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Iin Muhsinah

Aplikasi metode passey dan akustik impedans dalam mendeterminasi potensi organic shale pada formasi talang akar di Cekungan X Jawa Barat Utara = Aplication passey methode and accustic impedance to determine shale organic in talang akar formation at X basin North West Java

"[Saat ini, jumlah kandungan minyak dan gas konvensional yang tersedia semakin terbatas sedangkan cadangan semakin rendah. Oleh karena itu diperlukan eksplorasi akan sumber daya baru, salah satu solusinya adalah dengan memperluas eksplorasi hidrokarbon dengan cara konvensional maupun unconvensional, dan untuk mengurangi tingginya kegagalan dalam tahapan eksplorasi ini maka diperlukan pembelajaran petroleum system terutama source rock. Source rock yang memiliki potensi tinggi harus mempunyai kandungan kerogen yang cukup untuk dapat mengenerateminyak maupun gas ke perangkap-perangkap hidrokarbon disekitarnya.Dalam penelitian ini memaparkan aplikasi metode Passey dan untuk memetakan source rock dengan kandungan TOC yang berbeda-beda di setiap kedalaman dan responnya pada seismik inversi, kemudian dihitung potensinya sehingga didapat peta penyebaran source rock dan total hidrokarbon yang sudah tergenerate ke perangkap-perangkap struktur maupun yang masih tersisa di dalam source rock itu sendiri.Penelitian ini pun mengintegrasikan data geokimia, analisa petrofisika, dan teknik seismik inversi dalam mengkarakterisasi zona yang berpotensi. Tahapan awal eksplorasi dalam penentuan sweetspot adalah dengan menggunakan metode passey untuk menghasilkan data log pseudo TOC. Kedua, melakukan analisa petrofisika untuk mendapatkan parameter fisis yang sensitif pada formasi target.Ketiga adalah dengan mengaplikasikan seismik inversi Impedansi akustik (AI) untuk mengetahui persebaran batuserpih yang mengandung potensi gas berdasarkan nilai TOC dan parameter fisis yang sensitif pada formasi target.Keempat melakukan penghitungan sumber daya yang sudah tergenerate dan yang masih tersisa dalam tubuh shale sebagai source rock;Currently, the amount of available conventional gas and oil content are more limited while the amount of reserves has been decreased. Therefore we need an exploration of new resources, one solution is to expand the exploration of hydrocarbons by means of conventional or unconvensional, and to reduce the high failure in the exploration phase of the learning required for this petroleum system primarily source rock. Source rock that has high potential must have a sufficient content of kerogen to oil or gas can be generate to the hydrocarbon traps nearby. In this research exposes Passey Method and application method to map the source rock TOC content varies with each depth and seismic inversion, the response was then calculated its potential so obtained a map of the spread of source rock and hydrocarbon that already total generated to structures trap as well as those still remaining in the source rock itself. In this study integrates geochemical data, analysis of petrophysic, and seismic inversion technique to characterize potential zones. Early stages of exploration in the determination of sweetspot is using Passey Method to generate pseudo TOC. Second, petrophysical analysis to obtain physical parameters that are sensitive to the target formation. Third is by applying accustic impedance seismic inversion to determine the distribution of shale rock that contain gas potential based on the value of TOC and physical parameters that are sensitive to the target formation. Fourth do calculating resources have generated and remaining in a shale as source rock;Currently, the amount of available conventional gas and oil content are more limited while the amount of reserves has been decreased. Therefore we need an exploration of new resources, one solution is to expand the exploration of hydrocarbons by means of conventional or unconvensional, and to reduce the high failure in the exploration phase of the learning required for this petroleum system primarily source rock. Source rock that has high potential must have a sufficient content of kerogen to oil or gas can be generate to the hydrocarbon traps nearby. In this research exposes Passey Method and application method to map the source rock TOC content varies with each depth and seismic inversion, the response was then calculated its potential so obtained a map of the spread of source rock and hydrocarbon that already total generated to structures trap as well as those still remaining in the source rock itself. In this study integrates geochemical data, analysis of petrophysic, and seismic inversion technique to characterize potential zones. Early stages of exploration in the determination of sweetspot is using Passey Method to generate pseudo TOC. Second, petrophysical analysis to obtain physical parameters that are sensitive to the target formation. Third is by applying accustic impedance seismic inversion to determine the distribution of shale rock that contain gas potential based on the value of TOC and physical parameters that are sensitive to the target formation. Fourth do calculating resources have generated and remaining in a shale as source rock, Currently, the amount of available conventional gas and oil content are more limited while the amount of reserves has been decreased. Therefore we need an exploration of new resources, one solution is to expand the exploration of hydrocarbons by means of conventional or unconvensional, and to reduce the high failure in the exploration phase of the learning required for this petroleum system primarily source rock. Source rock that has high potential must have a sufficient content of kerogen to oil or gas can be generate to the hydrocarbon traps nearby. In this research exposes Passey Method and application method to map the source rock TOC content varies with each depth and seismic inversion, the response was then calculated its potential so obtained a map of the spread of source rock and hydrocarbon that already total generated to structures trap as well as those still remaining in the source rock itself. In this study integrates geochemical data, analysis of petrophysic, and seismic inversion technique to characterize potential zones. Early stages of exploration in the determination of sweetspot is using Passey Method to generate pseudo TOC. Second, petrophysical analysis to obtain physical parameters that are sensitive to the target formation. Third is by applying accustic impedance seismic inversion to determine the distribution of shale rock that contain gas potential based on the value of TOC and physical parameters that are sensitive to the target formation. Fourth do calculating resources have generated and remaining in a shale as source rock]"

Universitas Indonesia, 2015

T44165

UI - Tesis Membership Universitas Indonesia Library

Junita T. Musu

Shale gas potential in North Sumatra basin: results of an integrated geology, geochemistry, petrophysics, and geography analyses = Potensi shale gas Sumatra Utara: hasil analisis geologi, geokimia, petrofisika, dan geofisika terpadu

"A detailed combined geological and geophysical study in North Sumatra basin has shown that prospective formations for shale play containing gas sweet spots are found to be shales from Bampo, Belumai, and Baong Formations. Bampo Formations Exhibits low shale gas potential with very low to medium in organic material contents, maturity index of immature to mature, and moderate brittleness. Rocks within the formation tent to be reactive to highly reactive to water, with a moderate degree of swelling capacity. Porosity varies within 5.8-7.4% with permeability raging from 0.37 to 3.2 mD. Sweet spots in the formation found around Basilam-l and Securai-l wells occupy about 21% of the formation. On the other hand, Belumai Formation shows moderate to good shale gas potential, with low to high organic material contents, immature to mature levels of maturity, and moderately brittle to brittle. Sweet spots areas in the formation fpund around the two wells are about 29% of the formation. For Baong Formation, analysis reveals moderate to good shale gas potential, with low to medium contents of organic material, immature to mature in maturity index, moderately brittle to brittle in brittleness, and tendency of being reactive to highly reactive to water but with low degree of swelling capacity. Sweet spots in the formation found around two wells occupies are roughly 11% of the total formation volume in the area. Basin modeling leading to gas resources estimation for Baong, Belumai, and Bampo Formations has led to estimated volumes of 6, 379 TCF, 16, 994 TCF, and 25,024 TCF, respectively, with a total amount of 48, 397 TCF. The resources figures are speculative in nature and do not incorporate any certainty and efficiency factors."

Jakarta: LEMIGAS Research and Development Centre for Oil and Gas Technology Afilliation and Publication Division, 2015

620 SCI 38: 2 (2015)

Artikel Jurnal Universitas Indonesia Library

Fidiyarsi Matari Andri Yatmo

Potensi Pemanfaatan Keseluruhan Shale Oil dan Shale Gas Hasil Oil Shale Retorting dalam Produksi Hidrogen dan Ammonia Menggunakan Chemical Looping = Potential Total Utilization of Shale Oil and Shale Gas Products from Oil Shale Retorting in Hydrogen and Ammonia Production Using Chemical Looping

"Oil Shale merupakan salah satu bahan bakar non konvensional berbentuk sedimen batuan halus, yang dapat menjadi sumber energi alternatif. Dalam proses retorting, Oil Shale dapat dikonversi menjadi shale oil dan shale gas. Sebelumnya, terdapat beberapa penelitian yang membahas potensi shale gas untuk memproduksi gas hidrogen. Pada penelitian ini, dilakukan pemodelan sistem menggunakan Aspen Plus untuk mengetahui potensi pemanfaatan keseluruhan shale oil beserta shale gas hasil dari retorting untuk memproduksi hidrogen menggunakan teknologi chemical looping. Selain itu, penelitian ini bertujuan untuk mengetahui efisiensi energi dari sistem apabila meneruskan tahapan produksi hidrogen hingga ke tahap produksi ammonia untuk penyimpanan. Berdasarkan hasil simulasi, produk retorting dari 0,126 kg/s bahan baku oil shale komposisi New Albany, yaitu 0,0063 kg/s shale oil dan 0,0024 kg/s shale gas, dapat memproduksi hidrogen sebanyak 0,0037 kg/s. Hidrogen ini dapat dikonversi menjadi ammonia sebanyak 0,012 kg/s dengan sisa hidrogen sebanyak 0,00089kg/s. Berdasarkan analisis energi, didapatkan efisiensi dari keseluruhan proses oil shale retorting hingga produksi ammonia adalah sebesar 55%.

Oil shale is one of the non-conventional fuel in the form of fine rock sediments, which can be utilized as an alternative energy resource. In the retorting process, Oil Shale is converted into shale oil and shale gas. Previously, there were several studies that discussed the potential utilization of the shale gas product to produce hydrogen gas. In this study, a simulation was carried out using Aspen Plus to determine the potential of using both shale oil and shale gas products from the retorting process, to produce hydrogen using a chemical looping system. In addition, this study is aimed at analysing the energy efficiency of the system with the additional process of converting hydrogen into ammonia for storage. Based on the simulation results, the retorting product from 0,126 kg/s of oil shale, respectively 0,0063 kg/s and 0,024 kg/s of shale oil and shale gas, could produce 0,0031 kg/s of hydrogen. This amount of hydrogen could be converted into 0,012 kg/s of ammonia, with a remaining hydrogen product of 0,00089 kg/s. Based on the energy analysis, the efficiency of the entire system from the oil shale retorting process up to the ammonia production is 55%."

Depok: Fakultas Teknik Universitas Indonesia, 2023

S-pdf

UI - Skripsi Membership Universitas Indonesia Library

Wiyono

Karakterisasi shale berdasarkan sifat fisika batuan untuk penentuan potensi shale hidrokarbon: studi kasus dalaman tamiang, cekungan Sumatera Utara = Shale characterization based on petrophysical to determine hydrocarbon potential case study tamiang deep North Sumatra basin

"Shale hidrokarbon masih menjadi salah satu topik hangat dalam industri perminyakan. Indonesia memiliki potensi shale gas yang cukup besar yaitu sekitar 574 TCF. Pemerintah bersama investor sedang memulai pengusahaan shale hidrokarbon. Parameter-parameter geokimia dan geomekanik merupakan aspek penting dalam eksplorasi potensi shale hidrokarbon dan memberikan informasi penting dalam rangka optimasi produksi. Namun demikian, masih cukup terbatas penelitian-penelitian terkait hubungan parameter-parameter petrofisik untuk shale hidrokarbon. Area penelitian berada pada bagian tepi selatan cekungan Sumatera Utara. Formasi Baong dipercaya sebagai target pengusahaan shale hidrokarbon dengan dominan litologi adalah shale. Formasi Baong berada pada kisaran kedalaman 1.465 ndash;3.224 m dengan mudstone tebal, didominasi oleh calcareous shale berwarna abu-abu coklat hingga hitam yang kaya foraminifera, mengindikasikan pengendapan pada lingkungan laut. Umur Formasi Baong bervariasi dari Miocen Bawah hingga Miocen Tengah dan secara vertikal dapat diklasifikasikan menjadi 3 unit, yaitu : Baong Bagian Atas, Baong Bagian Tengah dan Baong Bagian Bawah yang didominasi oleh shale. Penelitian ini bertujuan untuk mengidentifikasi potesni shale hidrokarbon dengan menganalisa Total Organic Carbon TOC , Brittleness Index BI , Hydrogen Index HI dan parameter-parameter kematangan. Berbagai metode dilakukan untuk menganalisa beberapa parameter tersebut, diantaranya dengan geokimia, mineralogi, petrofisik, cross plotting, dan interpretasi seismik. Hasil analisa Rock-Eval dan petrografi menunjukkan bahwa TOC bervariasi antara 0,1 ndash;2,3 , vitrinite reflectance Ro berkisar 0,4 ndash;0,9, HI bervariasi antara 31 ndash;171 dan temperatur maksimum Tmax berkisar antara 432 ndash;461oC. TOC menunjukkan kategori cukup hingga baik. Crossplot antara HI dan Tmax pada diagram van Krevelen menunjukkan dominasi kerogen tipe II dan III. Kerogen dapat diklasifikasikan sebagai early mature hingga mature. BI pada shale termasuk pada kategori less brittle hingga brittle. Area prospektif untuk pengembangan shale hidrokarbon yaitu pada sekuen MFS-2, MFS-3, SB-2 dan SB-3 dengan potensi berupa shale oil.

Shale hydrocarbon remains one of the hot topics in the petroleum industry. Indonesia has a great potential shale gas resource 574 TCF , and both government and oil companies have promoted the development of shale gas. Geochemical and geomechanical parameters are important aspects for exploring new shale gas play, and it provides significant information to optimize production plan and stimulation design. However, there is limited research on correlations inter petrophysical parameters for shale hydrocarbon reservoirs. The study area is located on the southeast border of the North Sumatra Basin. Lower Baong Formation shales are believed to be favorable shale gas targets with a dominant shale lithology. The Baong Formation occurs at depths from 1.465 ndash 3.224 m in the study area with the thick mudstone, dominated by gray, brown to black calcareous shale rich in foraminifera, indicating a marine environment. The Baong Formation age varies from the Lower Miocene to Middle Miocene can split into three vertical units the Upper Baong, Middle Baong, and the dominantly shale Lower Baong. This research is aimed to characterize and identify shale hydrocarbon by examining the Total Organic Carbon TOC , Brittleness Index BI , Hydrogen Index HI and maturity parameters. Various methods were used to analyze these parameters, including geochemistry, mineralogy, petrophysics, cross plotting, and seismic interpretation. Our analysis on Rock Eval and petrographic data shows that TOC varies between 0.1 ndash 2.3 , vitrinite reflectance of 0.4 ndash 0.9 , HI varies from 31 ndash 171, and maximum temperature Tmax from 432 ndash 461oC. TOC resulted in a poor to good category. A cross plot of the HI and Tmax in the van Krevelen diagram revealed the dominant kerogen types as II and III. The kerogen can be considered as early mature to mature. The BI of the shale formation of the research area is categorized in less brittle to brittle. The prospective areas for the development of shale hydrocarbon are the sequences of MFS 2, MFS 3, SB 2 and SB 3 with the potential of shale oil."

2017

T47595

UI - Tesis Membership Universitas Indonesia Library

Didit Putra Kusuma

Pemetaan struktur shale pada zona reservoar resistivitas rendah untuk optimasi penentuan posisi sumur pemboran baru, Lapangan Beryl, Blok Offshore North West Java = Shale structure mapping in low resistivity reservoir for well placement optimization, Beryl Field, Offshore North West Java Block

Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2018

T52333

UI - Tesis Membership Universitas Indonesia Library

Septiyadi Irawan

Identifikasi lapisan potensi shale gas menggunakan inversi impedansi akustik dan dekomposisi spektral pada lapangan "AP" = Identification of shale gas potential layer using inversion of acoustic impedance and spectral decomposition at field "AP"

"Penelitian ini melakukan identifikasi lapisan shale gas menggunakan Inversi Impedansi Akustik dan Dekomposisi Spektral. Penelitian dilakukan di Lapangan "AP", Cekungan Barito dan formasi target yaitu Formasi Tanjung. Nilai Total Organic Carbon (TOC) ditentukan dengan menggunakan Passey's Number dan data geokimia. Selanjutnya, zona shale gas ditentukan dengan mengorelasikan Log Gamma-ray dengan Log Densitas, Sonic, NPHI, dan Resistivitas pada dua sumur.

Hasil korelasi menunjukkan terdapat zona shale gas pada masing-masing sumur, yaitu dikedalaman 7130-7370 ft (Sumur A-1) dan 3100-3280 ft (Sumur P-1). Zona shale gas Sumur A-1 dan Sumur P-1 memiliki TOC rata-rata 5.4 wt% dan 2.8 wt%. Hasil tersebut didukung oleh hasil inversi impedansi akustik (AI) yang menujukkan nilai impedansi rendah untuk zona shale gas antara 5000-8000 m/s*g/cc (Line A-1), dan 7200-8900 m/s*g/cc (Line P-1).

Selain itu, hasil tersebut juga didukung oleh hasil dekomposisi spektral yang menunjukkan anomali Continuous Wavelet Transform (CWT) tinggi pada frekuensi 18 Hz (untuk Line A-1) dan 20 Hz (untuk Line P-1). Analisis terintegrasi antara data seismik, hasil inversi AI dan CWT menunjukkan terdapat daerah potensial shale gas pada punggungan antilkin di Line A-1 dan Line P-1.

This study identify shale gas layer using acoustic impedance (AI) and spectral decomposition. The object of this study is Field ‘AP’, Barito Basin, and the formation target is Tanjung Formation. Total Organic Carbon (TOC) values was determined using Passey’s Number and geochemical data. Furthermore, shale gas zone was determined by correlating Gamma-ray log with Density, Sonic, NPHI and Resistivity log in two wells.
Correlation result showed there are a shale gas zone in each well, which is at 7130-7370 ft (Well A-1) and 3100-3280 ft (Well P-1). Shale gas zone Well A-1 and P-1 has average TOC of 5.4 wt% and 2.8 wt%. These results are supported by calculation of AI inversion, which showed a low impedance values for shale gas zone between 5000-8000 m/s*gr/cc (Line A-1) and 7200-8900 m/s*gr/cc (Line P-1).
Besides, spectral decomposition also showed high CWT anomaly at 18 Hz (Line A-1) and 20 Hz (Line P-1). Integrated analysis of seismic data, AI, and CWT indicates there are potentials area of shale gas on the anticline ridge on Line A-1 and Line P-1."

Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2014

S54967

UI - Skripsi Membership Universitas Indonesia Library

Siti Zahra Wahyunita

Analisis Keekonomian Lapangan Shale Gas di Formasi Meliat Cekungan Tarakan Menggunakan Skema Kontrak Kerja Sama Gross Split = Economic Analysis of The Shale Gas Field in Meliat formation Tarakan Basin Using Gross Split Contract Scheme.

"ABSTRAK

Selisih antara jumlah pasokan dan kebutuhan gas bumi di Indonesia yang semakin meningkat setiap tahunnya diakibatkan jumlah pasokan gas bumi semakin menurun dan kebutuhan akan gas bumi yang semakin meningkat serta kurangnya penemuan cadangan gas terbaru. Hal ini mendorong pemerintah Indonesia untuk mengembangkan sumber daya gas lainnya seperti shale gas sehingga dapat diproduksi secara komersial. Potensi shale gas Indonesia diperkirakan mencapai 574 TCF yang tersebar di Sumatera, Kalimantan, Jawa dan Papua. Formasi Meliat yang berada di Cekungan Tarakan memiliki sumber daya shale gas yang bisa dihasilkan secara teknis sebesar 3.8 TCF dari gas-in-place resiko sebesar 25.1 TCF. Tujuan penelitian ini mengkaji skema kontrak gross split terhadap aspek keekonomian dari pengembangan lapangan shale gas di Formasi Meliat, Cekungan Tarakan.

Skenario dasar dalam penelitian ini yaitu membuat tiga profil laju alir yang dikembangkan dengan menggunakan kurva penurunan hiperbolik Arps, antara lain profil produksi rendah dengan laju alir awal (qi) sebesar 50 mmcf/mo, profil produksi sedang qi=125 mmcf/mo dan profil produksi tinggi qi=200 mmcf/mo. Amerika Serikat dan lapangan migas terdekat menjadi benchmarking dalam membuat biaya investasi pengembangan lapangan shale gas di Cekungan Tarakan. Pada kondisi analisis kontrak gross split memiliki NPV>0, IRR>10% pada profil produksi sedang dan tinggi. Analisis sensitivitas dilakukan pada profil produksi, biaya pengeboran dan harga gas. Hasil analisis menunjukkan bahwa faktor yang lebih berpengaruh terhadap peningkatan NPV dalam kontrak gross split adalah profil produksi. NPV positif dicapai ketika gas bumi dijual pada $9.24/MMBTU pada profil produksi sedang dan $6.43/MMBTU pada profil produksi tinggi.

ABSTRACT

The difference between the amount of supply and demand of natural gas in Indonesia is increasing each year year due to the decreasing natural gas supply with increasing demand and the lack of discovery of the latest gas reserves. This encourages the Indonesian government to develop other gas resources such as shale gas so that it can be produced commercially. Shale gas potential in Indonesia was predicted reached 574 TCF which spread in Sumatra, Kalimantan, Java and Papua. Meliat Formation, located in Tarakan Basin has shale gas potential in which 3.8 TCF is technically recoverable with 25.1 TCF risked gas in place. The purpose of this study is to examine the gross split contract scheme on technoeconomic aspect of shale gas field development in Meliat Formation in Tarakan Basin.

The basic scenario in this research is to create three flow rate profiles developed using the Arps hyperbolic decline curves, consist a low production profile with initial production (qi) of 50 mmcf / mo, medium production profile qi = 125 mmcf / mo and high production profile qi = 200 mmcf / mo. The The United States and the nearest oil and gas field in Tarakan Basin have become a benchmark in making investment costs for the development of this shale gas field. In the analysis condition, gross split contracts have NPV> 0, IRR> 10% on medium and high production profiles. Sensitivity analysis is carried out on the production profile, drilling costs and wellhead gas price. The analysis shows that the factor that has more affected on the increase in NPV in gross split contract is the production profile. A positive NPV is reached when gas price is $ 9.24 / MMBTU at medium production profile and $ 6.43 / MMBTU at high production profile."

2020

T55066

UI - Tesis Membership Universitas Indonesia Library

Ordas Dewanto

Tingkat maturasi serpih minyak pada CaCo3 dan kaolinite dengan cara penentuan energi aktivasi menggunakan metode termogravimetri dan pirolisis = Maturation level oil shale on CaCo3 and kaolinite with determination activation energy by using thermogravimetric and pyrolysis methods

"[ABSTRAK

Material serpih adalah sejenis serpih minyak yaitu material clay atau karbonat yang

mengandung banyak organik belum matang, apabila dipanaskan pada suhu tertentu,

kandungan organiknya menjadi matang dan berubah secara fisika dan kimia,

sehingga dapat menghasilkan bahan energi seperti migas. Dalam penelitian ini

campuran material dimodifikasi dengan perbandingan: A=B, AB dan AB.

Pengujian TOC menghasilkan clay-organik (SMC) dan karbonat-organik (SMK)

menunjukkan kualitas yang sangat baik sebagai serpih minyak (TOC≥12.0%), yang

diperkuat hasil analisis SEM (morfologi dan komposisi) dan XRD (interaksi dua

material).

Hasil analisis Termogravimetri menunjukkan energi aktivasi material serpih clay

(209-355 kJ/mol) lebih kecil dibanding karbonat (749-1339 kJ/mol), dan temperatur

untuk proses reaksi material serpih clay (40-600OC) lebih kecil dibanding karbonat

(75-740OC). Karakteristik tersebut menyebabkan tingkat maturasi material serpih

clay lebih cepat dibanding karbonat, diperkuat Tmax serpih clay (315-323OC) lebih

kecil dibanding Tmax serpih karbonat (415-493OC). CEC 2 (serpih minyak)

memiliki karakteristik yang sama dengan serpih clay (Ea=239 kJ/mol dan T=40-

600OC). OD1-Ast3 memiliki tingkat maturasi yang paling bagus (Ea=234 kJ/mol

dan Tmax=315OC) sesuai dengan serpih minyak (CEC 2). Hasil pengujian Rock

Eval Pyrolisis menunjukkan material serpih clay dan karbonat mempunyai potensi

tinggi (menghasilkan oil dan gas). Hasil pemanasan material serpih diperkuat oleh

hasil pengujian FTIR yaitu senyawa dengan gugus fungsi tertentu terlepas dan

muncul puncak baru di bilangan gelombang 2900 cm-1 yang menunjukkan

keberadaan hidrokarbon ikatan tunggal dari rantai karbon panjang C-H.;

ABSTRACT

The material is a kind of shale oil shale is clay or carbonate material containing

organic many immature, when heated to a certain temperature, the organic content

of becoming mature and change in physics and chemistry, so it can produce energy

materials such as oil and gas. In this study a mixture of materials modified by

comparison: A=B, AB and A>B. TOC testing of clay-organic (SMC) produce and

organic carbonates (SMK) demonstrate excellent quality as shale oil (TOC≥12.0%),

which confirmed the results of scanning electron microscopy (SEM) analysis

(morphology and composition) and X-ray diffraction (XRD) (interaction of two

materials).

The results of thermogravimetric analysis showed activation energy shale clay

material (209-355 kJ/mol) is smaller than the carbonate (749-1339 kJ/mol), and the

temperature of the reaction process shale clay material (40-600OC) is smaller than

the carbonate (75- 740OC). These characteristics cause the maturation level of clay

shale material faster than carbonate, shale clay reinforced Tmax (315-323OC) is

smaller than Tmax flakes carbonate (415-493OC). CEC 2 (shale oil) has the same

characteristics as the flakes of clay (Ea=239 kJ/mol and T=40-600OC). OD1-Ast3

have the most good maturation rate (Ea=234 kJ/mol and Tmax=315OC) in

accordance with the shale oil (CEC 2). Test results show the Rock Eval Pyrolisis

clay shale and carbonate material has a high potential (produce oil and gas).

Results heating shale material reinforced by FTIR testing results are compounds

with specific functional groups apart and a new peak appeared at wavenumber 2900

cm-1 which indicate the presence of hydrocarbons single bonds of the carbon chain

length of CH.;The material is a kind of shale oil shale is clay or carbonate material containing