Advanced Training Program on Modern Power Quality & Grid Resilience Managem

Future-ready power engineering: PQ mastery, grid resilience, digital diagnostics, and next-gen energy solutions.

Why this workshop

Modern electrical networks are undergoing fast transformation driven by renewable energy integration, digitalization, the rise of inverter-based technologies, and increasing dependence on sensitive electronic systems. Whether in utilities, industries, data centers, or critical infrastructure, power environments today face unprecedented challenges, including:

• High penetration of solar PV, wind, and DERs• Increased harmonic distortion from inverter-based equipment• Voltage fluctuations, flicker, and waveform disturbances• Rising dependence on automation, robotics, and VFD-driven loads• Grid weakness issues in remote or developing regions• Reliability pressures on mission-critical systems• Stricter regulatory, compliance, and PQ performance standards

This workshop provides advanced, future-ready skills in diagnosing, analyzing, and solving modern Power Quality challenges while enhancing grid resilience. Participants will explore the latest PQ tools, digital diagnostics, AI-enabled analytics, and engineering strategies used in contemporary smart grids and DER-rich environments.

Language & Delivery Format

This workshop is tailored for Arabic-speaking professionals.All training materials and presentations will be delivered in English, while explanations, discussions, and Q&A will be conducted in Arabic to ensure clarity, interaction, and effective learning.

Workshop Overview

Electrical power systems today are more complex, decentralized, and digitally connected than ever. This workshop offers a deep, integrated exploration of modern Power Quality and grid resilience, with emphasis on:

• Power Quality fundamentals and evolving global standards• Disturbance mechanisms in digital, industrial, and renewable-integrated systems• Advanced PQ measurement, monitoring, and data analytics• Harmonic analysis, interharmonics, and mitigation engineering• PQ challenges in DERs, microgrids, and EV charging networks• Grid resilience concepts, reliability engineering, and risk mitigation• AI, IoT, digital twins, and cloud-based PQ management platforms• Energy storage solutions for PQ improvement and reliability support

Participants will gain hands-on skills through case studies, diagnostic exercises, simulations, and problem-solving labs, using real PQ scenarios from industries, utilities, and critical power facilities.

Workshop Benefits

Upon completion, participants will:

• Diagnose and resolve complex PQ disturbances using modern tools• Design resilient, compliant, and efficient electrical power systems• Integrate renewables, DERs, ESS, and EV systems without degrading PQ• Apply AI, analytics, and digital platforms for real-time PQ monitoring• Strengthen reliability and reduce operational and financial risks• Implement mitigation technologies (active filters, STATCOM, DVR, UPS, ESS)• Understand compliance requirements and international PQ standards• Enhance system planning for future smart-grid and high-IBR environments

Learning Outcomes

Participants will be able to:

• Explain modern PQ characteristics in digital and renewable-rich networks• Perform root-cause analysis for harmonics, voltage sags, surges, and distortions• Utilize Class-A analyzers, IoT sensors, and cloud PQ monitoring tools• Model and simulate PQ scenarios using digital twins• Evaluate DER, inverter-based resources, and microgrids from a PQ perspective• Select and design appropriate mitigation solutions• Conduct resilience and reliability assessments for critical facilities• Apply predictive analytics and AI-driven diagnostics for PQ event management• Understand regulatory frameworks, grid codes, and compliance obligations