Drinking Water Treatment, Principles and Practices

Online /
Feb 1 - 2, 2024 /
Course Code: 14-0205-ONL24

The confirmation of this course depends on early registration; Register early to avoid the postponement or cancellation of a course.
  • Overview
  • Syllabus
  • Instructor


Please note, This instructor-led course has specific dates and times:
This course is held online over 2 days on the following schedule (All times in Eastern Time Zone):

10 am to 6 pm Eastern (Will include the usual breaks)

After participating in this course, you will be able to:

  • Characterize water and identify water types
  • Recognize the types of water contaminants and identify the treatment processes and methods for their removal
  • Remove suspended solids and colloids, dissolved and particulate organic matter, metals and contaminating inorganic substances from water by conventional and advanced treatment processes
  • Recognize the operation principles of conventional and advanced drinking water treatment systems
  • Apply your knowledge to select and design appropriate treatment processes for the production of high-quality drinking water

This course discusses the principles and practices of water treatment for removing organic and inorganic contaminants leading to drinking water production. It addresses the types of pollutants in water and the operation principles and applications of conventional and advanced drinking water treatment processes.

These processes include coagulation-flocculation, sedimentation and clarification, filtration, precipitation, ion exchange, adsorption, disinfection and membrane processes. Examples of conventional and modern drinking water treatment plants will be presented.

Course Outline:

  • Water resources, hydrology, water pollutants and chemical concepts
  • Coagulation and flocculation
  • Sedimentation and clarification
  • Filtration
  • Chemical precipitation
  • Water softening
  • Ion exchange
  • Adsorption
  • Membrane processes
  • Disinfection processes
  • Drinking water treatment plants

Who Should Attend:

Facility/Utility Engineers, Consulting Engineers, Technicians and Technologists, Municipal Planners, Plant Managers, Plant Operating personnel, and anyone interested in learning about drinking water chemistry and treatment approaches

More Information

Time: 10:00 AM - 6:00 PM Eastern Time

Please note: You can check other time zones here.


Day 1:

Water Resources, Hydrology and Characteristics

  • Sources and hydrological aspects of water
  •  Physical, chemical and microbiological parameters of water
  • Water pollutants: dissolved, non-dissolved, organic and inorganic contaminants
  • Fundamental chemical concepts

Drinking Water Treatment: Conventional Treatment Technologies

Coagulation-Flocculation Processes

  • Characteristics of colloids and suspended particles
  • Theoretical aspects of coagulation and flocculation processes
  • Type of coagulants and flocculants
  • Design of coagulation-flocculation reactors

Sedimentation and Clarification Processes

  • Principles of particle settling and solid-liquid separation
  • Design and operation aspects of sedimentation/clarification processes
  • Operational parameters of sedimentation/clarification tanks


  • Types of filters: screen filters, surface filters, depth filters
  • Particle removal mechanisms during filtration processes
  • Important factors for filtering media
  • Filter backwashing

Chemical Precipitation

  • Removal of metals from a solution by chemical precipitation
  • Hydroxide precipitation of metals
  • Carbonate precipitation of metals
  • Sulphide precipitation of metals
  • Removal of phosphorus from water by chemical precipitation

Day 2:

Water Softening

  • Water softening by chemical precipitation
  • Water softening operations
  • Estimation of chemical consumption and solids production during softening processes

Drinking Water Treatment: Advanced Treatment Technologies

Ion Exchange

  • Ion exchange mechanism and applications
  • Ion exchange resin selectivity and affinity
  • Resin regeneration after water demineralization
  • Water softening by ion exchange


  • Adsorption separation processes
  • Types of contaminants removed by adsorption
  • Granular activated carbon (GAC) and powdered activated carbon (PAC)
  • Types of adsorption columns

Membrane processes

  • Operation principles of membrane systems
  • Types of membranes used in water treatment operations: Microfiltration, ultrafiltration, nanofiltration, reverse osmosis
  • Components and configuration of membrane systems
  • Operating parameters in membrane systems

Disinfection processes

  • Mechanisms of disinfection processes
  • Properties of disinfectants
  • Chlorination
  • Ozonation
  • UV disinfection

Drinking Water Treatment Plants

  • Examples of conventional and modern drinking water treatment plants

Concluding Remarks

Discussion period: questions and answers


Laleh Yerushalmi, Ph.D., P.Eng.

Laleh Yerushalmi is the Chief Technology Officer of BioCAST Systems Inc. and Dagua Technologies Inc. She holds a Ph.D. degree in Chemical Engineering and specializes in Environmental and Biochemical Engineering.

She is a professional engineer and member of l’Ordre des ingénieurs du Québec. Laleh is the inventor of BioCAST technologies and is currently in charge of research and development at BioCAST Systems Inc. and Dagua Technologies Inc. Laleh has more than twenty years of experience in the design, development and optimization of chemical and biological processes for wastewater treatment and site bioremediation.

She was formerly the Director of Research and Development, in charge of operation management and performance optimization of a proprietary wastewater treatment technology at Atara Corporation in Montreal. She has also been a Research Analyst at Statistics Canada, involved in environmental modeling, design and development of methodologies for the estimation of environmental emissions. She was formerly a Research Officer at the National Research Council of Canada, responsible for the design and development of groundwater treatment technologies. Laleh teaches and supervises graduate research theses at McGill and Concordia Universities. She has presented the results of her research in numerous conferences and has published more than ninety articles in scientific journals.

The Engineering Institute of Canada

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Fee & Credits

$1295 + taxes

  • 1.4 Continuing Education Units (CEUs)
  • 14 Professional Development Hours (PDHs)
  • ECAA Annual Professional Development Points

Group Training
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