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About this Virtual Instructor Led Training (VILT) This course will provide a comprehensive, foundational content for a wide range of topics in power system operation and control. With the growing importance of grid integration of renewables and the interest in smart grid technologies, it is more important than ever to understand the fundamentals that underpin electrical power systems. This course provides a thorough understanding of all basic terminology and concepts of electrical systems, structure of a power system, transmission line parameters, insulators, high-voltage direct current transmission, substation and neutral grounding, distribution system, circuit breakers, relaying and protection, power system stability, economic operation of power systems, load frequency control, voltage and reactive power control, renewable energy sources, restructuring of electrical power systems, and smart grids. This course is a MUST for practitioners, consultants, engineers of all disciplines, managers, technicians and all technical personnel who need to learn about electrical power systems. Training Objectives Basic Terminology and Concepts of Electrical Systems: Gain an understanding of the basic terminology and concepts of electrical systems and the structure of a power system Transmission Line Parameters: Learn in detail all the transmission line parameters including line resistance, line inductance, transposition of transmission lines, and capacitance of transmission lines Insulators: Understand thoroughly all the various types of insulators, pin type insulators, suspension type or disc insulators, strain insulators, and testing of insulators High-Voltage Direct Current Transmission: Determine the advantages and disadvantages of high voltage direct current transmission, and gain an understanding of all the features of high-voltage direct current transmission Substations and Neutral Grounding: Gain a detailed understanding of all substation equipment, factors governing the layout of substations, station transformers, elements to be earthed in a substation, power system earthing, earthing transformers, bus bar arrangements and gas-insulated substations Distribution System: Learn about the effects of voltage on the conductor volume, distributor fed from one end, distributors fed from both ends at the same voltage, distributors fed from both ends at different voltages, and alternating current distribution Circuit Breakers: Learn about the classification of circuit breakers, plain-break oil circuit breakers, air break circuit breaker, air blast circuit breakers, vacuum circuit breakers, SF6 circuit breakers, rating and testing of circuit breakers Relaying and Protection: Learn all the requirements of relaying, zones of protection, primary and backup protection, classification of relays, electromagnetic relays, induction relays, feeder protection, phase fault protection, reactance relay, static overcurrent relay, differential protection, transformer protection, Buchholz relays, alternator protection restricted earth fault protection, rotor earth fault protection, and negative-sequence protection Economic Operation of Power Systems: Gain an understanding of steam power plants, heat rate characteristics and characteristics of hydro plants Load Frequency Control: Learn about speed governing mechanism, speed governor, steady state speed regulations and adjustment of governor characteristics Voltage and Reactive Power Control: Gain an understanding of impedance and reactive power, system voltage and reactive power, voltage regulation and power transfer Renewable Energy Sources: Learn about solar power, wind power, geothermal energy, biomass and tidal power Restructuring of Electrical Power Systems: Gain an understanding of smart grids, smart grid components, smart grid benefits, and open smart grid protocol Target Audience Engineers of all disciplines Managers Technicians Maintenance personnel Other technical individuals Course Level Basic or Foundation Training Methods The VILT will be delivered online in 5 half-day sessions comprising 4 hours per day, with 2 x 10 minutes break per day, including time for lectures, discussion, quizzes and short classroom exercises. Additionally, some self-study will be requested. Participants are invited but not obliged to bring a short presentation (10 mins max) on a practical problem they encountered in their work. This will then be explained and discussed during the VILT. A short test or quiz will be held at the end the course. The instructor relies on a highly interactive training method to enhance the learning process. This method ensures that all the delegates gain a complete understanding of all the topics covered. The training environment is highly stimulating, challenging, and effective because the participants will learn by case studies which will allow them to apply the material taught to their own organization. Each delegate will receive a copy of the following materials written by the instructor: 'ELECTRICAL EQUIPMENT HANDBOOK' published by McGraw-Hill in 2003 (600 pages) Introduction to Power Systems Manual (500 pages) Trainer Your specialist course leader has more than 32 years of practical engineering experience with Ontario Power Generation (OPG), one of the largest electric utility in North America. He was previously involved in research on power generation equipment with Atomic Energy of Canada Limited at their Chalk River and Whiteshell Nuclear Research Laboratories. While working at OPG, he acted as a Training Manager, Engineering Supervisor, System Responsible Engineer and Design Engineer. During the period of time, he worked as a Field Engineer and Design Engineer, he was responsible for the operation, maintenance, diagnostics, and testing of gas turbines, steam turbines, generators, motors, transformers, inverters, valves, pumps, compressors, instrumentation and control systems. Further, his responsibilities included designing, engineering, diagnosing equipment problems and recommending solutions to repair deficiencies and improve system performance, supervising engineers, setting up preventive maintenance programs, writing Operating and Design Manuals, and commissioning new equipment. Later, he worked as the manager of a section dedicated to providing training for the staff at the power stations. The training provided by him covered in detail the various equipment and systems used in power stations. In addition, he has taught courses and seminars to more than four thousand working engineers and professionals around the world, specifically Europe and North America. He has been consistently ranked as 'Excellent' or 'Very Good' by the delegates who attended his seminars and lectures. He written 5 books for working engineers from which 3 have been published by McGraw-Hill, New York. Below is a list of the books authored by him; Power Generation Handbook: Gas Turbines, Steam Power Plants, Co-generation, and Combined Cycles, second edition, (800 pages), McGraw-Hill, New York, October 2011. Electrical Equipment Handbook (600 pages), McGraw-Hill, New York, March 2003. Power Plant Equipment Operation and Maintenance Guide (800 pages), McGraw-Hill, New York, January 2012. Industrial Instrumentation and Modern Control Systems (400 pages), Custom Publishing, University of Toronto, University of Toronto Custom Publishing (1999). Industrial Equipment (600 pages), Custom Publishing, University of Toronto, University of Toronto, University of Toronto Custom Publishing (1999). Furthermore, he has received the following awards: The first 'Excellence in Teaching' award offered by PowerEdge, Singapore, in December 2016 The first 'Excellence in Teaching' award offered by the Professional Development Center at University of Toronto (May, 1996). The 'Excellence in Teaching Award' in April 2007 offered by TUV Akademie (TUV Akademie is one of the largest Professional Development centre in world, it is based in Germany and the United Arab Emirates, and provides engineering training to engineers and managers across Europe and the Middle East). Awarded graduation 'With Distinction' from Dalhousie University when completed Bachelor of Engineering degree (1983). Lastly, he was awarded his Bachelor of Engineering Degree 'with distinction' from Dalhousie University, Halifax, Nova Scotia, Canada. He also received a Master of Applied Science in Engineering (M.A.Sc.) from the University of Ottawa, Canada. He is also a member of the Association of Professional Engineers in the province of Ontario, Canada. POST TRAINING COACHING SUPPORT (OPTIONAL) To further optimise your learning experience from our courses, we also offer individualized 'One to One' coaching support for 2 hours post training. We can help improve your competence in your chosen area of interest, based on your learning needs and available hours. This is a great opportunity to improve your capability and confidence in a particular area of expertise. It will be delivered over a secure video conference call by one of our senior trainers. They will work with you to create a tailor-made coaching program that will help you achieve your goals faster. Request for further information about post training coaching support and fees applicable for this. Accreditions And Affliations

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Define multimode system terminology Describe goals and applications of multimode systems Detail basic component layouts of multimode systems Define microgrid systems and diagram component layouts for microgrid applications List applications for multimode systems Distinguish between back-up and self-consumption use cases Examine daily and annual data to perform a load analysis Review battery bank sizing Identify PV array sizing methods and variables for multimode systems Calculate minimum PV array size to meet load requirements Calculate what percentage of overall annual consumption will be offset by selected PV array size Analyze data required to specify a multimode inverter Differentiate between sizing considerations for internal and external AC connections Describe various configurations for stacking and clustering multiple inverters Describe when and why advanced inverter functions are used Discuss the equipment and designs needed for advanced multimode functions Analyze each advanced multimode function List data needed to perform an accurate financial analysis of systems that use advanced multimode functions Describe factors that can affect the financial analysis of systems using advanced multimode functions Describe the National Electrical Code (NEC®) Articles that apply to the different parts of PV and energy storage systems (ESS) Identify specific requirements for ESS and systems interconnected with a primary power source List relevant building & fire codes Communicate specific requirements for workspace clearances, disconnects, & OCPD Describe PV system requirements that affect ESS installation List ESS labeling requirements Review DC coupled systems, including advantages and disadvantages Discuss MPPT charge controller operations and options Review charge controller sizing for grid-tied systems Design a DC coupled multimode PV system for a residential application Define operating modes of an AC coupled PV system while grid-connected or in island mode Explain charge regulation methods of grid-direct inverter output Review AC coupled PV system design strategies Evaluate equipment options for AC coupled multimode applications Design an AC coupled multimode PV system for a residential application Define Energy Storage System (ESS) Describe criteria for evaluating energy storage system configurations and applications Design ESS system for back-up power Describe large-scale energy storage system applications and functions; review use case examples Analyze equipment configuration options for large-scale AC and DC coupled systems Formulate questions to enable design optimization of large-scale energy storage systems Note: SEI recommends working closely with a qualified person and/or taking PV 202 for more information on conductor sizing, electrical panel specification, and grounding systems. These topics will be part of this course, but they are not the focus.

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Learn how to design your PV system and take steps to become a fully qualified solar panel engineer with the Solar Energy. This course is an in-depth training program designed to provide an insight into the solar industry and solar PV installation. In this course, you will develop practical knowledge and skills to become an expert in the field of energy consumption. You will start by learning how modern technology converts solar energy into electricity, and on completion will have full knowledge of how to design a photovoltaic system. Throughout the course, you will make use of expert solar design software PVSYST and SketchUp, to analyse your data and utilise specialist tools. System pricing, technical reports, and payback period are also discussed in detail. What you'll learn Develop your knowledge of solar energy systems and its main components Learn how to build your own solar energy system at home Fast track your career in engineering and develop the required skills Understand the fundamentals of solar radiation and PV solar energy Learn how to conduct a solar energy site survey and technical report Explore renewable energy consumption and the benefits of solar energy Gain an understanding of how solar energy is measured and its units of power Get step-by-step guidance on how to use specialist design software PVSYST & SketchUp Requirements Passion to learn! Basic computer skills Who this course is for Engineering students Beginner Engineers in this field Beginner Solar energy worker Anyone who wants to enter this sector Unit 1- Basics of Solar Energy System Module 1- Introduction To PV System Construction 00:24:00 Module 2- Solar Heating, Solar Irradiation And Panels 00:38:00 Module 3- Effect of Insolation and Temperature on V-I Curve 00:05:00 Module 4- PV Installation, Short Circuit And Open Circuit Tests Using Avometer 00:15:00 Module 5- Solar Wires And Cables Installation Process 00:22:00 Module 6- Mounting Of PV System 00:04:00 Module 7- Shading and Tilt angle In Solar Energy 00:15:00 Module 8- Half Cut Cell Technology In PV System For Solar Engineering 00:25:00 Module 9- Importance Of Charge Controller In Solar Energy System 00:03:00 Module 10- PWM And MPPT Charge Controllers 00:14:00 Module 11- Understanding More about MPPT Solar Charge Controller For Solar Energy Course 00:24:00 Module 12- Junction Box In Solar Energy System 00:04:00 Module 13- Wiring of Junction Box In Solar Energy System 00:05:00 Module 14- Function, Types And Data Sheet Of Inverter 00:55:00 Module 15- Determining PV Array Maximum System Voltage 00:09:00 Unit 2- Batteries in PV System Module 1- Construction And Types Of Batteries In Solar Energy System 00:09:00 Module 2- Charging Of Lead Acid Batteries And Hydrometer In Solar Energy System 00:07:00 Module 3- Maintenance Of Batteries And Methods Of Charging In Solar Energy System 00:03:00 Module 4- Cycle of Batteries 00:04:00 Unit 3- Components and Design of Off Grid Solar Energy System Module 1- Off-Grid Solar System 00:02:00 Module 2- Advantages of Off-Grid Solar System 00:02:00 Module 3- Equipment of Off-Grid Solar System 00:04:00 Module 4- Selection and Datasheet of the Panel 00:04:00 Module 5- Inverter Selection 00:02:00 Module 6- Example 1 On Designing Off Grid System 00:01:00 Module 7- Determine Power Consumption Demands 00:04:00 Module 8- Size the PV modules 00:05:00 Module 9- Inverter sizing 00:04:00 Module 10- Battery Sizing 00:08:00 Module 11- Solar Charge Controller Sizing 00:05:00 Module 12- MPPT Charge Controller Sizing 00:10:00 Module 13- Example 2 Design of an OFF Grid System 00:20:00 Unit 4- Designing of ON Grid Solar Energy System Module 1- Grid-Tied Solar System 00:03:00 Module 2- Advantages of Grid-Tied Solar System 00:04:00 Module 3- Equipment of Grid-Tied Solar System 00:03:00 Module 4- Example Design of an On Grid System 00:10:00 Module 5- PV Energy According to Area 00:02:00 Unit 5- Design of PV System Using PVSyst Programme Module 1- Design of an Off Grid Solar Energy System Using PVSYST Program 00:28:00 Module 2- Design Of An On Grid Solar Energy System Using PVSyst Program 00:12:00 Module 3- Mega PV System Design Using PVSyst Program For Solar Energy 00:24:00 Unit 6- Solar Water Pumping System Module 1- Introduction To Water Pumping System And Steps Of Design 00:24:00 Module 2- Solved Example On Solar Pumping System Design 00:23:00 Unit 7- Protection of PV System Module 1- Introduction to Protection Of PV System 00:07:00 Module 2- Selection of Fuses and Protection of String 00:13:00 Module 3- Protection of Arrays 00:07:00 Module 4- Protection of Inverter 00:07:00 Module 5- Protection of Transformer 00:07:00 Module 6- Surge Protection Device 00:02:00 Module 7- Grounding of PV System 00:07:00 Module 8- Types of BusBars in PV System and Selection of BusBars 00:12:00 Unit 8- Design Using Excel Sheet Module 1-Design Of Off Grid PV System Using Excel Sheet 00:26:00 Unit 9- Single Line Diagram of PV System Module 1- Single Line Diagram Of PV System And Selection Of Fuses And Breakers 00:45:00 Unit 10- MATLAB and ETAP PV Simulation Module 1- Simulation Of PV Cell In MATLAB And Obtaining V-I Characteristics 00:28:00 Module 2- Get a Complete Grid Connected PV Solar Energy System In MATLAB Simulink 00:25:00 Module 3- PV System Simulation Using ETAP Lesson 00:24:00

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