GEOE547 HYDROCARBON SEISMOLOGY
| Course Code: | 5640547 |
| METU Credit (Theoretical-Laboratory hours/week): | 3 (3.00 - 0.00) |
| ECTS Credit: | 8.0 |
| Department: | Geological Engineering |
| Language of Instruction: | English |
| Level of Study: | Masters |
| Course Coordinator: | Prof.Dr. NURETDİN KAYMAKCI |
| Offered Semester: | Fall or Spring Semesters. |
Course Objectives
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To understand the basics of the wave theory.
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To have full grasp of the acquisition and processing of seismic reflection data
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To get acquainted with sequence stratigraphic principles.
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To acquire skills to interpret seismic data to recognize the major geological structural types and sedimentary settings.
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To be familiarized with the hydrocarbon basin types.
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To be able to map and identify hydrocarbon prospect types.
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To carry out prospect evaluation and risk assessment process.
Course Content
Basics of seismic wave propagation. Seismic reflection acquisition and processing. Seismic expression of geological structures. Hydrocarbon basin and trap types. Structural and structural interpretation. Prospect evaluation exercise involving structural mapping, prospect identification and risk assessment.
Course Learning Outcomes
The course is designed for students who are involved in research in hydrocarbon geology, structural geology, sedimentology, sequence/seismic stratigraphy, and hydrocarbon exploration and development.
Upon completing the course, you will have developed a notion of
•recognizing hydrocarbon prospects on seismic data,
•assessing the probability of discovering hydrocarbons,
•financial investment and reward associated with the hydrocarbon prospects.
Program Outcomes Matrix
| Contribution | |||||
| # | Program Outcomes | No | Yes | ||
| 1 | specialize with advanced knowledge in a selection of major topics, including applied geology, engineering geology, rock mechanics, soil mechanics, hydrogeology, structural geology, paleontology, mineralogy, petrology, sedimentology, remote sensing and geographic information systems, earthquakes, mass wasting processes, their recognition and underlying fundamental principles; | ✔ | |||
| 2 | have advanced ability in management and communication skills, including problem definition, project design, decision processes, teamwork, written and oral reports, scientific publications to formulate and solve a Geological Engineering problem; | ✔ | |||
| 3 | be able to systematically acquire new scientific knowledge to design and improve socio-economical-technical systems; | ✔ | |||
| 4 | be able to conduct scientific research in the field of geological engineering; | ✔ | |||
| 5 | be able to apply critical reasoning in their professional careers; | ✔ | |||
| 6 | appreciate the academic ethics; | ✔ | |||
| 7 | well prepared to live and work in a diverse global environment. | ✔ | |||