Project Abstract

Abstract
Enhanced Oil Recovery (EOR) techniques have become increasingly vital in the petroleum industry to maximize hydrocarbon production from unconventional reservoirs. This research project focuses on investigating and analyzing various EOR methods tailored specifically for unconventional reservoirs. The study delves into the background of EOR techniques, the challenges associated with unconventional reservoirs, and the significance of employing advanced recovery methods. The research methodology involves an extensive literature review to identify the most effective EOR techniques for unconventional reservoirs. Key parameters such as reservoir characteristics, fluid properties, and operational considerations are considered in selecting suitable EOR methods. The study also includes a detailed analysis of case studies and field applications to provide practical insights into the implementation of EOR techniques in unconventional reservoirs. Chapter One provides an introduction to the research topic, highlighting the background, problem statement, objectives, limitations, scope, significance, and structure of the study. It also includes the definition of key terms relevant to the research. Chapter Two consists of a comprehensive literature review covering ten key aspects of EOR techniques for unconventional reservoirs, focusing on previous studies, methodologies, and findings. Chapter Three outlines the research methodology, including the selection criteria for EOR methods, data collection techniques, simulation models, and analysis procedures. This chapter also discusses experimental setups and field testing protocols to validate the effectiveness of EOR techniques in unconventional reservoirs. Chapter Four presents a detailed discussion of the research findings, including the performance evaluation of different EOR methods in unconventional reservoirs. It analyzes the impact of reservoir heterogeneity, fluid properties, and operational parameters on the efficiency of EOR techniques. Case studies and field data are used to support the findings and provide practical insights for industry applications. Finally, Chapter Five concludes the research project by summarizing the key findings, implications, and recommendations for future studies. The research highlights the importance of implementing advanced EOR techniques to enhance oil recovery from unconventional reservoirs and improve overall production efficiency in the petroleum industry. In conclusion, this research project aims to contribute valuable insights into the application of EOR techniques for unconventional reservoirs, addressing the challenges and opportunities in maximizing hydrocarbon recovery. The findings of this study provide a foundation for further research and development in optimizing production strategies for unconventional reservoirs in the petroleum industry.

Project Overview

The project topic, "Enhanced Oil Recovery Techniques for Unconventional Reservoirs," focuses on exploring innovative methods to improve the recovery of oil from unconventional reservoirs. Unconventional reservoirs, such as tight oil and gas formations, shale deposits, and heavy oil sands, pose unique challenges due to their complex geology and low permeability. Traditional oil recovery methods are often inefficient in these reservoirs, leaving significant amounts of oil trapped underground. This research aims to investigate and evaluate advanced techniques and technologies that can enhance the recovery of oil from unconventional reservoirs. By studying various enhanced oil recovery (EOR) methods, such as hydraulic fracturing, steam injection, chemical flooding, and microbial enhanced oil recovery, the project seeks to identify the most effective strategies for maximizing oil production from these challenging reservoirs. The research overview will delve into the current state of EOR technologies for unconventional reservoirs, highlighting their advantages, limitations, and potential for application in real-world scenarios. By analyzing case studies and industry practices, the project will provide valuable insights into the feasibility and effectiveness of different EOR techniques in enhancing oil recovery from unconventional reservoirs. Furthermore, the research overview will discuss the environmental and economic implications of implementing EOR techniques in unconventional reservoirs. It will explore the sustainability aspects of these methods, considering factors such as water usage, greenhouse gas emissions, and overall energy efficiency. Additionally, the project will assess the cost-effectiveness of EOR technologies and their potential impact on the profitability of oil production operations in unconventional reservoirs. Overall, this research overview sets the stage for a comprehensive investigation into enhanced oil recovery techniques for unconventional reservoirs, emphasizing the importance of innovation and technological advancements in unlocking the vast hydrocarbon resources trapped in these challenging geological formations. By addressing key research questions and objectives, this project aims to contribute valuable insights to the field of petroleum engineering and drive advancements in EOR practices for unconventional oil and gas reservoirs.