Rekan-rekan,
Bersama ini saya sampaikan agenda detil Program Kursus Seismic Reservoar 2003 yang diadakan oleh Unit Jasa Kepakaran (UJK) Fakultas Ilmu Kebumian dan Teknologi Mineral bekerja sama dengan Lab. Geofisika Reservoar-Dept. Teknik Geofisika, Institut Teknologi Bandung : Judul Kursus : Seismic Reservoir Characterization, Hydrocarbon Detection & Production Monitoring Tanggal : 21-25 April 2003 Tempat : Sheraton Hotel - Bandung Agenda detil kursus terlampir dibawah. Pada hari terakhir (25 April), peserta bisa memilih program regular atau mengikuti (tanpa biaya tambahan) program 2003 SEG/EAGE Distinguished Short Course dengan topik "Geostatistics for Seismic Data Integration in Earth Models" dengan pengajar Dr. Olivier Dubrule. Untuk informasi lebih lanjut dapat menghubungi saya di alamat dibawah ini. Semoga bermanfaat. Terima kasih & Salam, Sigit Sukmono Lab.of Reservoir Geophysics Dept. of Geophysical Engineering Institute of Technology Bandung Basic Science Center, 2nd Floor Jl. Ganesha 10 Bandung 40132 Ph/Fax.(+62) (0)22-2509167 Mobile (+62) (0)811220756 Email :[EMAIL PROTECTED]; [EMAIL PROTECTED] ============================ COURSE AGENDA DAY-1 Reservoir delineation and description using Seismic Inversion (AI) Theory : definition, convolutional model & seismic wavelet processing, recursive inversion, building geological model, model-based and sparse-spike inversion, using AI to derive reservoir properties (porosity, lithology, sand/shale ratio, etc), integrating AI with geological and engineering data Problem-set 1.1. Performing simple seismic inversion using handy-calculator Problem-set 1.2. Clastics reservoir delineation and description using seismic inversion Problem-set 1.3. Carbonate reservoir delineation and description using seismic inversion Problem-set 1.4. Thin reservoir delineation using seismic inversion Problem-set 1.5. Well delineation using integrated analysis of AI, geological and engineering data DAY-2 Reservoir delineation and gas/fluid detection using Amplitude Attributes Theory on post stack amplitude-based attributes and their uses : reflection amplitude, composite amplitude, amplitude ratio, RMS amplitude, skew in amplitude, kurtosis in amplitude, etc. Problem-set 2.1. Amplitude attributes for stratigraphic analysis and development well delineation Problem-set 2.2. Amplitude attributes for thin facies mapping in a compartmentalized reservoir Problem-set 2.3. Amplitude attributes for delineating the DHI and development well - siliciclastic case Problem-set 2.4. Amplitude attributes for delineating the DHI and development well - carbonate case DAY-3 Reservoir delineation and gas/fluid detection using Complex Attributes Theory on complex attributes and their potential uses : reflection strength, instantaneous phase, instantaneous frequency, apparent polarity, response phase, response frequency, cos. of phase, etc. Problem-set 3.1 - 3.3. Integrated complex attributes for stratigraphic and DHI analysis (3 cases) Problem-set 3.4. Integrated complex attributes for thin sand reservoir delineation Problem-set 3.5. Integrated complex attributes for DHI and facies mapping DAY-4 Gas/fluid detection and seismic lithologies analysis using AVO Attributes Theory : definition of AVO/AVA analysis, rock physics basis, Zoeppritz equation and approximation, AVO modeling, AVO classification, non-bright spot AVO anomaly, AVO gradient and intercept, AVO cross-plots, AVO attributes, factors affecting AVO analysis Problem-set 4.1. Estimating AVO anomaly type using well data Problem-set 4.2. Delineating gas sand class I and III using CDP gathers Problem-set 4.3. Delineating gas-sands using P-G crossplot and PxG display Problem-set 4.4. Delineating gas-sands class III using AVO, AI and complex attributes Problem-set 4.5. Development well delineation using isopach and fluid-factor map Problem-set 4.6. Gas/fluid detection using integrated analysis of complex and AVO attributes (2 cases) DAY-5 Option 1 : Regular Program Time-Lapse (4-D) Seismic for Reservoir Management and Recovery Monitoring Theory on the uses of time-lapse seismic monitoring, the time-change of reservoir properties and related seismic observable, rock physics basis in 4-D seismic analysis, repeatibility requirements of seismic data and processing for time-lapse seismic Problem-set 5.1. Amplitude attributes for mapping by-passed oils and monitoring reservoir production Problem-set 5.2. Time-attributes for monitoring steam-front movements Problem-set 5.3. Interpretation of the seismic changes as a function of pressure and temperature Problem-set 5.4. Time-attributes for mapping injected-steam thickness Problem-set 5.5. 4-D seismic for monitoring in-situ combustion propagation Problem-set 5.6. 4-D seismic monitoring for enhancing thermal recovery Option 2 : Special Program Joint the 2003 SEG/EAEG Distinguish Instructor Short Course Lecture "Geostatistics for Seismic Data Integration in Earth Models" by Dr. Olivier Dubrule, Sheraton Hotel Bandung, 25 April 2003
