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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

About this Virtual Instructor Led Training (VILT) This Virtual Instructor Led Training (VILT) course presents advanced methodologies that implement demand response and energy conservation programs in light of the integration of new technologies, regulatory changes and the accelerated penetration of renewable energy resources. This VILT course provides examples and case studies from North American and European jurisdictions covering the operational flexibilities on the demand side including requirements for new building codes to achieve zero net energy. The course describes a public agency's goals and objectives for conserving and otherwise reducing energy consumption and managing its demand for energy. This course presents the demand response implemented for economics and system security such as system balancing and relieving transmission congestion, or for system adequacy. The course also presents the principal attributes of conservation programs and the associated success criteria. In a system with increased penetration of renewable resources, demand response provides flexibility to system operators, helping them to maintain the reliability and the security of supply. Demand response is presented as a competitive alternative to additional power sources, enhancing competition and liquidity in electricity markets. The unique characteristics are discussed from a local, consumer centric and also from a system perspective bringing to life the ever changing paradigm for delivery energy to customers. Interoperability aspects and standards are discussed, as well as the consumer centric paradigm of Transactive Energy with IOT enabled flexibilities at system level, distribution networks and microgrids. The VILT course introduces the blockchain as a new line of defense against cyber threats and its increasing application in P2P transactions and renewable certificates. Our trainer's industry experience spans three decades with one of the largest Canadian utilities where she led or contributed to large operational studies and energy policies and decades of work with IEEE, NSERC and CIGRE. Our key expert also approaches to the cross sectional, interdisciplinary state of the art methodologies brings real life experience of recent industry developments. Training Objectives Innovative Digital Technologies How systems Facilitate Operational Flexibility on the Demand Side The Ecosystem of Demand Side Management Programs Advanced Machine Learning techniques with examples from CAISO Regulatory Policy Context and how to reduce regulatory barriers Industry Examples from NERC and ENTSO Relevant Industry standards: IEEE and IEC Manage Congestion with Distributed Operational Flexibilities: Grid to Distribution Controls; examples from NERC (NA) and ENTSO (Europe) Grid solutions with IEC 61850 communication protocols Decentralized grid controls The New Grid with accelerated V2G and Microgrids How DSM is and will be applied in Your System: Examples and discussions Target Audience Regulators and government agencies advising on public energy conservation programs All professionals interested in expanding their expertise, or advancing their career, or take on management and leadership roles in the rapidly evolving energy sector Energy professionals implementing demand side management, particularly in power systems with increased renewable penetration, to allow the much needed operational flexibility paramount to maintaining the reliability and stability of the power system and in the same time offering all classes of customers flexible and economical choices Any utility professional interested in understanding the new developments in the power industry Course Level Basic or Foundation Training Methods The VILT course 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. Course Duration: 5 half-day sessions, 4 hours per session (20 hours in total). Trainer Your first expert course leader is a Utility Executive with extensive global experience in power system operation and planning, energy markets, enterprise risk and regulatory oversight. She consults on energy markets integrating renewable resources from planning to operation. She led complex projects in operations and conducted long term planning studies to support planning and operational reliability standards. Specializing in Smart Grids, Operational flexibilities, Renewable generation, Reliability, Financial Engineering, Energy Markets and Power System Integration, she was recently engaged by the Inter-American Development Bank/MHI in Guyana. She was the Operations Expert in the regulatory assessment in Oman. She is a registered member of the Professional Engineers of Ontario, Canada. She is also a contributing member to the IEEE Standards Association, WG Blockchain P2418.5. With over 25 years with Ontario Power Generation (Revenue $1.2 Billion CAD, I/S 16 GW), she served as Canadian representative in CIGRE, committee member in NSERC (Natural Sciences and Engineering Research Council of Canada), and Senior Member IEEE and Elsevier since the 90ties. Our key expert chaired international conferences, lectured on several continents, published a book on Reliability and Security of Nuclear Power Plants, contributed to IEEE and PMAPS and published in the Ontario Journal for Public Policy, Canada. She delivered seminars organized by the Power Engineering Society, IEEE plus seminars to power companies worldwide, including Oman, Thailand, Saudi Arabia, Malaysia, Indonesia, Portugal, South Africa, Japan, Romania, and Guyana. Your second expert course leader is the co-founder and Director of Research at Xesto Inc. Xesto is a spatial computing AI startup based in Toronto, Canada and it has been voted as Toronto's Best Tech Startup 2019 and was named one of the top 10 'Canadian AI Startups to Watch' as well as one of 6th International finalists for the VW Siemens Startup Challenge, resulting in a partnership. His latest app Xesto-Fit demonstrates how advanced AI and machine learning is applied to the e-commerce industry, as a result of which Xesto has been recently featured in TechCrunch. He specializes in both applied and theoretical machine learning and has extensive experience in both industrial and academic research. He is specialized in Artificial Intelligence with multiple industrial applications. At Xesto, he leads projects that focus on applying cutting edge research at the intersection of spatial analysis, differential geometry, optimization of deep neural networks, and statistics to build scalable rigorous and real time performing systems that will change the way humans interact with technology. In addition, he is a Ph.D candidate in the Mathematics department at UofT, focusing on applied mathematics. His academic research interests are in applying advanced mathematical methods to the computational and statistical sciences. He earned a Bachelor's and MSc in Mathematics, both at the University of Toronto. Having presented at research seminars as well as instructing engineers on various levels, he has the ability to distill advanced theoretical concept to diverse audiences on all levels. In addition to research, our key expert is also an avid traveler and plays the violin. 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

Helpful tools and products used in the solar industry Residential installation tips Commercial solar installation examples Transformerless inverter installations Grid-tie with battery backup design and installation Off-grid design considerations Load side taps Grounding Ballasted roof top system design Ground mount design Custom racking Wiring methods New technologies Battery box construction

Unlock the potential of solar and thermal energy with our comprehensive course! Dive into the fundamentals of solar PV and thermal systems, master the design and installation process, explore energy storage and grid integration, and stay ahead with emerging solar technologies. Join us to gain the skills needed to contribute to a sustainable energy future.

Overview This comprehensive course on Solar Energy will deepen your understanding on this topic. After successful completion of this course you can acquire the required skills in this sector. This Solar Energy comes with accredited certification, which will enhance your CV and make you worthy in the job market. So enrol in this course today to fast track your career ladder. How will I get my certificate? After successfully completing the course you will be able to order your certificate, these are included in the price. Who is This course for? There is no experience or previous qualifications required for enrolment on this Solar Energy. It is available to all students, of all academic backgrounds. Requirements Our Solar Energy is fully compatible with PC's, Mac's, Laptop, Tablet and Smartphone devices. This course has been designed to be fully compatible with tablets and smartphones so you can access your course on Wi-Fi, 3G or 4G. There is no time limit for completing this course, it can be studied in your own time at your own pace. Career Path Having these various qualifications will increase the value in your CV and open you up to multiple sectors such as Business & Management, Admin, Accountancy & Finance, Secretarial & PA, Teaching & Mentoring etc. Course Curriculum 10 sections • 55 lectures • 11:44:00 total length •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 •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 •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 •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 •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: 00:29:00 •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 •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 •Module 1-Design Of Off Grid PV System Using Excel Sheet: 00:26:00 •Module 1- Single Line Diagram Of PV System And Selection Of Fuses And Breakers: 00:45:00 •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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