Thesis Abstract

Abstract
The rapid urbanization and climate change challenges have intensified the need for sustainable urban drainage systems that can effectively manage stormwater runoff and mitigate flooding in urban areas. This thesis presents an in-depth analysis and design of a sustainable urban drainage system that integrates green infrastructure practices with traditional engineering solutions. The research is motivated by the growing importance of sustainable stormwater management in enhancing urban resilience and environmental sustainability. The introduction section provides an overview of the research problem and highlights the significance of developing sustainable urban drainage systems. The background of the study examines the current state of urban drainage systems, emphasizing the limitations of conventional approaches in addressing contemporary urban water challenges. The problem statement identifies key issues such as increased runoff volumes, water pollution, and inadequate infrastructure capacity that necessitate the development of innovative solutions. The objectives of the study include assessing the feasibility of integrating green infrastructure components, such as rain gardens, permeable pavements, and green roofs, into urban drainage systems to enhance stormwater retention and infiltration. The limitations of the study are acknowledged, including constraints related to data availability, modeling complexity, and financial considerations. The scope of the study focuses on a specific urban area to demonstrate the applicability of sustainable drainage principles in real-world settings. The significance of the study lies in its potential to inform urban planners, policymakers, and engineers about the benefits of sustainable drainage practices in improving urban water management. The structure of the thesis outlines the organization of the research work, highlighting the main chapters and their respective contents. The definition of terms clarifies key concepts and terminology used throughout the thesis to ensure a common understanding of the research context. The literature review chapter synthesizes existing knowledge on sustainable urban drainage systems, covering topics such as design principles, performance assessment methods, and case studies of successful implementation. The research methodology chapter details the approach adopted to analyze the urban drainage system, including data collection, modeling techniques, and evaluation criteria. The discussion of findings chapter presents the results of the analysis and design process, showcasing the effectiveness of green infrastructure interventions in reducing stormwater runoff and improving water quality. Key findings include the potential cost savings, environmental benefits, and social co-benefits associated with sustainable drainage solutions. In conclusion, this thesis demonstrates the feasibility and effectiveness of integrating green infrastructure practices into urban drainage systems to create more sustainable and resilient cities. The summary highlights the key insights, contributions, and implications of the research findings, emphasizing the importance of sustainable water management in shaping the future of urban development. Keywords sustainable urban drainage system, green infrastructure, stormwater management, urban resilience, water sustainability, climate change adaptation.

Thesis Overview

The project titled "Analysis and Design of a Sustainable Urban Drainage System" aims to address the critical need for sustainable urban infrastructure development in the context of drainage systems. Urban areas worldwide face challenges related to stormwater management, flooding, water pollution, and overall environmental degradation due to inadequate or outdated drainage infrastructure. This research project seeks to contribute to the field of civil engineering by proposing innovative solutions for designing urban drainage systems that are not only effective in managing stormwater but also environmentally sustainable. The research will begin with a comprehensive review of existing literature on urban drainage systems, sustainable design principles, and relevant case studies. This literature review will provide a strong foundation for understanding the current state of urban drainage systems, the challenges they face, and the best practices in sustainable design. By examining previous research and real-world projects, the study aims to identify gaps in knowledge and opportunities for improvement in urban drainage system design. Following the literature review, the research methodology will be outlined, detailing the approach and tools that will be used to analyze and design a sustainable urban drainage system. This will include data collection methods, modeling techniques, and simulation tools that will be employed to assess the performance of different design options. The methodology will also address considerations such as cost-effectiveness, environmental impact, and resilience to climate change. The core of the research will involve the analysis and design of a sustainable urban drainage system based on the principles of sustainability, resilience, and efficiency. Various design scenarios will be evaluated using hydraulic modeling and simulation to assess their effectiveness in managing stormwater runoff, reducing flood risk, and minimizing environmental impact. The aim is to propose a design solution that integrates green infrastructure, such as rain gardens, permeable pavements, and vegetated swales, with traditional drainage systems to create a holistic and sustainable approach to urban stormwater management. The findings of the research will be presented in detail, highlighting the performance of different design options in terms of stormwater retention, peak flow reduction, pollutant removal, and cost-effectiveness. The discussion will delve into the implications of the findings for urban planning, infrastructure development, and environmental management, emphasizing the importance of sustainable design practices in addressing the challenges of urbanization and climate change. In conclusion, the research project on the "Analysis and Design of a Sustainable Urban Drainage System" aims to contribute to the body of knowledge on sustainable urban infrastructure development by proposing innovative design solutions for urban drainage systems. By integrating green infrastructure with traditional drainage systems, the study seeks to promote sustainability, resilience, and environmental stewardship in urban development practices. The research outcomes are expected to inform policy-making, urban planning, and engineering design processes, ultimately contributing to the creation of more livable, resilient, and sustainable cities.