Thesis Abstract

Abstract
Urban areas face significant challenges in managing stormwater effectively, especially in the context of increasing urbanization and climate change. This thesis focuses on the analysis and design of sustainable stormwater management systems for urban areas, aiming to address these challenges and promote more resilient and environmentally friendly solutions. The research is structured around the following key objectives to investigate the current state of stormwater management in urban areas, to identify the key issues and challenges faced in this field, to propose sustainable design solutions, and to evaluate the effectiveness of these solutions in improving stormwater management practices. The study begins with a comprehensive review of existing literature on stormwater management, covering topics such as traditional stormwater systems, sustainable urban drainage systems (SUDS), green infrastructure, and best practices for sustainable stormwater management. This literature review identifies gaps in current knowledge and provides a foundation for the subsequent research. The research methodology employed in this thesis includes a combination of quantitative and qualitative approaches, such as data collection, surveys, case studies, and modeling. These methods are used to assess the performance of existing stormwater management systems, analyze the feasibility and effectiveness of sustainable design solutions, and evaluate the potential impact of these solutions on urban areas. The findings of this research highlight the importance of integrating sustainable stormwater management practices into urban planning and design. The analysis reveals that sustainable solutions, such as green roofs, permeable pavements, rain gardens, and bio-retention basins, can significantly reduce the negative impacts of stormwater runoff, such as flooding, erosion, and pollution. These solutions not only provide environmental benefits but also contribute to enhancing the overall quality of urban spaces and improving community resilience. The discussion of findings delves into the practical implications of implementing sustainable stormwater management systems in urban areas, considering factors such as cost-effectiveness, scalability, maintenance requirements, and stakeholder engagement. The results demonstrate that while sustainable solutions may require initial investment and planning, the long-term benefits far outweigh the costs, both in terms of environmental protection and social well-being. In conclusion, this thesis underscores the importance of adopting sustainable stormwater management practices in urban areas to mitigate the adverse effects of stormwater runoff and promote resilience in the face of climate change. The research contributes valuable insights and recommendations for policymakers, planners, engineers, and other stakeholders involved in urban development, emphasizing the need for integrated and holistic approaches to stormwater management. By embracing sustainable design principles and innovative technologies, urban areas can become more livable, sustainable, and resilient in the face of future challenges.

Thesis Overview

The project titled "Analysis and design of sustainable stormwater management systems for urban areas" focuses on addressing the critical issue of stormwater management in urban environments. Urban areas face significant challenges related to stormwater runoff, including flooding, water pollution, and strain on existing infrastructure. The aim of this research is to analyze current stormwater management practices, identify their limitations, and propose sustainable solutions to improve stormwater management in urban areas. The research will begin with a comprehensive literature review to explore existing stormwater management strategies, technologies, and best practices. This review will provide insights into the current state of stormwater management in urban areas, highlighting both successful approaches and areas that require improvement. Following the literature review, the research will delve into the methodology used to analyze and design sustainable stormwater management systems. This will involve data collection, analysis, modeling, and simulation to evaluate the effectiveness of different stormwater management techniques. The research will also consider factors such as land use, climate conditions, and regulatory requirements that influence stormwater management decisions. The findings of the research will be presented and discussed in detail in the subsequent chapters. This will include an analysis of the performance of various stormwater management systems, their benefits, drawbacks, and potential for implementation in urban areas. The research will also assess the economic feasibility and environmental impact of different stormwater management approaches to ensure sustainability and long-term effectiveness. In conclusion, the research will provide recommendations for the design and implementation of sustainable stormwater management systems in urban areas. These recommendations will aim to improve the resilience of urban areas to stormwater challenges, reduce flood risks, protect water quality, and promote overall sustainability. The research will contribute valuable insights to the field of civil engineering and urban planning, providing guidance for policymakers, professionals, and communities working towards more sustainable stormwater management practices in urban environments.