Project Abstract

Abstract
Groundwater contamination is a significant environmental concern in urban areas, posing risks to public health and ecosystems. This research focuses on investigating groundwater contamination using Electrical Resistivity Imaging (ERI) in an urban area. The study aims to assess the extent and sources of contamination, identify potential pathways of pollutants, and provide valuable insights for effective remediation strategies. The research methodology involves the collection of geophysical data through ERI surveys, coupled with hydrogeological investigations to characterize the subsurface conditions. A comprehensive literature review is conducted to understand the existing knowledge on groundwater contamination, ERI applications, and remediation techniques. Chapter One provides an introduction to the research, discussing the background, problem statement, objectives, limitations, scope, significance, structure of the research, and definition of terms. Chapter Two presents a detailed literature review, covering ten key topics related to groundwater contamination, ERI technology, and urban hydrogeology. Chapter Three outlines the research methodology, including data collection techniques, data processing and interpretation methods, quality control measures, and site selection criteria. The chapter also discusses the challenges and limitations encountered during the fieldwork and data analysis process. Chapter Four presents the findings of the research, including the interpretation of ERI data, identification of contaminated zones, assessment of pollutant sources, and analysis of groundwater flow patterns. The chapter also includes a discussion on the implications of the findings for groundwater management and remediation strategies. Chapter Five serves as the conclusion and summary of the project research, highlighting the key findings, implications, and recommendations for future studies. The research contributes to the understanding of groundwater contamination in urban areas and demonstrates the utility of ERI as a non-invasive tool for subsurface imaging and contaminant detection. Overall, this research provides valuable insights into the investigation of groundwater contamination using ERI in urban areas, emphasizing the importance of proactive monitoring and remediation efforts to safeguard groundwater resources and protect human health and the environment.

Project Overview

The project titled "Investigation of Groundwater Contamination using Electrical Resistivity Imaging in an Urban Area" aims to address the critical issue of groundwater pollution in urban environments. Groundwater is a vital natural resource that serves as a primary source of drinking water for many communities worldwide. However, the rapid urbanization and industrialization processes have led to increased contamination of groundwater, posing significant health risks to the population. The project focuses on utilizing Electrical Resistivity Imaging (ERI) as a non-invasive geophysical technique to assess and map the extent of groundwater contamination in an urban area. ERI is a valuable method that provides detailed subsurface information by measuring the electrical resistivity of the ground, which can indicate the presence of contaminants such as heavy metals, organic pollutants, and other harmful substances. By conducting a systematic investigation using ERI technology, this research aims to achieve several objectives. Firstly, it seeks to identify potential sources of groundwater contamination within the urban area, including industrial sites, landfills, and underground storage tanks. Secondly, the project aims to map the spatial distribution of pollutants in the subsurface, helping to understand their migration patterns and potential impact on groundwater quality. The study will also assess the effectiveness of ERI in detecting and characterizing different types of contaminants, providing valuable insights for environmental monitoring and remediation strategies. Additionally, the research will explore the limitations and challenges associated with ERI technology in urban environments, such as signal interference from infrastructure and varying subsurface conditions. The significance of this project lies in its potential to contribute to the development of sustainable solutions for managing groundwater contamination in urban areas. By integrating geophysical imaging techniques with environmental science principles, the research aims to enhance our understanding of the complex interactions between human activities and groundwater quality. Overall, this project represents a multidisciplinary approach to addressing the pressing issue of groundwater contamination in urban settings. Through the application of advanced geophysical methods like ERI, the study aims to provide valuable data and insights that can inform decision-making processes related to environmental protection, public health, and sustainable urban development.