Thesis Abstract

Abstract
This thesis presents a comprehensive investigation into the seismic wave attenuation characteristics of various rock types for reservoir characterization purposes. Seismic wave attenuation plays a crucial role in understanding subsurface properties, particularly in the oil and gas industry, where accurate reservoir characterization is essential for successful exploration and production activities. The study aims to provide insights into how different rock types affect the attenuation of seismic waves, which can ultimately improve reservoir characterization techniques. The research methodology employed in this study includes a combination of theoretical analysis, laboratory experiments, and field data collection. Through a detailed literature review, the thesis explores the existing knowledge on seismic wave attenuation in different rock types, highlighting the key factors and mechanisms that influence attenuation behavior. The literature review also covers various methods and technologies used for seismic wave analysis and reservoir characterization. The experimental phase of the study involves conducting laboratory tests on rock samples to measure their seismic wave attenuation properties. Different rock types commonly found in reservoir formations are analyzed to determine how their composition, porosity, and fluid content influence wave attenuation. Additionally, field data from seismic surveys are analyzed to validate the findings from the laboratory experiments and provide real-world insights into the seismic behavior of different rock types. The results of the study reveal significant variations in seismic wave attenuation among different rock types, with factors such as mineral composition, porosity, and fluid content playing a critical role in determining attenuation characteristics. These findings have important implications for reservoir characterization, as they can help improve the accuracy of seismic interpretation and modeling techniques. The discussion of the findings explores the practical implications of the research results for the oil and gas industry, highlighting how a better understanding of seismic wave attenuation can lead to more effective reservoir characterization and improved exploration strategies. The study also discusses the limitations of the research and suggests areas for further investigation to enhance the understanding of seismic wave attenuation in different rock types. In conclusion, this thesis provides valuable insights into the seismic wave attenuation characteristics of various rock types and their implications for reservoir characterization. By elucidating the complex relationship between rock properties and seismic wave behavior, this study contributes to the advancement of geophysical techniques for subsurface characterization and exploration. The findings of this research have the potential to enhance the efficiency and success rate of oil and gas exploration projects by improving the accuracy of reservoir modeling and prediction.

Thesis Overview