Specialisation in Water Engineering & Management

Program Overview

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The Water Engineering & Management specialization combines technical expertise with management principles to equip students with the knowledge and skills to develop innovative solutions for water management challenges. The program offers two profiles: Integrated Water Management and River & Coastal Engineering. Graduates are prepared for careers in water management, research, and policy-making, addressing issues such as water scarcity, flooding, and environmental sustainability.

Program Outline

Degree Overview:

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Overview:

The Water Engineering & Management (WEM) specialization aims to equip students with the knowledge and skills to develop innovative solutions for water management. It combines technical expertise with management principles to address the challenges of water scarcity, flooding, and environmental sustainability.

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Objectives:

• Provide a comprehensive understanding of the natural and socio-economic processes that influence water systems.
• Develop analytical and problem-solving skills for designing and managing water infrastructure and systems.
• Foster a multidisciplinary approach that integrates engineering, ecology, economics, and social sciences.
• Prepare graduates for careers in water management, research, and policy-making.

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Program Description:

The WEM specialization offers two profiles:

• Integrated Water Management: Focuses on the holistic management of water resources, considering environmental, social, and economic factors.
• River & Coastal Engineering: Emphasizes the engineering aspects of water management, including the design and construction of water infrastructure.

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Outline:

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Content:

• Hydrology and Water Resources
• Fluid Dynamics and Hydraulics
• Water Quality and Pollution Control
• Coastal and River Engineering
• Water Policy and Management
• Environmental Impact Assessment
• Data Science and Modeling

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Structure:

• 120 ECTS credits
• 18-month full-time program
• Combination of lectures, tutorials, practical exercises, and research projects

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Course Schedule:

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Semester 1:

• Introduction to Water Engineering & Management
• Hydrology and Water Resources
• Fluid Dynamics and Hydraulics
• Water Quality and Pollution Control

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Semester 2:

• Coastal and River Engineering
• Water Policy and Management
• Environmental Impact Assessment
• Elective Courses

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Semester 3:

• Research Project
• Elective Courses
• Internship (optional)

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Individual Modules:

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Introduction to Water Engineering & Management:

• Overview of water management challenges and solutions
• Introduction to water systems, processes, and technologies

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Hydrology and Water Resources:

• Hydrological cycle, precipitation, runoff, and groundwater
• Water resources assessment and management
• Water scarcity and drought analysis

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Fluid Dynamics and Hydraulics:

• Fluid properties and flow principles
• Open channel flow, pipe flow, and hydraulic structures
• Computational fluid dynamics

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Water Quality and Pollution Control:

• Water quality parameters and standards
• Water pollution sources and treatment technologies
• Environmental monitoring and assessment

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Coastal and River Engineering:

• Coastal processes, waves, and sediment transport
• River morphology, flood control, and channel design
• Offshore structures and coastal protection

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Water Policy and Management:

• Water governance, institutions, and regulations
• Water pricing, allocation, and conservation
• Water-related conflicts and negotiations

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Environmental Impact Assessment:

• Environmental impact assessment principles and methods
• Water-related environmental impacts and mitigation measures
• Sustainability and environmental management

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Assessment:

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Assessment Methods:

• Exams (written and oral)
• Assignments (reports, presentations, case studies)
• Research project
• Internship report (if applicable)

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Assessment Criteria:

• Knowledge and understanding of water engineering and management concepts
• Analytical and problem-solving skills
• Communication and presentation skills
• Research and project management abilities
• Professionalism and ethical conduct

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Teaching:

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Teaching Methods:

• Lectures
• Tutorials
• Practical exercises
• Field trips
• Guest lectures

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Faculty:

• Experts in water engineering, hydrology, hydraulics, water quality, and water management
• Researchers and practitioners from academia and industry

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Unique Approaches:

• Multidisciplinary curriculum that integrates engineering, ecology, economics, and social sciences
• Hands-on learning through practical exercises, field trips, and research projects
• Collaboration with external partners, including water utilities, engineering firms, and research institutions

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Careers:

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Potential Career Paths:

• Water resource engineer
• Water quality specialist
• Coastal engineer
• River engineer
• Water policy analyst
• Environmental consultant
• Researcher in water engineering and management

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Opportunities:

• Employment in water utilities, engineering firms, government agencies, and research institutions
• Opportunities for international collaboration and projects
• Career advancement through professional development and leadership roles

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Outcomes:

• Graduates are equipped with the knowledge, skills, and values to address complex water management challenges.
• They are highly sought after by employers in the water sector and related industries.
• They contribute to sustainable water management practices and policies, ensuring the availability and quality of water for future generations.