Objective To understand the basics of municipal and urban storm water system design. To develop skills and capabilities of the participants to analyze new and existing stormwater drainage systems as well as to better develop the erosion control plans for construction sites. To learn the basics of the water resources engineering in terms of hydrologic principles including hydrologic cycle, precipitation data, stream flow Measurements and application of stream flow data, runoff, evaporation, transpiration, and groundwater. To learn applications to engineering problems related to groundwater yield, stream flow analysis and watershed Management. To introduce the participants to various, and conflicting, current runoff and drainage design Methods used in water resources engineering practice. To select the most appropriate design tool for different conditions. The use, design, and evaluation of Construction erosion devices, including sediment basins, will be stressed. Emphasis will also be placed on meeting Specific requirements of erosion control regulations.

• Standard engineering calculator with scientific functions
• Laptop for software training (if available)

Program Outline (1.8 CEUs / 18 PDHs)

Review of fluid mechanics basic principles for water resources engineering Basic definitions Newton’s equation of viscosity Flow regimes Hydrology and Hydraulics Pressure Flow Gravity flow in pipes Non-uniform open channel flow Computer applications in hydraulics Hydrology The hydrologic cycle Rainfall and surface water Groundwater Minimum and maximum velocities Self-cleansing velocities Minimum pipe size Capacity design Infiltration Sewer pipes Separation of water main and sewers Optimum bedding conditions Cover Ductile iron pipe location Crossings Manholes Stormwater Drainage System Estimating Storm Runoff Rational method Runoff coefficients Rain fall intensity Time of concentration SCS Method Effects of land developments Layout and design Best management practices Storm Water Quality Control Sedimentation basins Swales Bio retention systems CTWS Wet ponds Case study Floodplains

Control of Combined Sewer Overflow (CSO)   Catch basins, inserts, and Hydrodynamic devices for the Control of gross solids and Conventional stormwater pollutants   Storm Drains - Culvert Design Culvert hydraulics Outlet control hydraulics Entrance minor losses Gradually varied flow analysis Inlet control hydraulics Culvert Master software demo Storm Drains - Channel Design Distinction between ditch and channel design Hydraulic considerations Flow resistance design Stream platforms and the fluvial system Stable channel design Tactile forces and permissible velocities   Construction Site Erosion Control Erosion control plan Problems associated with erosion of construction sites Roadside Drainage Design for Channel Stability Channel and Slope Stability channel and slope protection slope diversions gabions for slope protection slope protection using different materials rock and asphalt for shaded areas channel design based on allowable velocity and shear stress allowable velocity and shear stress values allowable tactile forces design of stable channel channel design using reinforced liners temporary vegetation plantings standard VR-N curves for deep channel flows specifications for erosion control blanket matted channel liner channel design using concrete and riprap liner materials check dams slope stability slope stability applied to erosion control checking erosion yield of protected slope chemical treatment of exposed soils

• Understand basics of Municipal and Urban storm water sewer system design and application
• Design a new storm sewer system
• Perform back  analysis of existing systems for any possible problems
• Learn how to use the commercial package Sewer CAD, Storm CAD and WinTR–55
• Discover the numerous issues to consider when planning sewer and stormwater drainage systems at a given site
• Learn to design  municipal and urban  storm water drainage systems to meet given planning objectives
• Efficiently use the Best Management Practice to develop the erosion control plans for Municipal and Urban applications

Instructor Dr. Gamal Abdelaziz, P.Eng, MSc. has a Ph.D. in Geotechnical Engineering from Concordia University, Montreal, Canada.   Currently he is a senior geotechnical engineer with Global Engineering, Edmonton, Alberta, Canada and adjunct professor at Ryerson university, Toronto, Ontario. He has over 22 years of experience in geotechnical and structural engineering, foundation design, teaching, research and consulting in Canada and overseas.

Dr. Abdelaziz is a former adjunct professor at University of Western Ontario, London, Ontario, Canada, visiting professor at Ryerson University, Toronto, Canada and part time professor at Seneca College, Toronto, Canada.
Dr. Abdelaziz is specialized in numerical modeling for solving sophisticated geotechnical engineering problems with respect to pile foundation and the linear and nonlinear analysis of soil-structure interaction. He designed charts to predict pressures acting on tunnels, and developed analytical model for pile bearing capacity prediction.
 
Dr. Abdelaziz authored a number of technical papers and delivered numerous internal and external workshops on various geotechnical and Municipal engineering topics. Dr. Abdelaziz has been involved in a number of projects in Canada and overseas, such as tunneling, silos, buildings, retaining structures, siphons, irrigation networks and many other civil engineering projects in terms of design and construction.
 
Dr. Abdelaziz is a member in different professional societies such as APEGGA, PEO, CGS, CDA, TAC and ABPA. He is also a reviewer for the Canadian Geotechnical Journal.