By the end of this course the participants should be:

  • Gain a deeper understanding of water resources, specifically the global water cycle.
  • Enhance the participants understanding to the water crisis at national and global levels.
  • Develop the required skills to plan, implement, and manage water projects.
  • Increase participants’ awareness of the importance of achieving the balance of water management.
  • Enhance the participants’ knowledge about climate change and its impact on water resources and the following adaptation measures.
  • Acquire knowledge of water reuse, water conservation, and water demand management.

Integrated Water Resources Management

  • Environmental Sustainability -Managing the System logical Units – Water as Human   Right
  • Concept of Economic – Value of Water Measurement for Implementation – Options for Implementation
  • Water Needs versus Water Demand – Introduction to Engineering Water Shed Hydrology
  • Frequency Analysis- Precipitations Losses – Guide for the use of the Decision Support System (DSS)
  • Highway Hydrology -Peak Discharge Estimation Methods – Geospatial Hydrologic
  • Modeling Extension – Tropical Rain Fall Measuring Mission – Digital Evaluation Model Based Water Shed and Stream Network Delineation – Flood Routing
  • Urban Hydrology for Small Water Sheds – GIS Tools for Support of HEC-RAS using Arc GIS

Flash Flood Management from theory to Practice

 

  • Integrated Water Resources Management – Flash Floods management
  • GIS Application in Hydrology – Precipitation and Design Storm
  • Hydrologic Analysis – Estimation of the Sediment Load – Hydrologic Modeling
  • Rainfall Forecasting and Remote Sensing – Hydrologic Modeling – Field Trip
  • Flood Protection Structures – Water Harvesting – Hydrologic Modeling
  • Geotechnical aspects of Flash Flood Management – Hydrologic Modeling

Water Structures and Environmental Impact Assessment

 

  • Review of Open Channel Hydraulics – Design of Canals and Drains
  • Dams (Design, Modeling, and Construction) – Barrages (Design, Modeling, and Construction)
  • Regulators (Design, modeling, and Construction)
  • Environmental Impact Assessment of Water structures
  • Locks (Design, Modeling, and Construction) – Offtakes (Design, Modeling, and Construction)
  • Culverts (Design, Modeling, and Construction) – Syphons (Design, Modeling, and Construction)
  • Short Span Bridges – Escapes (Intermediate and Tail Escapes) – Weirs (Design, Modeling, and Construction)
  • Pipe Systems Hydraulics – Pipelines and Pipe Networks – Pumping Stations

Conventional and Nonconventional Water Resources

 

  • Conventional & Non-Conventional Water Resources -An Overview: Watershed
  • Characteristics – Application for Catchment Delineation Workflow
  • Flood Control and Flood Management – Tools for Flood Modeling and Flood Mapping -Flood
  • Frequency Analysis – Frequency Software – Application on Flood Control
  • An Overview of Rainfall Harvesting – Agricultural Approach for Rainwater Harvesting –
  • Rainfall Analysis – Design of Rainfall Harvesting Facility – Dimensioning of Rainfall Harvesting Facility
  • Fundamentals of Groundwater Flow – Groundwater Flow Equations and Flow to Wells – Groundwater Monitoring and Well Drilling – Wells Design
  • Desalination technology & Cloud seeding
  • Reuse of Waste water – Reuse of Drainage Water

Environmental Impact of Water Resources Projects Application

Water Transboundary Issues

 

  • Water Transboundary Definition
  • International Agreements and Laws
  • Transboundary Aquifers – Monitoring and Assessment of Transboundary Waters
  • Water Conflicts between Countries- -Institutions and Tools for Cooperation – Instruments and Areas for Action-
  • Riparian Rights International Law – Water Sharing Law Definition
  • Experiences from around the world

Hydrological Modeling of Drainage Basins

 

  • Drainge Basins and Watersheds (Hydrologic cycle)
  • Drainge Basins
  • Drainge Basins Characteristics
  • Analysis and calculation of drainage basins Characteristics
  • Applications

Monitoring and Modeling of Water Quality

 

  • Introduction to WQ Monitoring & Physical meaning of the water quality data
  • Methods of quality assurance and quality control – Regulations & standards for various water use purpose
  • Design of water quality monitoring programs
  • WQ data interpretation, reporting and prediction
  • Statics in water quality monitoring

Water Crisis Management

 

  • Concepts of Crisis Management – Classification of Crisis – Crisis Management Approaches and Disasters Management Approaches
  • Types of Water Crisis – Management of Water Crisis – Monitoring of the

Crisis Stages

  • The Importance of Information in Crisis Management – Forecasting of Water Crisis
  • Early Warning Systems in Water Field – Proactive Behavior Against Expected Water Crisis -Decision-Making Theories
  • The Importance of Planning in Crisis Management – Building Scenarios – EIA of Water Crisis
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