Dear All, This is a reminder that Institute for Research and Community Empowerment - Institut Teknologi Bandung (LPPM-ITB) will hold "Seismic Methods for Carbonate Reservoir Analysis" on 14 - 18 March 2005 at Holiday Inn Hotel Bandung. The brief summary of the program is written below. You are kindly requested to distribute it to your colleagues who (geologists, geophysicists, petroleum / reservoir engineers, managers, etc.) may get benefit from it. If you need more complete information & brochures on these course programs please do not hesitate to contact: Fitri Lestari Petroleum Geosciences Study Center (PGSC), Patra Jasa Bldg 20th Floor, Jl. Jend. Gatot Subroto Kav. 32-33, JAKARTA Phone: 021-52900036 Cell : 081310706352 Fax : 021-52900046 E-mail: [EMAIL PROTECTED] Sincerely, Sigit Sukmono ===================================================== Date & Venue The Course will be held on 14 - 18 March 2005 at Holiday Inn Hotel - Bandung. About the Course Carbonate rocks make up only 20% of the sedimentary rock record yet account for more than 50% of the world's proven hydrocarbon reserves. Therefore, it should be no surprise that carbonate reservoirs are very important targets for oil and gas exploration. Exploring elusive stratigraphic hydrocarbon traps, developing gas resources, and arresting production decline and early water breakthrough in giant carbonate oil reservoirs have all prompted demands for new geophysical technologies targeted for prospect reconnaissance and detailed characterization of carbonate reservoirs. Incremental producibility enhancement through advanced technology application can result in significant reserve adds and economic benefits. In this Course, the participants learn fundamental techniques in carbonate reservoir analysis using seismic methods. Emphasis is given on the application of quantitative seismic methods for fluid and fracture analysis. The first day discusses fundamentals principles of carbonate seismology. The second day discusses the application complex and time attributes. The third and fourth days are devoted to AI and AVO techniques for fluid and fracture analysis. The fifth day discusses the application of 4D and multicomponents seismic for reservoir monitoring and fracture analysis. Course Instructors The course instructor is DR. Sigit Sukmono whose resume is available in the complete course brochure. Course Fee Course fee is Rp.10 million (Ten Millions Rupiah) per person. Course fee does not include hotel accommodations for participants, but do include tuition fee, purchase price of course material, lunch and morning-afternoon coffee break, daily refreshment. Please transfer course fee to: Penampungan PNBP LPPM Bidang Penelitian - ITB Bank BNI Cabang ITB No. 236.000500018.020 Jl. Tamansari No.80 Bandung Who Should Attend The course is recommended for all geophysicists, reservoir geologists, seismic interpreters and engineers working with carbonate reservoirs. Certificates A certificate of participation is awarded to each person who satisfactorily completes the course Course Language Course will be given in English and Bahasa Indonesia (bilingual). Information & Registration For further information and registration please call/fax/e-mail to: Fitri Lestari Petroleum Geosciences Study Center (PGSC), Patra Jasa Bldg 20th Floor, Jl. Jend. Gatot Subroto Kav. 32-33, JAKARTA Phone: 021-52900036 Cell : 081310706352 Fax : 021-52900046 E-mail: [EMAIL PROTECTED] Or email to Sigit Sukmono [EMAIL PROTECTED] DAILY COURSE AGENDA 1st Day : Monday, 14 March 2005, 08.00 - 16.30 Fundamentals of Carbonate Seismology. Elastic Properties of Carbonate Rocks : Influence of mineralogy, fluid type and pore shape. Calibration of Core, Log and Seismic Data : Core measurements results, Influence of total porosity, pore-shape and mineralogy, Influence of fluid type, Influence of frequency, Rock-physics model, Core-log-seismic integration, Sonic log interpretation, Seismic interpretation, Sensitivity analysis of seismic response. Carbonate Seismic Facies Analysis : Reflection configuration (parallel-subparallel-divergent-progradation, mounded & drape), Other diagnostic features (amplitude, frequency, continuity), Analysis of carbonate environments (Platform and supratidal, Platform margins, Slope environments, Basinal deposition) 2nd Day : Tuesday 15 March 2005, 08.00 - 16.30 Application of Complex & Times Attributes for Carbonate Reservoir Analysis. Definition and classification. Application of Complex seismic attributes : Complex, real and imaginary traces, Reflection strength and instantaneous phase, General classification of instantaneous attributes, The application of reflection strength, The application of instantaneous phase, The application of instantaneous frequency & response phase. Application of Times Attributes : Dip and azimuth, Artificial Illumination, Similarity 3rd Day : Wednesday, 16 March 2005, 08.00 - 16.30 AI and AVO Seismic Inversion for Carbonate Reservoir Analysis. AI Seismic Inversion : Definition. AI, RC and reservoir characterization. Convolutional seismic trace model. Type of inversion method & characteristics : recursive, model-based, sparse-spike. Practical guide for selecting the Inversion method. Basic of AVO Analysis : Introduction, Zoeppritz equation and its approximation, The prediction of AVO response, Ostrander model, AVO classification, AVO cross-plot, AVO attributes 4th Day : Thursday, 17 March 2005, 08.00 - 16.30 AVO for Fluid & Fracture Analysis in Carbonate Reservoir. AVO for Fluid Analysis in Carbonate : Carbonate reservoir properties, Analysis, Calibration. AVO for Fracture Characterization : Introduction, The study area, Available data, Data analysis. 5th Day : Friday, 18 March 2005, 08.00 - 11.30 4-Dimensional & Multicomponent Seismic for Carbonate Reservoir Analysis. 4D Seismic for Carbonate Reservoir Monitoring : Basic of 4D seismic technique, Case Study of CO2 flood monitoring (Geology & production history, CO2 flooding, 4D data acquisition and processing, Interpretation). Multicomponents for Fracture Characterization & Reservoir Monitoring : Overview of the shear wave technique, Shear wave attributes, Four component geometry, Case Study : 3D/4C for Fracture Analysis, Case Study : Monitoring CO2 flood