Project Abstract

Abstract
Enhanced Oil Recovery (EOR) techniques play a crucial role in maximizing hydrocarbon production from unconventional reservoirs. This research focuses on exploring and evaluating various EOR methods tailored specifically for unconventional reservoirs to enhance oil recovery efficiency. The study examines the background, problem statement, objectives, limitations, scope, significance, structure, and key definitions related to the research in chapter one. Chapter two delves into an extensive literature review, analyzing ten key studies and advancements in EOR techniques for unconventional reservoirs. Chapter three outlines the research methodology, including the selection of study sites, data collection methods, experimental procedures, and analytical techniques. The chapter also discusses the importance of simulation studies and laboratory experiments in evaluating the effectiveness of different EOR methods. Furthermore, it explores the challenges and considerations in implementing EOR techniques in unconventional reservoirs through eight detailed chapter contents. In chapter four, the research findings from the study are comprehensively discussed, focusing on the outcomes of the experimental investigations, simulation results, and data analysis. The chapter provides insights into the performance of various EOR techniques, their applicability in unconventional reservoirs, and the impact on oil recovery rates. Additionally, it addresses the economic aspects and environmental implications of implementing EOR methods in these reservoirs. Finally, chapter five presents the conclusion and summary of the project research. The chapter consolidates the key findings, highlights the significance of the research outcomes, and offers recommendations for future studies and practical applications. The research findings underscore the importance of utilizing advanced EOR techniques to optimize oil recovery from unconventional reservoirs and contribute to sustainable energy development. In conclusion, this research contributes to the existing body of knowledge on EOR techniques in unconventional reservoirs and provides valuable insights for the petroleum industry, researchers, and policymakers. By enhancing understanding and implementation of EOR methods, this study aims to promote efficient resource utilization, reduce environmental impact, and support the long-term sustainability of oil production from unconventional reservoirs.

Project Overview

Enhanced Oil Recovery (EOR) Techniques in Unconventional Reservoirs have gained significant attention in the petroleum engineering field due to the increasing demand for hydrocarbons and the challenges posed by conventional oil recovery methods. Unconventional reservoirs, such as shale formations and tight sandstone, have unique characteristics that make the extraction of oil and gas more complex compared to conventional reservoirs. This research project aims to explore and evaluate the various EOR techniques that can be applied to enhance oil recovery in unconventional reservoirs. The study will delve into the background of unconventional reservoirs, highlighting their geological and petrophysical properties that influence oil recovery processes. By understanding these properties, researchers can identify the challenges and opportunities associated with extracting oil from such reservoirs. The problem statement revolves around the inefficiency of traditional oil recovery methods in unconventional reservoirs, leading to low ultimate oil recovery factors. This project seeks to address this issue by investigating and analyzing advanced EOR techniques that have the potential to improve oil recovery rates in unconventional reservoirs. The objectives of the study include: 1. To review existing literature on EOR techniques in unconventional reservoirs. 2. To analyze the effectiveness of various EOR methods in enhancing oil recovery. 3. To identify the most suitable EOR techniques for specific types of unconventional reservoirs. 4. To evaluate the economic feasibility and environmental impact of implementing EOR techniques in unconventional reservoirs. The research will also discuss the limitations of applying EOR techniques in unconventional reservoirs, considering factors such as reservoir heterogeneity, fluid properties, and operational challenges. The scope of the study will focus on case studies and simulations to demonstrate the application and benefits of different EOR methods in unconventional reservoirs. The significance of this research lies in its potential to contribute valuable insights to the petroleum industry, leading to improved oil recovery strategies and increased production from unconventional reservoirs. By optimizing EOR techniques, operators can maximize resource utilization and enhance the economic viability of oil extraction from challenging reservoirs. The structure of the research will encompass a comprehensive literature review in Chapter Two, detailing various EOR methods and their applications in unconventional reservoirs. Chapter Three will outline the research methodology, including data collection, analysis techniques, and simulation models used to evaluate EOR techniques. Chapter Four will present a detailed discussion of the research findings, highlighting the effectiveness and challenges of implementing EOR in unconventional reservoirs. Finally, Chapter Five will provide a conclusion and summary of the project, emphasizing key insights, recommendations, and areas for future research. In conclusion, the exploration of Enhanced Oil Recovery Techniques in Unconventional Reservoirs represents a crucial area of study in the petroleum engineering field. By enhancing our understanding of EOR methods and their application in unconventional reservoirs, this research has the potential to revolutionize oil recovery practices and contribute to sustainable energy production in the future.