Project Abstract

Abstract
Enhanced Oil Recovery (EOR) techniques have become increasingly important in the petroleum industry, particularly for unconventional reservoirs where conventional recovery methods are often inadequate. This research focuses on exploring and evaluating various EOR techniques tailored for unconventional reservoirs to enhance oil recovery efficiency and maximize production. The study involves an in-depth analysis of the background, problem statement, objectives, limitations, scope, significance, and structure of the research. Chapter two provides a comprehensive literature review that examines existing EOR techniques, such as thermal, chemical, and gas injection methods, specifically applied to unconventional reservoirs. The review covers recent advancements, case studies, and challenges faced in implementing these techniques in unconventional reservoir settings. Chapter three outlines the research methodology, including the selection of appropriate EOR techniques, experimental design, data collection methods, and analytical tools used for evaluating the effectiveness of the selected methods. The chapter also discusses simulation models, laboratory experiments, and field tests conducted to validate the performance of EOR techniques in unconventional reservoirs. In chapter four, the research findings are extensively discussed, presenting the results, observations, and analysis of the data obtained from simulation models, experiments, and field tests. This chapter highlights the strengths and limitations of each EOR technique in enhancing oil recovery from unconventional reservoirs, providing valuable insights for industry practitioners and researchers. Finally, chapter five presents the conclusion and summary of the research, consolidating the key findings, implications, and recommendations for future studies and practical applications. The research outcomes contribute to the advancement of EOR technologies for unconventional reservoirs, offering valuable insights to optimize oil recovery processes and increase production efficiency in the petroleum industry. Overall, this research provides a comprehensive analysis of Enhanced Oil Recovery Techniques for Unconventional Reservoirs, shedding light on the potential benefits and challenges associated with implementing advanced EOR methods in unconventional reservoir settings. The findings of this study serve as a valuable resource for petroleum engineers, researchers, and industry professionals seeking to improve oil recovery strategies and maximize production from unconventional reservoirs.

Project Overview

"Enhanced Oil Recovery Techniques for Unconventional Reservoirs" is a significant research topic within the field of petroleum engineering that focuses on improving the recovery of oil from unconventional reservoirs. Unconventional reservoirs, such as tight oil and gas formations, shale, and heavy oil sands, present unique challenges due to their low permeability and complex geological characteristics. Traditional recovery methods often result in low ultimate recovery rates from these reservoirs, making it essential to explore and develop enhanced oil recovery (EOR) techniques tailored to these unconventional settings. The research aims to address the limitations of conventional recovery methods by investigating and evaluating advanced EOR techniques specifically designed for unconventional reservoirs. These techniques may include but are not limited to hydraulic fracturing, steam injection, chemical flooding, gas injection, and microbial EOR. By enhancing the displacement and mobilization of oil within the reservoir matrix, these methods have the potential to significantly increase the overall recovery factor and extend the lifespan of unconventional oil and gas fields. The research overview will delve into the current state of knowledge regarding EOR techniques for unconventional reservoirs, highlighting key challenges and opportunities in the field. It will explore the underlying principles and mechanisms of various EOR methods, analyzing their applicability and effectiveness in different types of unconventional reservoirs. Furthermore, the overview will discuss the importance of reservoir characterization, fluid properties, rock-fluid interactions, and operational parameters in determining the success of EOR applications in unconventional settings. Through a comprehensive review of existing literature, field case studies, and experimental data, the research overview will provide insights into the latest advancements and best practices in enhanced oil recovery for unconventional reservoirs. It will also address the environmental and economic considerations associated with implementing EOR techniques, emphasizing the importance of sustainable and cost-effective solutions for the oil and gas industry. Overall, the research overview aims to contribute to the existing knowledge base on enhanced oil recovery techniques for unconventional reservoirs, offering valuable insights for petroleum engineers, researchers, and industry professionals involved in optimizing oil production from challenging reservoirs. By exploring innovative EOR strategies and technologies, this research seeks to pave the way for more efficient and environmentally conscious oil recovery practices in unconventional fields, ultimately enhancing the global energy supply and resource sustainability."