BEGIN:VCALENDAR VERSION:2.0 PRODID:-//wp-events-plugin.com//7.2.3.1//EN BEGIN:VEVENT UID:1318@x8ti.com DTSTART;TZID=America/Toronto:20250922T090000 DTEND;TZID=America/Toronto:20251003T130000 DTSTAMP:20241221T111055Z URL:https://x8ti.com/event/modern-power-system-analysis-and-protective-rel aying-training-course-4/ SUMMARY:Modern Power System Analysis and Protective Relaying Training Cours e DESCRIPTION:Introduction\nThe safety of low\, medium\, and high voltage pow er systems requires understanding system faults\, detecting them\, and ens uring their protected disconnection from the power grid. This course provi des a comprehensive overview of the theories\, principles\, and applicatio ns of protection schemes for various power system elements\, including fee ders\, transformers\, motors\, buses\, and generators.\n\nIt explores powe r system faults and the requirements for protection schemes to detect and manage these faults. The course covers practical aspects such as testing a nd coordination of protection systems and is tailored for industries and u tility corporations reliant on proper system protection for operational ef ficiency.\nLearning Objectives\nUpon completing this Modern Power System A nalysis and Protective Relaying course by Xcelerate Training institute\, p articipants will be able to:\n\n Understand operational principles and ty pes of electrical protection.\n Study the design of various types of rela ys.\n Select appropriate protection relays and related devices.\n Develo p and analyze typical power systems and associated protection systems.\n Design protection schemes.\n Analyze numerical relay protection for gener ators\, transformers\, motors\, and transmission lines.\n Establish commu nication between protection devices and controllers.\n Identify motor fau lts and protect them from hazards.\n Determine fault levels and loadings of feeders and branches.\n\nTraining Methodology\nThis collaborative train ing program includes:\n\n Lectures\n Seminars &\; Presentations\n Gr oup Discussions\n Assignments\n Case Studies &\; Functional Exercises Following the ‘Do-Review-Learn-Apply’ model.\n\nBenefits for Your Org anization\nOrganizations can benefit from:\n\n Ensuring a workable select ion of protection functions and relay types for different operational scen arios.\n Executing effective relay protection settings for separate zones .\n Developing a structured method and understanding of key protection sc hemes.\n Confirming safe operation of electrical equipment and installati ons.\n Familiarity with testing and measuring instruments.\n Computing f ault levels and potential fault current in transformers.\n\nBenefits for Y ou\nParticipants will gain:\n\n Expertise in power system analysis\, incl uding load and fault studies.\n Understanding of the role of protective r elaying.\n Knowledge of theoretical concepts and practical equations of p ower system protection.\n Ability to perform analysis and design of prote ction logic and schemes.\n Skills to evaluate relay functions\, applicati ons\, and coordination.\n Recognition of the complexity of power system s witching and operation\, with proposed solutions for protection.\n Enhanc ed skills for further qualifications in the field of modern power system a nalysis and protective relaying.\n\nTarget Audience\nThis course is ideal for:\n\n System Operators\n Project Engineers\n Design Engineers\n Ass et Engineers\n Project Managers\n Planning Engineers\n Planning Manager s\n Electrical Engineers\n Electrical Technicians\n Asset Managers\n C ommissioning Engineers and Technicians\n Protection and Instrumentation E ngineers\n\nCourse Outline\nPower System and Electrical Equipment Introduc tion\n\n Basic concepts of electrical engineering\n Three-phase power sy stems\n Voltage levels (low/medium/high)\n One-line and three-line diagr ams\n Generation system layout\n Transmission system layout\n Substatio n system layout\n Distribution system layout\n Industrial switchgear\n Switchgear and protection functions\n\nElectrical Power System Faults\n\n Types of faults\n Incidence of faults on power system equipment\n Effec ts of power system faults\n Magnitude of fault current\n Short circuit c urrent calculation\n Positive\, negative\, and zero sequence systems\n F ault detection\n Fault clearance\n Requirements of protective relaying s ystems\n Electrical equipment damage curves\n\nCoordination of Electrical Protection Systems\n\n Circuit breaker to fuse coordination\n Fuse to c ircuit breaker coordination\n Software packages for protection coordinati on studies\n Auto-reclosing of circuit breakers\n Backup protection\n F ault current limitation\n Selective zones of protection\n\nComponents of Power System Protection Schemes\n\n Historical fault detecting relays\n Tripping relays and auxiliary relays\n Circuit breakers\n Microprocessor -based relays\n Modern protective relaying case studies\n Types of CTs\, VTs\, and CVTs\n CT theory and characteristics\n CT application require ments for protective relaying\n Accuracy classifications\n Testing of CT s and VTs\n\nMotor Protection\, Starting\, and Control\n\n Applicable mot or standards\n Starting methods\n Differential protection\, phase unbala nce\, overcurrent\n Ground fault protection\n Microprocessor-based motor control and protection devices\n\nProtective Devices and Earthing Systems \n\n Protection zones and time-current characteristic curves\n Fuse type s\, applications\, selection\, and coordination\n Digital and numerical r elay functionalities\n Ungrounded vs. grounded systems\n\nFeeder Overcurr ent and Earth Fault Protection\n\n Feeder protection merits and character istics\n IDMT O/C &\; E/F protection\n Definite time (DT) protection\ n High-set instantaneous protection\n Transient overreach\n Relay setti ngs\n\nTransformer Digital and Differential Protection\n\n Transformer pr otection\n Transformer unit protection\n Buchholz and pressure relief op erations\n Complexities and solutions in transformer differential protect ion\n Unit and non-unit transformer protection\n Digital transformer pro tection systems\n\nGenerator Protection\n\n Over-frequency\, underfrequen cy\, overvoltage\, undervoltage protection\n Negative phase sequence or p hase unbalance\n Voltage controlled and voltage restricted overcurrent pr otection\n Synchronizing systems and synchro-check relays\n Comparison o f electromechanical and electronic relays\n Testing generator protection schemes\n Microprocessor-based multi-function generator protection relays \n Interpreting generator capability curves\n\nDirectional Protection and Capability Curve\n\n Faults and protection features\n Protection overvi ew\n Differential protection\n Overall protection\n Full protection wit h numerical relays\n\nBusbar Protection and Distance Protection for Overhe ad Lines\n\n Digital busbar protection schemes\n High impedance busbar p rotection\n Frame leakage protection\n Line distance protection\n Line differential protection\n\nCogeneration and Non-Utility Generation (NUG) P rotection\n\n Non-utility generating stations\n NUG interconnection to u tility power systems\n Typical protection schemes for NUGs\n Low-cost mu lti-function relays for small generators\n Breaker failure protection\n Testing utility tie protection schemes\n\nTransmission Line Protection\n\n Distance or impedance protection schemes\n Phase comparison protection schemes\n Communication channel requirements between terminals\n Coordin ation and transfer-tripping between terminals\n\nCapacitor Protection\n\n Static capacitor applications in power systems\n Protection schemes for capacitors\n Testing capacitor protection schemes\n Microprocessor-based capacitor protection and controls relays\n\nLatest Developments and Futur e Trends in Protective Relaying\n\n Digital relays\n Integrated micropro cessor-based systems for protective relaying\n Optical current transforme rs\n Fiber optic communications\n\n \; ATTACH;FMTTYPE=image/jpeg:https://x8ti.com/wp-content/uploads/2024/12/6683 b21d-b9bf-4ed7-b260-ff2c7fd6a68b.jpg CATEGORIES:Electrical Engineering LOCATION:Boston Training Courses\, Boston Harbor Hotel\, Boston\, USA\, Uni ted States X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Boston Harbor Hotel\, Bosto n\, USA\, United States;X-APPLE-RADIUS=100;X-TITLE=Boston Training Courses :geo:0,0 END:VEVENT BEGIN:VTIMEZONE TZID:America/Toronto X-LIC-LOCATION:America/Toronto BEGIN:DAYLIGHT DTSTART:20250309T030000 TZOFFSETFROM:-0500 TZOFFSETTO:-0400 TZNAME:EDT END:DAYLIGHT END:VTIMEZONE END:VCALENDAR