Heri Hermiyanto
    Jurnal Geologi dan Sumberdaya Mineral Vol.19. No.2 Mei 2018 hal 73 - 82 Geo-Resource Jurnal Geologi dan Sumberdaya Mineral Center for Geological Survey, Geological Agency, Ministry of Energy and Mineral Resources G e o l o g i Journal homepage: http://jgsm.geologi.esdm.go.id ISSN 0853 - 9634, e-ISSN 2549 - 4759 Rock-Eval Pyrolysis of the Oligocene Fine-grained Sedimentary Rocks from the Pamaluan Formation, Gunung Bayan Area, West Kutai Basin, East Kalimantan : Implication for Hydrocarbon Source Rock Potential Rock-Eval Pyrolisis pada Batuan Sedimen Berbutir Halus Berumur Oligosen dari Formasi Pamaluan, Daerah Gunung Bayan, Cekungan Kutai Barat, Kalimantan Timur : Implikasinya untuk Potensi Sebagai Batuan Induk Moh. Heri Hermiyanto Zajuli and Joko Wahyudiono Centre for Geological Survey, Geological Agency, Ministry of Energy and Mineral Resources Jalan. Diponegoro no. 57 Bandung email : [email protected] Naskah diterima : 29 Februari 2018, Revisi terakhir : 12 Mei 2018, Disetujui : 12 Mei 2018, Online : 07 Juni 2018 DOI: http://dx.doi.org/10.33332/jgsm.geologi.19.2.73-82 Abstract - In this study, we perform organic geochemistry Abstrak - Dalam penelitian ini, kami melakukan analisis analysis for evaluating source rocks in Gunung Bayan geokimia untuk mengevaluasi batuan induk di daerah area, West Kutai Basin. The Oligosen fine-grained Gunung Bayan, Cekungan Kutai Barat. Batuan sedimen sedimentary rock of Pamaluan Formation consists of berbutir halus yang berumur Oligosen yaitu Formasi shale, siltstone and claystone. The organic geochemistry Pamaluan, tersusun atas batuan serpih, lanau, dan batu data includes pyrolysis data as total organic carbon lempung. Data geokimia organik yang tersedia terdiri atas (TOC%), generating source potential (S2), production total organic carbon (TOC %), potensi batuan induk (S2), index (PI), oxygen and hydrogen indices(OI, HI) and indeks produksi (PI), indeks oksigen dan hidrogen (OI dan (Tmax).
    [Show full text]
  • Berita Sedimentologi [Pick the Date]
    Number 42 BERITA 01 / 2019 SEDIMENTOLOGI Published by The Indonesian Sedimentologists Forum (FOSI) The Sedimentology Commission - The Indonesian Association of Geologists (IAGI) Berita Sedimentologi [Pick the date] Editorial Board Advisory Board Minarwan Prof. Yahdi Zaim Chief Editor Quaternary Geology Bangkok, Thailand Institute of Technology, Bandung E-mail: [email protected] Prof. R. P. Koesoemadinata Herman Darman Deputy Chief Editor Emeritus Professor Director of Indogeo Social Enterprise Institute of Technology, Bandung Jakarta, Indonesia E-mail: [email protected] Wartono Rahardjo University of Gajah Mada, Yogyakarta, Indonesia Ricky Andrian Tampubolon Lemigas, Jakarta E-mail: [email protected] Mohammad Syaiful Exploration Think Tank Indonesia Ragil Pratiwi Layout editor Patra Nusa Data, Jakarta F. Hasan Sidi E-mail: [email protected] Woodside, Perth, Australia Mohamad Amin Ahlun Nazar Prof. Dr. Harry Doust University Link Coordinator Faculty of Earth and Life Sciences, Vrije Jakarta, Indonesia Universiteit E-mail: [email protected] De Boelelaan 1085 Rina Rudd 1081 HV Amsterdam, The Netherlands Reviewer E-mails: [email protected]; Husky Energy, Jakarta, Indonesia [email protected] E-mail: [email protected] Dr. J.T. (Han) van Gorsel Visitasi Femant 6516 Minola St., HOUSTON, TX 77007, USA Treasurer, Membership & Social Media Coordinator www.vangorselslist.com Pertamina Hulu Energi, Jakarta, Indonesia E-mail: [email protected] E-mail: [email protected] Yan Bachtiar Muslih Dr. T.J.A. Reijers Pertamina University, Jakarta Geo-Training & Travel E-mail: [email protected] Gevelakkers 11, 9465TV Anderen, The Netherlands E-mail: [email protected] Maradona Mansyur Beicip Franlab, Kuala Lumpur Dr. Andy Wight E-mail: [email protected] formerly IIAPCO-Maxus-Repsol, latterly consultant for Mitra Energy Ltd, KL E-mail: [email protected] Cover Photograph: Coral Limestone from Mokmer Formation, in Biak Island.
    [Show full text]
  • The South Makassar Strait Mass Transport Complex
    Armandita et al. Origin, structural geometry, and development of a giant coherent slide: The South Makassar Strait mass transport complex Cipi Armandita1,2,3,*, Chris K. Morley3,4, and Philip Rowell2,† 1SKK Migas, Gedung Wisma Mulia Building, Lantai 35, JI Jend, Gatot Subroto No. 42, 12710, Jakarta, Indonesia 2Petroleum Geoscience Program, Chulalongkorn University, 254 Phayathai, Pathumwan, Bangkok, 10330, Thailand 3PTTEP (PTT Exploration and Production Public Company Limited), Soi 11, Vibhavadi-Rangsit Road, Chatuchak, 10900, Bangkok, Thailand 4Petroleum Geophysics Program, Department of Geological Sciences, Chiang Mai University, 239 Huay Kaew Road, Chiang Mai, 50200, Thailand ABSTRACT cene. Variable uplift promoted sliding domi- when the MTC was deposited in the early Plio- nantly from the eastern and western margins cene (Fig. 1). The South Makassar Strait mass transport of the headwall. The internal fault patterns Mass transport complex (MTC) is a general complex (MTC) covers an area of at least of the MTC show that extension in the upper term used for an underwater landslide deposit 9000 km2 and has a total volume of 2438 km3. slope to lower slope in the core area changes that undergoes some combination of creeping, It is composed of a shale-dominated sedimen- downslope to compressional structures in the sliding, slumping, and/or plastic fl ow in a marine tary unit with high water content. Seismic toe domain and apron. Later extensional col- or freshwater lacustrine environment (e.g., Dott, refl ection data across the South Makassar lapse of parts of the compressional toe area 1963; Nardin et al., 1979; Moscardelli and Strait MTC show that it displays relatively occurred with negative inversion on some Wood, 2008).
    [Show full text]
  • Distribution of Sulfur and Pyrite in Coal Seams from Kutai Basin (East Kalimantan, Indonesia): Implications for Paleoenvironmental Conditions
    International Journal of Coal Geology 81 (2010) 151–162 Contents lists available at ScienceDirect International Journal of Coal Geology journal homepage: www.elsevier.com/locate/ijcoalgeo Distribution of sulfur and pyrite in coal seams from Kutai Basin (East Kalimantan, Indonesia): Implications for paleoenvironmental conditions Sri Widodo a,⁎, Wolfgang Oschmann b, Achim Bechtel c, Reinhard F. Sachsenhofer c, Komang Anggayana d, Wilhelm Puettmann e a Department of Mining Engineering, Moslem University of Indonesia, Jln. Urip Sumoharjo, Makassar, Indonesia b Institute of Geosciece, J.W. Goethe-University, Altenhöferallee 1, D-60438 Frankfurt a.M., Germany c Department of Applied Geoscience and Geophysics,University of Leoben, Peter-Tunner-Str.5, A-8700 Leoben, Austria d Department of Mining Engineering, Bandung Institute of Technology, Jln. Ganesa 10, I-40132 Bandung, Indonesia e Institute of Atmospheric and Environmental Sciences, Dapartment of Analytical Enviromental Chemistry, J.W. Goethe-University, Altenhöferallee 1, D-60438 Frankfurt a.M., Germany article info abstract Article history: Thirteen Miocene coal samples from three active open pit and underground coal mines in the Kutai Basin Received 12 August 2009 (East Kalimantan, Indonesia) were collected. According to our microscopical and geochemical investigations, Received in revised form 29 November 2009 coal samples from Sebulu and Centra Busang coal mines yield high sulfur and pyrite contents as compared to Accepted 3 December 2009 the Embalut coal mine. The latter being characterized by very low sulfur (b1%) and pyrite contents. The ash, Available online 13 December 2009 mineral, total sulfur, iron (Fe) and pyrite contents of most of the coal samples from the Sebulu and Centra Busang coal mines are high and positively related in these samples.
    [Show full text]
  • Cenozoic Geological and Plate Tectonic Evolution of SE Asia and the SW Paci®C: Computer-Based Reconstructions, Model and Animations
    Journal of Asian Earth Sciences 20 >2002) 353±431 www.elsevier.com/locate/jseaes Cenozoic geological and plate tectonic evolution of SE Asia and the SW Paci®c: computer-based reconstructions, model and animations Robert Hall* SE Asia Research Group, Department of Geology, Royal Holloway University of London, Egham, Surrey TW20 0EX, UK Received 10 November 2000, accepted 30 July 2001 Abstract A plate tectonic model for the Cenozoic development of the region of SE Asia and the SW Paci®c is presented and its implications are discussed. The model is accompanied by computer animations in a variety of formats, which can be viewed on most desktop computers. GPS measurements and present seismicity illustrate the high rates of motions and tectonic complexity of the region, but provide little help in long- term reconstruction. Plate boundaries shifted rapidly in the Cenozoic. During convergence of the major plates, there were numerous important episodes of extension, forming ocean basins and causing subsidence within continental regions, probably driven by subduction. Within eastern Indonesia, New Guinea and the Melanesian arcs, there are multiple Cenozoic sutures, with very short histories compared to most well-known older orogenic belts. They preserve a record of major changes in tectonics, including subduction polarity reversals, elimination of volcanic arcs, changing plate boundaries and extension within an overall contractional setting. Rapid tectonic changes have occurred within periods of less than 5 Ma. Many events would be overlooked or ignored in older orogenic belts, even when evidence is preserved, because high resolution dating is required to identify them, and the inference of almost simultaneous contraction and extension seems contradictory.
    [Show full text]
  • Organic Petrology of Selected Coal Samples of Eocene Kuaro Formation from Pasir Area-East Kalimantan
    CORE Metadata, citation and similar papers at core.ac.uk Provided by Jurnal Puslitbang tekMira (Teknologi Mineral dan Batubara) Organic PetrologyINDONESIAN of Selected MINING Coal JOURNAL Samples Vol. of Eocene 14, No. Kuaro3, October Formation 2011 :... 146 Binarko - 153 Santoso ORGANIC PETROLOGY OF SELECTED COAL SAMPLES OF EOCENE KUARO FORMATION FROM PASIR AREA-EAST KALIMANTAN BINARKO SANTOSO R&D Center for Mineral and Coal Technology Jl. Jenderal Sudirman 623 Bandung 40211, INDONESIA Ph. +6222-6030483, Fax. +6222-6003373 E-mail: [email protected] ABSTRACT Eight samples of Eocene Kuaro Formation were taken from Pasir area, East Kalimantan to be examined their lithotype, maceral, mineral matter and rank of the coals in terms of geologic factors. The samples were analysed according to the ASTM (2009). The result shows the dominance of brighter lithotypes and vitrinite over liptinite, inertinite and mineral matter. There is a strong correlation between lithotype and maceral composition of the coals. The brighter lithotypes have high vitrinite content. This indicates that the coals were formed under a wet condition. The presence of high content of pyrite and calcite reflects marine incursion, in which the coals were deposited under paralic and shallow marine environment. Thus, this environment strongly supports the above correlation, where the coals were formed under the wet condition. The slight differences in the coal type can be caused by the relatively short period of peat accumulation and similarity in climate during the peat formation, and slight differences in geological setting during the Eocene period. Vitrinite reflectance (Rvmax%) values show similar ranks (mostly subbituminous A to high volatile bitumi- nous C) with a slight difference due to the thickness of cover during the coalification.
    [Show full text]
  • Sediment Thickness and Moho Depth Beneath Western Indonesian Region from Teleseismic Receiver Function
    Sediment Thickness and Moho Depth Beneath Western Indonesian Region From Teleseismic Receiver Function Syaiful Bahri Universitas Gadjah Mada Wiwit Suryanto ( [email protected] ) Universitas Gadjah Mada Fakultas Matematika dan Ilmu Pengetahuan Alam https://orcid.org/0000- 0002-6275-7880 Drajat Ngadmanto BMKG: Badan Meteorologi Klimatologi dan Geosika Full paper Keywords: teleseismic receiver function, sediment thickness, Moho depth, Western Indonesia Region Posted Date: March 31st, 2021 DOI: https://doi.org/10.21203/rs.3.rs-356661/v1 License: This work is licensed under a Creative Commons Attribution 4.0 International License. Read Full License Page 1/24 Abstract The Earth's crust layer and sediment in Western Indonesia has been studied using the inversion of teleseismic receiver function from BMKG’s seismic network. Earthquake events were analyzed in this study with a moment magnitude greater than 6.0 with epicentral distances of 30° to 90°. A total of 60 earthquake events were observed and recorded by 91 stations around the study area. Furthermore, an inversion process was carried out using the initial velocity model from the modication of the AK135f velocity model to obtain the shear wave velocity structure below each stations. The velocity model from the azimuthally stacked vertical receiver function showed that the sediment layer had a relatively medium shear wave velocity value with an average of 2.1 km/s, while the crust layer had 4.60 km/s. The sedimentary layer thickness in this region also varies between 2 km to 10 km. A relatively thick sediment layer of about 8 km to 10 km was observed in two locations, in East Kalimantan associated with the Kutai Basin and Northern part of Sumatera in the North Sumatera Basin, a two major oil producer basinal area in Indonesia.
    [Show full text]
  • Cenozoic Palaeogeographic Evolution of Sulawesi and Borneo
    ELSEVIER Palaeogeography, Palaeoclimatology, Palaeoecology 145 (1999) 303±337 Cenozoic palaeogeographic evolution of Sulawesi and Borneo Moyra E.J. Wilson Ł, Steve J. Moss 1 SE Asia Research Group, Department of Geology, Royal Holloway University of London, Egham, Surrey TW20 0EX, UK Received 30 September 1997; revised version received 1 July 1998; accepted 6 July 1998 Abstract Sulawesi and Borneo are located in the middle of the Indonesian Archipelago, an area which has been extremely tectonically active throughout the Cenozoic. This paper compiles current knowledge on the geology and palaeogeography of this complex region and includes the ®rst attempt to synthesise palaeogeographic data onto plate tectonic reconstructions. Construction of palaeogeographic maps helped to identify some of the strengths and weaknesses of current plate tectonic models for the region, thereby highlighting areas where further geological research is required. Palaeogeographic maps presented, using plate tectonic reconstructions as a base, illustrate the evolution of Borneo and Sulawesi and highlight important changes in the environment during the Cenozoic. The Tertiary geological history of eastern Borneo and Sulawesi is inextricably linked to the progressive accretion of continental and oceanic material from the east, onto the eastern margin of Sundaland, and to the resultant development of volcanic arcs. Large tracts of western Sulawesi, eastern Borneo, the East Java Sea and the Makassar Straits formed an extensive basinal area throughout much of the Tertiary. Implications for plate tectonics, exploration for natural resources and biogeography are discussed from the palaeogeographic reconstructions of Sulawesi and Borneo. 1999 Elsevier Science B.V. All rights reserved. Keywords: palaeoenvironments; palaeogeography; tectonics; Cenozoic; Southeast Asia; biogeography; resources 1.
    [Show full text]
  • Climate Controls on Stratigraphy
    CLIMATE CONTROLS ON STRATIGRAPHY Climate Controls on Stratigraphy SEDIMENT YIELD SEDIMENT POTENTIAL SOLID POTENTIAL 12 3 4 567891011 12 NUMBER OF MONTHS WHEN RAINFALL EXCEEDS EVAPOTRANSPORATION Edited by: C. BLAINE CECIL U.S. Geological Survey, Reston, Virginia 20192, U.S.A. AND N. TERENCE EDGAR U.S. Geological Survey, St. Petersburg, Florida 33710, U.S.A. Copyright 2003 by SEPM (Society for Sedimentary Geology) Laura J. Crossey, Editor of Special Publications SEPM Special Publication Number 77 Tulsa, Oklahoma, U.S.A. October, 2003 SEPM and the authors are grateful to the following for their generous contribution to the cost of publishing Climate Controls on Stratigraphy United States Geological Survey ChevronTexaco The National Center for Atmospheric Research (sponsored by the National Science Foundation) Contributions were applied to the cost of production, which reduced the purchase price, making the volume available to a wide audience SEPM (Society for Sedimentary Geology) is an international not-for-profit Society based in Tulsa, Oklahoma. Through its network of international members, the Society is dedicated to the dissemination of scientific information on sedimentology, stratigraphy, paleontology, environmental sciences, marine geology, hydrogeology, and many additional related specialties. The Society supports members in their professional objectives by publication of two major scientific journals, the Journal of Sedimentary Research (JSR) and PALAIOS, in addition to producing technical conferences, short courses, and Special Publications. Through SEPM's Continuing Education, Publications, Meetings, and other programs, members can both gain and exchange information pertinent to their geologic specialties. For more information about SEPM, please visit www.sepm.org. ISBN 1-56576-085-9 © 2003 by SEPM (Society for Sedimentary Geology) 6128 E.
    [Show full text]