Dear all, Faculty of Earth Sciences & Mineral Technology - ITB, collaborating with Lab. Of Reservoir Geophysics, Dept. of Geophysical Engineering - ITB and Petroleum Geosciences Study Center (PGSC) - Jakarta, will run a five-day course: Title: Integrated Reservoir Characterization Techniques Date : 12 - 16 July 2004 Venue: Hotel Holiday Inn - Bandung. Course agenda is enclosed below. Actually this course had been also carried-out last month, but due to the high demand, we decide to run it again this July. From a total of 16 (sixteen) seats provided for this July class, 8 (eight) seats have been booked by overseas oil companies. For more detail information and course brochure, please email me or contact Fitri Lestari at : 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] Best regards, Sigit Sukmono Lab. Of Reservoir Geophysics Dept. of Geophysical Engineering Institute of Technology Bandung E-mail : [EMAIL PROTECTED]; [EMAIL PROTECTED] ================================================================= INTEGRATED RESERVOIR CHARACTERIZATION TECHNIQUES COURSE AGENDA Date & Venue The Course will be held on 12 - 16 July 2004 at Holiday Inn Hotel - Bandung. About the Course Seismic reservoir characterization is defined as the process of describing various reservoir characteristics using seismic data. The knowledge on this subject is vital for geoscientists and engineers who organized in multidisciplinary teams (MDT) scheme. In this Course, the participants learn fundamental techniques in reservoir engineering, reservoir geology and the reservoir geophysics. Emphasis is given on the reservoir geophysics method and its relation with the reservoir engineering and reservoir geology practices (detail course agenda is given in the opposite page). The first day discusses the geology and geophysics aspects as applied in reservoir engineering practices. The second day is about the fundamentals on reservoir geology. The third to fifth days are devoted to various basic reservoir geophysics methods. The Course comprises of approximately 40% theory and 60% practical exercises, in which 90% of the problem-set packages are Indonesia cases. Course Language Course will be given in English language. Information 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] DAY-1, July 12th, 2004, 08.00-16.30 Geology & Geophysics as applied in Reservoir Engineering practices Reservoir Data Acquisition & Analysis: Reservoir Quantities, Data Identification, Selection of Sources, Type and Category, Hierarchy, Management and Analysis Concepts, Quality, Accuracy, and Consistency, Data Preparation, Data to Simplify Models. Preliminary Estimation of Reserve: Volumetric Method, Monte Carlo Simulation. Well Test Data Interpretation: Basic Analysis and Interpretation Methods, Geological and Geophysical Aspects Including Reservoir Boundaries, Reservoir Types, Interference. Performance Prediction-Conventional Techniques: Decline Curve Analysis, Material Balance Equation. Reservoir Description-Geostatistical Approach: Principles of Statistics, Conventional Estimation, Conditional Simulation. Reservoir Simulation: General Principles, Type of Models, Data Assessment and Checking, Initialization, Grid and Time Step Sizing, Reservoir Simulation Modeling, History Matching, Performance Prediction, Simulation of Special Process. Improved Oil Recovery Methods: Recovery Efficiency, Enhanced Oil Recovery Methods, Horizontal Wells. Examples of Integrated Reservoir Study. Instructor: Asep Kurnia Permadi PhD (ITB) DAY-2, July 13th, 2004, 08.00-16.30 Fundamentals of Reservoir Geology Well-log introduction : lithology identification, overview of sequence stratigraphy. Hydrocarbon entrapment system : source, migration, reservoir, structure and stratigraphy. Sedimentology evaluation : well-log pattern & correlation, depositional environment, facies modeling, diagenesis. Reservoir properties : porosity, net-pay, permeability, capillary pressure, water saturation, flow-unit, pore geometry. Reservoir characterization : reservoir heterogeneity, reservoir distribution & continuity (mapping). Reservoir management : mature field. Instructor : Dr. Dardji Noeradi (ITB) DAY-3, July 14th, 2004, 08.00-16.30 Reservoir Characterization using Amplitude & Complex Attributes Amplitude attributes and their uses : reflection amplitude, composite amplitude, amplitude ratio, RMS amplitude, skew in amplitude, kurtosis in amplitude, etc. Complex attributes and their potential uses : reflection strength, instantaneous phase, instantaneous frequency, apparent polarity, cos. of phase, etc. Exercises : Amplitude attributes for stratigraphic analysis and well delineation, thin facies mapping in a compartmentalized reservoir, DHI and development well analysis. Integrated complex attributes for stratigraphic and DHI analysis (3 cases), thin sand reservoir delineation and DHI and facies mapping. Instructor : Sonny Winardhi PhD(ITB) DAY-4, July 15th, 2004, 08.00-16.30 Reservoir Delineation & Description using Seismic Inversion Theory : Definition, AI and reservoir characterization, convolutional seismic traces models, types of seismic inversion method, integrating AI with geological and engineering data. Exercises : Convolutional process, Seismic inversion role in exploration field (2 cases : clastic & carbonates), Seismic inversion for delineating development wells (2 cases : clastic & carbonates), Reservoir quality evaluation using AI, AI for lithology identification. Instructor : Sonny Winardhi PhD(ITB) DAY-5, July 16th, 2004, 08.00-11.30 AVO Analysis for Seismic Lithology & Fluid Analysis Theory : Definition, Mathematical foundation : Zoeppritz, Aki, Shuey, Smith-Gidlow equations, Offset to angle transformation, AVO modeling, AVO classification, cross-plots and attributes. Exercises : AVO modeling & classification, Integrated AVO attributes analysis for gas/fluid detection and lithology analysis (9 cases). Instructor : Sonny Winardhi PhD(ITB)
