EBC For Training & Development

Electrical Engineering and Energy Sciences

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Code

Available Dates

Places & Fees

Registeration



Istanbul .. Cairo .. Tunis .. Muscat

3250 €

Dubai .. Kuala Lumpur .. London

3850 €

Paris .. Singapore .. Barcelona

Register


Istanbul .. Cairo .. Tunis .. Muscat

3250 €

Dubai .. Kuala Lumpur .. London

3850 €

Paris .. Singapore .. Barcelona

Register


Istanbul .. Cairo .. Tunis .. Muscat

3250 €

Dubai .. Kuala Lumpur .. London

3850 €

Paris .. Singapore .. Barcelona

Register

Istanbul .. Cairo .. Tunis .. Muscat

3250 €

Dubai .. Kuala Lumpur .. London

3850 €

Paris .. Singapore .. Barcelona

Register


Istanbul .. Cairo .. Tunis .. Muscat

3250 €

Dubai .. Kuala Lumpur .. London

3850 €

Paris .. Singapore .. Barcelona

Register


Istanbul .. Cairo .. Tunis .. Muscat

3250 €

Dubai .. Kuala Lumpur .. London

3850 €

Paris .. Singapore .. Barcelona

Register

1- Online Training...with international accreditation. The value of participation per person is $1,450

2-Requirement : specifying the course, number of participants
implementation date, and joint coordination.

Group contracting ... 20% Discount For Each Participant In Any Group Of Five Person Or More

Other Places To Hold The Course :

KualaLumpur.. Istanbul.. Dubai.. Cairo.. Riyadh.. Jeddah.. Abu Dhabi.. Doha.. Muscat.. Sharm El Sheikh.. Kuwait.. Tripoli.. Amman.. Beirut.. Damascus.. Tunisia.. Casablanca.. London.. Paris.. Barcelona.. Amsterdam.. Brussels

Electrical Engineering for Non-Electrical Engineers

Introduction :

The knowledge of electrical engineering has become essential to successfully utilise electrical energy and operate electrical equipment. Electricity is not extracted out of the ground like oil or captured from air. It is a secondary source of energy that is produced by the use of primary energy sources such as coal, natural gas, or nuclear reactions.Although it is a secondary source, electricity plays such an essential role in that its supply and demand are often examined separately from the primary sources used to produce it. For many non-electrical engineers (civil, mechanical, structural, fire protection, and other electrical professionals), understanding how electricity “works” and knowing how to specify equipment that utilises electricity can be confusing.

Course Objectives :

At the end of this course, the participants will be able to :

  • Understand the underlying principles of electrical engineering
  • Learn some important rudimentary laws of electrical engineering
  • Appreciate the difference between single-phase and three-phase systems
  • Discover the important concepts in electrical safety
  • Know the importance of harmonics and its effects
  • Discuss how to apply what you have learned to your business and applications
  • Know the safety procedures to be adopted in electrical installations

Targeted Audience :

  • All non-electrical engineers
  • Individuals interacting with or managing electrical engineers
  • Individuals assessing electrical engineering projects
  • Energy managers
  • Engineering managers
  • Plant engineers
  • Maintenance engineers
  • Facilities managers
  • Energy consultants

Course Outlines :

MODULE 1 : INTRODUCTION

  • Definitions:
    • Electricity
    • Engineering
    • Electrical Engineering
  • Static Electricity
  • Conductors, Insulators, and Electron Flow
  • What Are Electric Circuits?
  • Voltage and Current
  • Resistance
  • Voltage and Current in a Practical Circuit
  • Conventional Versus Electron Flow
  • DC Circuit Analysis
  • Basic Electronic Devices

MODULE 2 : FUNDAMENTALS

  • Alternating Current (AC) Fundamentals
  • DC and AC Power
  • Power Factor
  • Demand, Load Factor, Service Factor
  • Electrical Power Bill Computation

MODULE 3 : ELECTRICAL FUNDAMENTALS

  • Capacitors
  • Inductors
  • Alternating Current
  • Faraday’s Law
  • Magnetic Field
  • Ferromagnetic Materials
  • Three-Phase Systems
  • Machinery Principles

MODULE 4 : TRANSFORMERS

  • Transformers’ Characteristics
  • Types and Construction of Transformers
  • Impedance Transformation Through A Transformer
  • Analysis of Circuits Containing Transformers
  • Equivalent Circuit in A Transformer
  • Voltage Regulation
  • Transformer Efficiency
  • Transformer Taps and Voltage Regulators
  • Autotransformers, Three-Phase Transformers, Instrument Transformers
  • Phase Relationships
  • Star/Star Connected Transformer
  • Basic Materials (Dielectrics, Copper, Iron, Insulation, Leakage)
  • Components of A Power Transformer
  • Core, Windings, Nitrogen Demand System, Conservative Tank with Air Cell
  • Current Transformers, Bushings, Insulation, Tap Changers

MODULE 5 : MOTORS & INVERTERS

  • Rms Voltage in A Three-Phase Stator
  • Rotating Magnetic Field
  • Electrical Frequency
  • Magnetic Field Rotation
  • Induction Motor Construction
  • Rotor Slip
  • Electrical Frequency of The Rotor
  • Losses and The Power Flow Diagram
  • Induced Torque in A Three-Phase Machine
  • Winding Insulation in AC Machines
  • AC Machine Power Flow and Losses
  • Induction Motor Torque-Speed Characteristics
  • Variation of The Torque-Speed Characteristics

MODULE 6 : UNINTERRUPTIBLE POWER SYSTEM (UPS) & INDUSTRIAL BATTERIES

  • UPS Operation Standards
  • Voltage Regulation
  • Harmonic Distortion
  • Advanced UPS Design
  • Input Power Converter and Inverter
  • Remote UPS Monitoring
  • UPS Testing, Commissioning, and Maintenance
  • Battery Selection and Maintenance
  • UPS Sizing
  • Electromagnetic and Radio Frequency Interference
  • Space Vector Modulation Technology

MODULE 7 : DIRECT CURRENT (DC)

  • Properties
  • Uses
  • Generating DC
  • Describing DC
  • Applications

MODULE 8 : ALTERNATING CURRENT (AC)

  • Properties
  • Uses
  • PhET Simulation
  • Generating DC
  • Waveforms
  • Applications

MODULE 9 :  AC VS. DC

  • Edison’s Smear Campaign
  • The Rise of AC
  • High-Voltage Direct Current (HVDC)
  • Differences and Similarities Between AC and DC Current
  • Calculate RMS Voltage, Current, and Average Power
  • Why Use AC for Power Distribution?

MODULE 10 : OHM’S LAW

  • The Relationship Between Voltage, Current, and Resistance
  • An Analogy for Ohm’s Law
  • Power in Electric Circuits
  • Calculating Electric Power
  • Resistors
  • Nonlinear Conduction
  • Circuit Wiring
  • The polarity of voltage drops
  • Computer Simulation of Electric Circuits

MODULE 11 :  ELECTRICAL SAFETY

  • The Importance of Electrical Safety
  • Physiological Effects of Electricity
  • Shock Current Path
  • Ohm’s Law (again!)
  • Safe Practices
  • Emergency Response
  • Common Sources of Hazard
  • Safe Circuit Design
  • Safe Meter Usage
  • Electric Shock Data

MODULE 12 : SERIES AND PARALLEL CIRCUITS

  • Series and Parallel
  • Simple Series Circuits
  • Simple Parallel Circuits
  • Conductance
  • Power Calculations
  • Correct use of Ohm’s Law
  • Component Failure Analysis
  • Building Simple Resistor Circuits

MODULE 13 : BATTERIES

  • Categories and types of batteries
  • Capacity and discharge
  • Self-discharge
  • Corrosion
  • Physical component changes
  • Charge/discharge speed
  • Overcharging
  • Memory effect
  • Environmental conditions
  • Storage
  • Battery sizes
  • Hazards
  • Primary batteries
  • Secondary (rechargeable) batteries
  • Solid-state batteries

MODULE 14 : VOLTAGE DROP CALCULATIONS

  • Voltage Drop in DC Circuits
  • Voltage Drop in AC Circuits
  • Calculation in Single-Phase and Three-Phase Circuits
  • The calculation for Long Paired Wire Runs
  • Formula Methods
  • Cable Size Selection

MODULE 15 : MAGNETISM AND ELECTROMAGNETISM

  • Permanent Magnets
  • Electromagnetism
  • Magnetic Units of Measurement
  • Permeability and Saturation
  • Electromagnetic Induction
  • Mutual Inductance

MODULE 16 : ELECTRICITY DISTRIBUTION

  • Electricity Distribution
  • Global Standards
  • Distribution Criteria in Industrial Plants
  • Wire Characteristics

MODULE 17 : SAFETY

  • Human Response
  • Outdoor Safety
  • Indoor Safety
  • Grounding
  • Lockout / Tagout

European Business Center Training Methodology :

Our training work is presented in a professional and attractive manner.. Interspersed with interceptive information to renew attention throughout the training period… We aim with this method to train the listener and interact… In addition to practical applications that target the direct skills and knowledge required to be achieved.. It is presented to the trainees in more than one way.. Practical exercises and applications.. Surveys and questions.. A training strategy has been adopted based on pairing between the theoretical and the professional and between the local and the global.

What Does The Participant Get From The Course?

Each participant obtains an internationally accredited training certificate from the European Business Center for Training and Development … which has the ISO certificate in quality No. 900/2015 from the English international company UCAS .. and receives a training bag containing the scientific material via an electronic flash … in addition to an enjoyable and useful training that is reflected Positive and developmental for individuals and the institution

Note :

We can implement the training course in any of the cities referred to in this course..at the appropriate and required time for the trainees..through joint coordination with the training department at the center..the training is implemented in a distinctive manner according to the best quality standards so that we meet all training requirements and needs.

International Accreditations

European Business Center for Training and Development has obtained international and official accreditations with the highest and best international levels scientifically and technically, which reflect the level of outstanding performance in our training work.. so that it achieves what each participant aspires to by obtaining the best certificates with officially approved scientific and technical standards.