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Take this course
Mohamed Khalil, PMP®

learn all design calculations and instructions of water treatment systems, sand& multimedia filters, iron & manganese removal systems, Oxidation, aeration and precipitation techniques of Iron& manganese and BIRM& green sand filters design.

learn how to design Softener, two beds and mixed bed ion exchange Deionizer IX systems and RO/NF system.

take many examples for system design to enhance the knowledge.

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What's inside

Learning objectives

  • Learn all calculations and equation to design sand and multimedia filters
  • Learn all calculations and knowledge required to design iron and manganese removal systems
  • Learn how to design water ion exchange softener, calculation of resin quantity, and chemical regeneration chemicals
  • Learn all calculations and knowledge related to reverse osmosis plant design
  • Learn how to design deionizer, calculate cation and anion resin quantity
  • Learn how to design mixed bed system
  • Learn how to calculate filtration rate, how to determine vessel diameter, vessel height and vessel types
  • Learn how to determine filtration media grains size, layer depth and media quantity
  • Learn all you need about filtration media types and specifications
  • Learn how to choose the right control head for your filter
  • Learn how to calculate required amount of oxygen, air and potassium permangnate to oxidize and precipitate iron and manganese
  • Learn how to design birm and green sand filters, media quantity, vessel dimensions and controlling system
  • Learn how to design vessel and determine vessel dimensions of deionizer and mixed bed
  • Show more
  • Show less

Syllabus

you will be able to design sand and multimedia filters
COURSE PREVIEW
physical and chemical properties & impurities in water
Introduction to sand filter and multimedia section content 2
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Traffic lights

Read about what's good
what should give you pause
and possible dealbreakers
Covers design calculations for various water treatment systems, including sand filters, multimedia filters, and iron/manganese removal systems, which are essential for water treatment facilities
Explores oxidation, aeration, and precipitation techniques for iron and manganese removal, offering a comprehensive understanding of water purification processes
Includes design considerations for softeners, deionizers, and reverse osmosis systems, which are critical components in industrial water treatment applications
Features case studies of Birm filter design, offering practical insights into real-world applications and problem-solving in water treatment
Requires learners to calculate the amount of oxygen, air, and potassium permanganate needed to oxidize and precipitate iron and manganese, which may require a background in chemistry
Uses WAVE software to design softeners, which may require learners to purchase a license or seek out a free trial version of the software

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Reviews summary

Practical water treatment design calculations

According to learners, this course provides a strong foundation in the design calculations and principles for various water treatment systems. Many appreciate the focus on practical examples and case studies, finding them highly applicable to real-world projects. Specific praise is often directed towards the sections covering sand and multimedia filters, ion exchange systems (softener, deionizer), and RO/NF design. The course is seen as particularly valuable for understanding sizing calculations and selecting components.
Shows how to use design software.
"Videos demonstrating WAVE and ROSA software are a big plus."
"Seeing how to use WAVE software for softener design was very valuable."
"The ROSA projection videos were insightful."
"Integrating software examples makes the design process more tangible."
Includes practical examples and case studies.
"The examples provided for system design really enhanced my understanding."
"Case studies helped solidify the design concepts discussed."
"I found the complete case study for birm filter design very helpful."
"More examples are always great, and this course delivers on that."
Covers multiple key treatment processes.
"It covers various systems including sand filters, softeners, deionizers, and RO."
"Good overview of different water treatment processes design."
"The course is comprehensive and touches upon all the major systems you need to know."
"I liked that it included Iron/Manganese removal and mixed bed systems as well."
Clear explanation of design calculations.
"All design calculations and instructions are explained step by step."
"The method of explanation is very clear and makes it easy to follow the calculations."
"I appreciated the detailed breakdown of how to calculate resin quantity and vessel dimensions."
"The instructor goes through the math needed for sizing systems clearly."
Highly practical with real design calculations.
"The course is great and beneficial for practical application of water treatment systems design calculations."
"I learned how to design and calculate various water treatment systems, which is very practical for my work."
"This course helped me understand the actual steps involved in designing filters and IX systems."
"The focus on calculations and sizing is exactly what I needed for my job."
May require some engineering background.
"Assumes a basic understanding of engineering principles."
"Some parts might be challenging without prior knowledge in water treatment."
"It's definitely geared towards those with a technical or engineering background."
"Not for absolute beginners with no technical background."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Water Treatment Process Design with these activities:
Review Chemistry Fundamentals
Reinforce your understanding of fundamental chemistry concepts. A solid grasp of chemistry is essential for understanding water treatment processes.
Browse courses on Stoichiometry
Show steps
  • Review basic chemical principles.
  • Practice solving chemistry problems.
Review: 'Standard Methods for the Examination of Water and Wastewater'
Familiarize yourself with standard methods for water quality analysis. This book is a valuable resource for understanding how water quality parameters are measured.
Show steps
  • Browse the sections relevant to the course.
  • Note the standard procedures for water quality testing.
Review: 'Water Treatment: Principles and Design'
Gain a deeper understanding of water treatment principles and design considerations. This book provides a comprehensive overview of the field.
Show steps
  • Read the chapters relevant to the course syllabus.
  • Take notes on key concepts and design equations.
Four other activities
Expand to see all activities and additional details
Show all seven activities
Practice Filter Design Calculations
Sharpen your skills in designing sand and multimedia filters. Repetitive practice will solidify your understanding of the design calculations.
Show steps
  • Work through example problems from the course materials.
  • Find additional filter design problems online.
  • Solve the problems and compare your answers to the solutions.
Create a Presentation on RO System Design
Solidify your understanding of reverse osmosis (RO) system design by creating a presentation. This activity will help you organize your knowledge and communicate it effectively.
Show steps
  • Outline the key steps in RO system design.
  • Prepare slides with clear explanations and diagrams.
  • Practice delivering the presentation.
Design a Water Softening System
Apply your knowledge to design a complete water softening system. This project will test your understanding of resin quantity calculations, vessel sizing, and regeneration requirements.
Show steps
  • Define the water quality requirements for the softened water.
  • Calculate the required resin quantity and vessel dimensions.
  • Specify the brine requirements and control head.
  • Create a design report summarizing your calculations and specifications.
Research Emerging Contaminants
Expand your knowledge beyond the course material by researching emerging contaminants in water. This project will help you stay up-to-date on the latest challenges in water treatment.
Show steps
  • Identify a specific emerging contaminant of interest.
  • Research the sources, health effects, and treatment technologies for the contaminant.
  • Write a short report summarizing your findings.

Career center

Learners who complete Water Treatment Process Design will develop knowledge and skills that may be useful to these careers:
Water Treatment Engineer
A Water Treatment Engineer is responsible for designing, implementing, and maintaining systems that purify water for various uses. This course helps build a foundation in the design calculations and instructions essential for water treatment systems. With the knowledge gained, one can effectively design sand and multimedia filters, iron and manganese removal systems, and understand oxidation, aeration, and precipitation techniques crucial for this role. This course is particularly helpful because it equips the engineer with the ability to design water ion exchange softeners, deionizers, and reverse osmosis systems, all vital components of modern water treatment facilities.
Environmental Engineer
An Environmental Engineer works to protect the environment and human health through the design of solutions to environmental problems. Becoming an expert in water treatment systems, as this course enables, is a core skill. The course's focus on designing sand filters, iron and manganese removal systems, and understanding oxidation processes directly translates to designing solutions for contaminated water sources. Environmental Engineers should take this course to gain expertise in designing water purification systems, including softeners, deionizers, and reverse osmosis plants, integral to mitigating water pollution.
Sanitary Engineer
A Sanitary Engineer focuses on public health engineering, particularly related to water and sanitation systems. This course may be useful for the design of water treatment systems, and the knowledge of filtration, disinfection, and purification processes is highly relevant. Sanitary Engineers may find this course useful to aid their ability to design effective water treatment systems.
Process Engineer
A Process Engineer optimizes industrial processes, often involving water treatment in industries like manufacturing, pharmaceuticals, and food processing. This course directly addresses the design calculations and system knowledge required to optimize water treatment processes. This professional may find the course on softener, deionizer, and reverse osmosis system design particularly valuable, as these systems are frequently integrated into industrial processes. A Process Engineer would benefit from this course to refine their understanding of water treatment design, improving efficiency and reducing waste in various industrial applications.
Civil Engineer
Civil Engineers design and oversee the construction of infrastructure projects, including water treatment and distribution systems. This course, focusing on water treatment system design, helps build a foundation for designing water treatment plants and related infrastructure. This role may find the course particularly valuable for improving water quality. Civil Engineers would likely find this course useful for understanding the specific design considerations for water treatment systems, enabling more effective collaboration with other engineers on water infrastructure projects.
Wastewater Treatment Plant Operator
A Wastewater Treatment Plant Operator is responsible for the day to day functioning of wastewater treatment plants. While this role is more hands-on, this course's focus on the design of water treatment systems, including sand filters and reverse osmosis plants, provides a theoretical understanding valuable to a plant operator. The detailed instruction on system design, including ion exchange systems and filtration media types, helps an operator understand the system's theoretical underpinnings. Operators would find this course helpful to gain a deeper understanding of the water treatment plant design, enabling more effective troubleshooting and optimization of plant operations.
Plant Engineer
A Plant Engineer manages the operations and maintenance of industrial plants, often including water treatment systems. This course, focusing on the design of water treatment systems such as softener, deionizer, and reverse osmosis, helps one understand the principles behind the systems they manage. Plant Engineers might find this course useful to gain a theoretical understanding of water treatment design, enabling more effective troubleshooting and optimization of plant operations.
Chemical Engineer
Chemical Engineers often design and oversee chemical processes, and water treatment is a crucial aspect of many of these processes. With the knowledge of water treatment systems design calculations, this course helps the chemical engineer contribute to designing, optimizing, and managing water treatment processes. The course's instruction on softener, deionizer, and reverse osmosis system design is particularly relevant, as these technologies are frequently used in chemical processing plants. Chemical Engineers would find this course to better understand the chemical engineering aspects of water treatment, enabling them to integrate water purification more effectively into larger chemical processes.
Environmental Consultant
An Environmental Consultant advises businesses and government agencies on environmental regulations and remediation strategies. Understanding water treatment technologies is essential for assessing water quality and designing appropriate treatment solutions. This course, focusing on water treatment systems design, helps build a foundation for recommending and implementing effective water treatment strategies. Environmental Consultants may find this course useful to enhance their understanding of water purification technologies.
Water Quality Specialist
A Water Quality Specialist monitors and analyzes water samples to ensure they meet regulatory standards. While this role is focused on analysis rather than design, understanding water treatment processes is essential for interpreting water quality data and recommending appropriate interventions. This course, focusing on water treatment systems design and calculation, may be helpful as it creates a foundation for understanding how water quality is affected by purification methods. Water Quality Specialists will understand the impact of different treatment methods on water quality.
Research and Development Scientist
A Research and Development Scientist investigates and develops new technologies, and water treatment is an area ripe for innovation. This course may be useful for this person's work related to improving water purification technologies. The detailed knowledge of current technologies, such as reverse osmosis and ion exchange, could be a launchpad for new solutions. Research and Development Scientists may wish to take this course enhance their understanding of existing water treatment technologies.
Water Resource Manager
A Water Resource Manager plans and manages the sustainable use of water resources. While this role is broad, understanding water treatment technologies is essential for effective management. This course may be helpful for the water resource manager because it provides a basis in water treatment systems, including filtration and reverse osmosis. The course's focus on design calculations introduces a key element of water purification processes. Water Resource Managers may find this course useful to better understand the practical aspects of water treatment, enabling them to make informed decisions about water resource allocation and treatment strategies.
Irrigation Engineer
An Irrigation Engineer designs and manages irrigation systems for agriculture and landscaping. Understanding water quality and treatment is important for ensuring efficient and sustainable irrigation practices. This course's focus on sand filters and reverse osmosis systems could be valuable for designing systems. Irrigation Engineers may take this course to inform their understanding of water quality and treatment.
Sustainability Consultant
Sustainability Consultants advise organizations on how to operate in a more environmentally responsible way. Knowledge of water treatment processes is useful when helping businesses reduce their environmental impact. This course may be useful as the consultant will be able to have a better sense of current best practices in water purification. The course’s instruction on topics such as reverse osmosis could be valuable. A Sustainability Consultant may wish to take this course to promote water conservation and responsible waste disposal.
Public Health Official
A Public Health Official works to improve community health outcomes. Access to clean and safe drinking water is crucial for public health, and this course's focus on water treatment systems helps build a foundation in ensuring water safety. While this role is not directly involved in design, the knowledge of filtration and purification processes can be useful. A Public Health Official may find this course helpful to better understand the technologies used to provide safe drinking water, enabling them to advocate for effective water treatment policies and regulations.

Reading list

We've selected two books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Water Treatment Process Design.
Provides a comprehensive overview of water treatment processes. It covers principles, design considerations, and practical applications. It valuable reference for understanding the theoretical underpinnings and practical aspects of water treatment system design. This book is commonly used as a textbook in many academic institutions.
Is the definitive guide to water and wastewater analysis. It provides detailed procedures for measuring various water quality parameters. It useful reference for understanding the analytical methods used in water treatment and for interpreting water quality data. This book is commonly used by industry professionals.

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