TRAINING.

Overview

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

• Classify hazardous locations (gas, vapour, and dust) using standard zone systems
• Apply key codes and standards to support compliant designs and installations
• Select appropriate Ex-rated equipment for electrical and instrumentation applications
• Implement safe wiring practices to minimize ignition risk in classified areas
• Perform basic design checks and calculations for intrinsic safety and power limitations
• Support commissioning, troubleshooting, and maintenance in hazardous locations

Description
Engineers and technical professionals working around flammable gases, vapours, or combustible dusts face a high-stakes challenge: a single ignition source in a classified area can lead to catastrophic fire or explosion events, with serious consequences for people, assets, and business continuity. This is why hazardous area classification and safe wiring practices are foundational competencies in many sectors, particularly utilities, energy, power generation, and industrial facilities where hazardous materials may be stored, used, or handled.

This course provides a practical, industry-aligned introduction to hazardous area classifications (HAC) and the wiring methods that support safe, compliant electrical and instrumentation installations. You will learn how classification decisions (Zones 0/1/2 and 20/21/22) drive equipment selection, protection methods, and installation requirements, grounded in relevant codes, standards, and real project considerations.

Designed as a highly interactive learning experience, the course blends focused instruction with discussion, case examples, and hands-on workshops. Participants work with industry datasheets, explore product and barrier selection, and practice core wiring/design checks so they can apply concepts directly to real workplace scenarios, whether supporting design, construction, commissioning, or ongoing operations and maintenance.

Who Should Attend
This course is designed for professionals involved in the planning, design, construction, operation, maintenance, or safety of facilities that include hazardous (classified) locations, such as utilities and institutional/industrial environments, including:

• Plant managers, operations leaders, and facility engineers
• Electrical, instrumentation, mechanical, chemical, and process engineers
• Project engineers and engineering supervisors
• Maintenance and reliability engineers
• Electrical designers, technologists, and electricians
• System operators and utility professionals
• Safety, regulatory, and compliance personnel
• Industrial/commercial equipment and operations personnel

Please note: You can check other time zones here.

Syllabus

Day I

Introduction

• Overview of hazard causes and types, area definitions, material classification, and area classification
• Stages of HAC Study
• Objective, Approach and Limit of HAC Study
• Important Terms and Definitions
• Area Classification
• Hazardous Area Classification Techniques
• Point of Source Approach
• Hazard Prevention Techniques
• Examination of standards: CEC, NEC, CENELEC, IEC, and the Ex-rating
• Zone classification with materials and gases according to CEC standard, Section 18
• Understanding temperature classification

Protection

• Criteria for selecting electrical apparatus
• Key area information: Zone, ignition temperature, current, and safe gap data
• Principles of intrinsic safety and IP ratings
• Methods of hazard proofing: Flameproof, pressurized, sand-filled, oil-immersed, hermetically sealed
• Understanding barriers and entity concepts
• Differentiating simple and non-simple apparatus
• Cable energy storage parameters for intrinsic safety
• Grounding requirements as per CEC

Day 2: Design Criteria and Practical Examples for Classified Areas

Ventilation in Hazardous Area

• General ventilation
• Local exhaust ventilation
• Ventilation standards and design principles

Electrical Equipment:

• Lighting solutions
• Enclosures and junction boxes
• Process and space heaters
• Heat tracing cables
• Control stations
• Signaling devices
• Plugs, sockets, and isolators
• Joints, terminations, glands, and cleats

Process Control and Automation Equipment

• Heat, gas, and flame detection systems
• Access control devices and CCTV monitoring
• Non-sparking tools and intrinsically safe multimeters
• Process instrumentation
• Solenoid valves
• Use of smartphones, tablets, and computers in hazardous areas
• Electronic barriers

Other Equipment

• Storage solutions and Eyewash systems

Instructor

Ahmed M. Othman, PhD, P.Eng. (PEO), IEEE

Prof. Othman is a Professor and senior electrical power systems specialist with over 20 years of experience in electrical, power, and energy engineering. He holds a PhD from Aalto University (Finland) and completed postdoctoral research at OntechU (Canada). Prof. Othman is a licensed Professional Engineer in Ontario and a member of IEEE, with additional professional engineering registrations in Alberta and Yukon.

His expertise spans electrical and power system operations, system reliability, protection and control, and advanced power system studies, including load flow, short-circuit analysis, relay coordination, transient analysis, arc-flash studies, harmonics, and protection schemes. He has extensive experience in distribution system operation and planning, smart grid technologies, renewable energy integration, and the design of AC and DC power distribution systems.

Prof. Othman has held academic and industry leadership roles, including serving as a Professor at Zagazig University and holding senior technical roles in consulting, R&D, and engineering team leadership. He has delivered professional development and technical training programs internationally for universities and industry organizations, supporting engineers and professionals in advancing practical, real-world power systems knowledge.