Thesis Abstract

Abstract
Enhanced oil recovery (EOR) techniques play a crucial role in maximizing oil production from offshore reservoirs. This thesis focuses on the optimization of EOR techniques in offshore reservoirs to enhance oil recovery efficiency and increase overall production. The study begins with a comprehensive introduction outlining the background of the research, the problem statement, objectives, limitations, scope, significance, and the structure of the thesis. Additionally, key terminologies relevant to the study are defined to provide clarity and understanding of the research context. Chapter two presents a detailed literature review that examines existing studies, methodologies, and technologies related to EOR techniques in offshore reservoirs. This chapter explores various EOR methods, such as water flooding, gas injection, chemical flooding, and thermal methods, highlighting their effectiveness, challenges, and applications in offshore environments. Chapter three delves into the research methodology employed in this study. The methodology section includes a discussion on the research design, data collection methods, sampling techniques, data analysis procedures, and any experimental work conducted to optimize EOR techniques in offshore reservoirs. The chapter also addresses ethical considerations and limitations encountered during the research process. Chapter four presents the findings and results of the study, showcasing the optimization strategies and outcomes of implementing different EOR techniques in offshore reservoirs. The discussion encompasses the analysis of data, comparisons of various EOR methods, and the evaluation of their impacts on oil recovery efficiency in offshore settings. The chapter also addresses any challenges faced during the optimization process and provides recommendations for future research in the field. In the final chapter, chapter five, the thesis concludes with a summary of the key findings, implications of the research, and conclusions drawn from the study. The chapter also highlights the contributions of the research to the field of petroleum engineering and suggests potential avenues for further exploration. Overall, this thesis contributes valuable insights into the optimization of EOR techniques in offshore reservoirs, providing a foundation for enhancing oil recovery efficiency and sustainability in the offshore oil and gas industry. Keywords Enhanced oil recovery, Offshore reservoirs, Optimization, Petroleum engineering, Oil production, EOR techniques, Research methodology, Literature review.

Thesis Overview

The project titled "Optimization of Enhanced Oil Recovery Techniques in Offshore Reservoirs" aims to investigate and improve the methods used to extract oil from offshore reservoirs. Offshore oil reservoirs present unique challenges due to their location and characteristics, making it essential to optimize the recovery techniques to maximize production efficiency and minimize environmental impact. The research will focus on exploring various enhanced oil recovery (EOR) techniques that can be applied specifically to offshore reservoirs. This includes methods such as water flooding, gas injection, chemical flooding, thermal methods, and microbial EOR. By evaluating the effectiveness of these techniques in offshore settings, the study aims to identify the most suitable approaches for enhancing oil recovery rates. Key aspects to be considered in the research include understanding the geology and fluid properties of offshore reservoirs, assessing the feasibility and practicality of implementing different EOR techniques, and evaluating the economic viability of such methods. The project will also take into account environmental factors and sustainability concerns to ensure that the proposed optimization strategies align with industry best practices and regulatory standards. Through a comprehensive analysis of existing literature, field case studies, and simulation models, the research will provide valuable insights into the challenges and opportunities associated with optimizing EOR techniques in offshore reservoirs. The findings of this study are expected to contribute to the development of innovative solutions that can enhance oil recovery efficiency, increase production rates, and extend the lifespan of offshore oil fields. Overall, the research overview highlights the importance of optimizing enhanced oil recovery techniques in offshore reservoirs to meet the growing global demand for energy resources, improve operational performance, and achieve sustainable development goals in the oil and gas industry.