Project Abstract

This project aims to develop an integrated geophysical methodology for comprehensive hydrocarbon exploration in sedimentary basins. Sedimentary basins are known to host significant hydrocarbon resources, making them a prime target for exploration activities worldwide. However, the identification and assessment of hydrocarbon reservoirs in these complex geological settings can be challenging, often requiring the integration of multiple geophysical techniques to obtain a comprehensive understanding of the subsurface. The primary objective of this project is to establish an innovative, multidisciplinary approach that combines various geophysical methods, including seismic, gravity, magnetic, and electromagnetic surveys, to enhance the accuracy and reliability of hydrocarbon exploration efforts. By integrating these complementary geophysical datasets, the project aims to provide a more comprehensive and integrated understanding of the subsurface geology, lithology, and structural features that are crucial for the identification of potential hydrocarbon reservoirs. One of the key aspects of this project is the development of advanced data processing and interpretation algorithms that can effectively integrate the different geophysical datasets. This will involve the use of sophisticated computational techniques, such as joint inversion, to generate high-resolution, three-dimensional models of the subsurface that can accurately delineate potential hydrocarbon-bearing zones. The integration of these models with other geological and geochemical data will further enhance the understanding of the subsurface environment and improve the overall success rate of hydrocarbon exploration. Additionally, the project will explore the application of emerging geophysical technologies, such as broadband seismic acquisition, full-waveform inversion, and the use of unmanned aerial vehicles (UAVs) for high-resolution gravity and magnetic surveys. These innovative approaches have the potential to provide more detailed and accurate information about the subsurface, which can lead to the identification of previously overlooked hydrocarbon prospects. The expected outcomes of this project include the development of a comprehensive, integrated geophysical methodology that can be widely adopted by the oil and gas industry for hydrocarbon exploration in sedimentary basins. The project will also contribute to the advancement of geophysical data processing and interpretation techniques, as well as the optimization of field acquisition and survey design strategies. Furthermore, the successful implementation of this project will have significant economic and environmental implications. Improved hydrocarbon exploration capabilities can lead to the discovery of new reserves, potentially reducing the reliance on imports and enhancing energy security. Additionally, the integration of various geophysical methods can help minimize the environmental impact of exploration activities by optimizing the targeting of prospective areas and reducing the need for extensive drilling campaigns. In conclusion, this project represents a significant step forward in the field of hydrocarbon exploration, leveraging the power of integrated geophysical approaches to unlock the full potential of sedimentary basins. The successful completion of this project will contribute to the advancement of the oil and gas industry's exploration strategies, ultimately benefiting both the economy and the environment.

Project Overview