Water Distribution Networks - Planning and Design

Course Dates :

18/08/25

5

Course ID:

250818001001223EGI

Course Duration :

5 Studying Day/s

Course Location:

Course Category:

Professional and CPD Training Programs

Subcategories: Construction Safety, Health and Wellbeing, Environmental Sustainability, Risk Management, Technical Skills Development, Leadership and Communication, Quality Assurance

Course Certified By:

* Projacs Academy

* Professional Training and CPD Programs

Leading to:
Executive Diploma Certificate
Leading to:
Executive Mini Masters Certificate
Leading to
Executive Masters Certificate

Certification Will Be Issued From : KSA

Course Information

Introduction

Water distribution networks form the backbone of urban infrastructure, ensuring reliable access to clean water for households, industries, and agriculture. As global populations grow and urbanization accelerates, the demand for efficient water systems has never been more pressing. Engineers, planners, and policymakers face the daunting task of designing networks that balance sustainability, cost-effectiveness, and resilience against climate change and aging infrastructure. This course addresses these challenges by equipping participants with the tools and knowledge necessary to plan and design water distribution systems that meet modern demands.

The importance of water distribution networks extends beyond engineering; it touches public health, economic development, and environmental stewardship. For instance, the 2015 water crisis in Flint, Michigan, highlighted the catastrophic consequences of inadequate planning and oversight in water systems. Such incidents underscore the need for professionals who can navigate complex regulatory frameworks, integrate advanced technologies, and anticipate future risks. By mastering the principles of network design, participants will contribute to creating systems that safeguard communities and promote equitable resource allocation.

Despite advancements in hydraulic modeling and materials science, significant gaps remain in practice. Many existing networks suffer from inefficiencies such as leaks, pressure imbalances, and contamination risks. These issues often stem from outdated designs or insufficient integration of data-driven decision-making tools. The course bridges this gap by introducing participants to cutting-edge methodologies, including Geographic Information Systems (GIS), computational fluid dynamics, and lifecycle cost analysis. These approaches empower practitioners to optimize performance while minimizing environmental impact.

The benefits of mastering this content are manifold. For individuals, proficiency in water distribution planning enhances career prospects, enabling them to take on leadership roles in engineering firms, municipal agencies, or consulting organizations. Organizations, meanwhile, gain a competitive edge through improved service delivery, reduced operational costs, and compliance with stringent regulations. Moreover, well-designed networks foster community trust and support broader sustainability goals, aligning with frameworks like the United Nations Sustainable Development Goals (SDGs).

Real-world applications abound. Consider Singapore’s innovative NEWater system, which recycles wastewater into potable water using advanced treatment processes. This initiative exemplifies how thoughtful planning and design can transform water scarcity into an opportunity for innovation. Similarly, cities like Copenhagen have implemented smart water grids that use real-time monitoring to detect leaks and manage demand dynamically. These case studies demonstrate the transformative potential of applying the principles taught in this course.

Ultimately, this training program seeks to inspire a new generation of water professionals equipped to tackle the challenges of tomorrow. Participants will emerge not only with technical expertise but also with a holistic understanding of the social, economic, and environmental dimensions of water distribution. Whether addressing immediate needs or preparing for long-term uncertainties, the skills acquired here will prove invaluable in shaping resilient and sustainable water futures.

Objectives

By attending this course, participants will be able to:

Analyze the fundamental principles of hydraulics and their application in water distribution network design.
Evaluate the impact of population growth, land use changes, and climate variability on water demand forecasting.
Design efficient and cost-effective water distribution systems using industry-standard software tools such as EPANET and GIS.
Implement strategies to mitigate common operational challenges, including leak detection, pressure management, and water quality assurance.
Apply risk assessment frameworks to identify vulnerabilities and enhance the resilience of water networks against natural disasters and cyber threats.
Assess regulatory requirements and best practices for ensuring compliance with local and international standards.
Synthesize multidisciplinary knowledge to propose innovative solutions for sustainable water management.

Who Should Attend?

This course is ideal for:

Civil engineers specializing in water resources or municipal infrastructure projects.
Urban planners involved in developing master plans for growing cities.
Environmental consultants tasked with assessing the sustainability of water systems.
Technical staff from government agencies responsible for water supply and sanitation.
Academics and researchers seeking to deepen their understanding of water distribution dynamics.

Training Method

• Pre-assessment
• Live group instruction
• Use of real-world examples, case studies and exercises
• Interactive participation and discussion
• Power point presentation, LCD and flip chart
• Group activities and tests
• Each participant receives a 7” Tablet containing a copy of the presentation, slides and handouts
• Post-assessment

Program Support

This program is supported by:
* Interactive discussions
* Role-play
* Case studies and highlight the techniques available to the participants.

Daily Agenda

The course agenda will be as follows:
• Technical Session 08.30-10.00 am
• Coffee Break 10.00-10.15 am
• Technical Session 10.15-12.15 noon
• Coffee Break 12.15-12.45 pm
• Technical Session 12.45-02.30 pm
• Course Ends 02.30 pm