EngoSoft
Civil Hydrology Engineering

Civil Hydrology Engineering

Civil and Structural
200 USD

  • Fundamental hydrological principles.
  • Analysis and design of drainage systems.
  • Hydrological calculations and estimations.
  • Stormwater and flood management.

Course Content

Unit 01: Hydrological Study0h
  • Overview of the Hydrological Study
  • Course Goals
  • Definition of Hydrology
  • Importance of the Hydrological Study (1)
  • Importance of the Hydrological Study (2)
  • Hydrological Cycle (Water Sources)
  • Precipitation Evaporation
  • Runoff
  • Watershed Definition
  • Watershed Boundary
  • Watershed Morphology
  • Rainfall Measurement
Unit 02: Hydrological Data Analysis0h
  • Meteorological Study
  • Assessment of Data Quality (1)
  • Assessment of Data Quality (2)
  • Assessment of Data Quality (3)
  • Outlier Data (1)
  • Outlier Data (2)
  • Study Area
  • Rainfall Frequency Analysis
  • IDF Curve - Conduct Frequency Analysis (1)
  • IDF Curve - Conduct Frequency Analysis (2)
  • IDF Curve - Fitting Data
Unit 03: Hydrological Data Analysis0h
  • Revision on Outlier Data
  • Revision of the Observed Value
  • Filtration Data on Hyfram (1)
  • Filtration Data on Hyfram (2)
  • Filtration Data on Hyfram (3)
  • Conclusion of the Estimated Value
  • Conclusion of the IOA Value
  • Conclusion of the Chi-Square Test Value
  • Which is Best Distribution
Unit 04: Digital Elevation Models & Data Analysis0h
  • Hyetograph (1)
  • Hyetograph (2)
  • Hyetograph (3)
  • DDF
  • Quick Explanation
  • Morphological Study
  • Digital Elevation Model (DEM) (1)
  • Digital Elevation Model (DEM) (2)
  • Digital Elevation Model (DEM) (3)
Unit 05: Morphological & Hydrological Data Study0h
  • Morphological Study
  • Output & Input
  • DEM (Digital Elevation Model)
  • Units & Coordinates
  • Catchment & Stream Boundary
  • Example (1)
  • Example (2)
  • Rain Gadgets
Unit 06: Hydrological Study & Data Analysis0h
  • Hydrologic Study
  • Data Required to Get the Hyetograph (1)
  • Data Required to Get the Hyetograph (2)
  • HEC - HMS
  • LAG Time
  • Meteorologic Model Manager
  • Hyetograph
  • WMS (Watershed Modeling System)
Unit 07: Hydrological Modeling Using HEC-HMS0h
  • Quick Look on HEC - HMS
  • Hydrologic Modeling Module
  • Meteorological Parameters
  • Control
  • Example (1)
  • Example (2)
  • Example (3)
  • About the next chapter
Unit 08: Hydraulic Study & Inundation Area Analysis0h
  • Forth Hydraulic Study (1)
  • Forth Hydraulic Study (2)
  • 2D Flood Mapping
  • Estimate Flood Hazards and Areas Affected by Flood
  • Flood Plain and Inundation Boundary (1)
  • Flood Plain and Inundation Boundary (2)
  • Floodplain Geometry Setup
Unit 09: Flood Data Analysis & Geometric Identification0h
  • Revision on 2D Flood Mapping (1)
  • Revision on 2D Flood Mapping (2)
  • Geometric Data Identification
  • Identify Boundary on RSA (1)
  • Identify Boundary on RSA (2)
  • Identify Boundary on RSA (3)
  • Identify Boundary on RSA (4)
  • Identify Boundary on RSA (5)
  • Identify Boundary on RSA (6)
  • Identify Boundary on Civil 3D
Unit 10: Bridge & Culvert Design0h
  • Revision on RSA
  • The Difference Between ( HEC-RAS 5.0.7) & (HEC-RAS 6.1.0)
  • Possible Solutions to Protect the Area
  • Types of Culverts
  • Cases of Culverts
  • The Known and the Unknown in Culvert
  • Open Channel
  • Dikes & Slope Protection
  • Example of Culvert
  • Designing a Culvert
  • Culvert Slope (1)
  • Culvert Slope (2)
Unit 11: Hydraulic Bridge Design & Site Criteria0h
  • Culvert Drawing
  • Side Slopes
  • Corridor
  • Height of the Side Slopes
  • Wing Wall Flares
  • Wing Wall on Road Profile
  • Checking the Water Elevations (1)
  • Checking the Water Elevations (2)
  • Relocating the Open Channel (1)
  • Relocating the Open Channel (2)
  • Relocating the Open Channel (3)
  • The Difference Between a Profile and a Profile View
  • Berm Profile
Unit 12: Open Channel Flow Design0h
  • Criteria for Choosing Open Channel Flow Design
  • Open Channel Design Using FlowMaster (1)
  • Open Channel Design Using FlowMaster (2)
  • Open Channel Design Using FlowMaster (3)
  • Open Channel Design Using FlowMaster (4)
  • Open Channel Design Using FlowMaster (5)
  • Open Channel Design Using FlowMaster (6)
  • Open Channel Assembly in Civil 3D (1)
  • Open Channel Assembly in Civil 3D (2)
  • alculating Open Channel Quantities in Civil 3D
Unit 13: Open Channel & Dike Design0h
  • Profile Appearance for Open Channel (1)
  • Profile Appearance for Open Channel (2)
  • Profile Appearance for Open Channel (3)
  • Creating a Dike in Global Mapper (1)
  • Creating a Dike in Global Mapper (2)
  • Dike Design in Civil 3D (1)
  • Dike Design in Civil 3D (2)
  • Lake Generation in Civil 3D (1)
  • Lake Generation in Civil 3D (2)
Unit 14: Hydrological & Rainfall Data Analysis0h
  • Rainfall Data from Available Stations (1)
  • Rainfall Data from Available Stations (2)
  • Hydrological Study (1)
  • Hydrological Study (2)
  • Hydrology Using Gage Weighting
  • Unsteady Flow Data Explained
Unit 15: Water Drainage Network Design0h
  • Rain Water Drainage
  • Stormwater Network Design (1)
  • Stormwater Network Design (2)
  • Stormwater Network Design (3)
  • Drainage Layout (1)
  • Drainage Layout (2)
  • Drainage Layout (3)
  • Catch Basin (1)
  • Catch Basin (2)
Unit 16: Drainage Network & Layout Design0h
  • Using Polylines (1)
  • Using Polylines (2)
  • SewerGEMS Design
  • Surface Creation
  • Slope Planning (1)
  • Slope Planning (2)
  • Catchment Coordination
  • Catchment & Profiles
Unit 17: Stormwater Design Using WaterGEMS0h
  • Stormwater Design on WaterGEMS (1)
  • Stormwater Design on WaterGEMS (2)
  • Stormwater Design on WaterGEMS (3)
  • Stormwater Design on WaterGEMS (4)
  • Stormwater Design on WaterGEMS (5)
  • Stormwater Design on WaterGEMS (6)
  • Stormwater Design on WaterGEMS (7)

Instructors

Eng. Muhammad Saad Al-Din
Eng. Muhammad Saad Al-Din

Eng. Mohamed Saad El-Din El-Menshawy is an Infrastructure Engineer and professional instructor with solid experience in infrastructure design, hydraulic studies, and utilities planning. He has contributed to large-scale infrastructure projects in the UAE and is actively involved in training and developing engineers through practical, industry-focused programs aligned with international standards.

Eng. Muhammad Saad Al-Din
Eng. Muhammad Saad Al-Din

Eng. Mohamed Saad El-Din El-Menshawy is an Infrastructure Engineer and professional instructor with solid experience in infrastructure design, hydraulic studies, and utilities planning. He has contributed to large-scale infrastructure projects in the UAE and is actively involved in training and developing engineers through practical, industry-focused programs aligned with international standards.

FAQ

Is this course suitable for fresh graduates?

Yes, the course is designed for all levels, including fresh graduates, focusing on fundamental concepts and practical applications.

Do I need prior experience in engineering software?

Prior or intermediate knowledge in software like MODFLOW, HEC-HMS, SWMM, and GIS is preferred, but the course covers the basic principles to facilitate learning.

Will I be able to apply what I learn to real projects?

Yes, the course includes practical examples and design exercises that enable you to transfer knowledge to real-world work environments.