BEGIN:VCALENDAR VERSION:2.0 PRODID:-//wp-events-plugin.com//7.2.3.1//EN BEGIN:VEVENT UID:1180@x8ti.com DTSTART;TZID=Europe/Paris:20250811T090000 DTEND;TZID=Europe/Paris:20250822T130000 DTSTAMP:20241217T205719Z URL:https://x8ti.com/event/electrical-power-system-protection-and-switchge ar-3/ SUMMARY:Electrical Power System Protection and Switchgear DESCRIPTION:Introduction\nPower systems can experience deficiencies due to inadequate insulation or other external factors. When a fault occurs\, it can destabilize the system. In more complex systems\, it's crucial to pinp oint the fault accurately and isolate only the affected segments\, allowin g the rest of the system to function normally. This course covers the prev ention\, detection\, and correction of electrical faults efficiently. It i ncludes practical exercises and demonstrations combined with technical con cepts of electrical power system protection and switchgear.\nLearning Obje ctives\nUpon completing this course by Xcelerate Training Institute\, part icipants will be able to:\n\n Identify instrument transformers for protec tion applications.\n Understand protective relaying perspectives and sele ct appropriate protection plans.\n Design a synchronized overcurrent prot ection system for radial distribution.\n Understand the operation of elec tromechanical relays and their microprocessor equivalents.\n Develop prot ection schemes using pilot protection with differential and distance relay s.\n\nTraining Methodology\nThis interactive training program includes:\n\ n Lectures\n Videos\n Seminars &\; Presentations\n Group Discussion s\n Demonstrations\n Assignments\n Case Studies &\; Functional Exerc ises Following the ‘Do-Review-Learn-Apply’ model.\n\nBenefits for Your Organization\nOrganizations can benefit from:\n\n Reducing unnecessary p ower system downtimes.\n Obtaining customized solutions to address equipm ent issues.\n Adopting trusted settings for trip circuit breakers and rel ays.\n Enhancing coordination between devices and identifying deficiencie s in system protection.\n Adhering to national electric code requirements and ANSI/IEEE specifications.\n\nBenefits for You\nParticipants will gain :\n\n Knowledge of different parts of protection systems.\n Fundamentals of electrical power security.\n Ability to set up basic relay settings i ndependently.\n Understanding of various fault types.\n Skills to perfor m basic fault and design calculations.\n Ability to select appropriate pr otection tools for different equipment.\n Insight to justify and improve protection systems in their current plant.\n Enhanced decision-making ski lls for electrical power system protection.\n Improved safety policies at their site.\n\nTarget Audience\nThis course is suitable for:\n\n Electri cal Engineers\, Supervisors\, or Technicians responsible for electrical pr otective gear.\n Engineers and technicians new to the power industry.\n Employees tasked with evaluating the effectiveness of security schemes.\n Intermediate-level engineers and technicians responsible for power system protection.\n Engineers and consultants managing security studies.\n Pr ofessionals developing protection schemes for system reliability.\n\nCours e Outline\nOverview of Power Systems\n\n Electrical distribution system\n Basic circuit breaker design and protection introduction\n Reading sing le line diagrams\n Phasor math\n LV\, MV\, and HV equipment\n Per-unit calculations\n Symmetrical components\n Functions and types of electrica l switchgear\n Sequence networks\n\nFundamentals of Protection in Power S ystems\n\n Basic requirements and components\n Need for protective appar atus\n Microprocessor-based relay implementation\n Instantaneous and tim e overcurrent relays\n Electromechanical relay operating principles\n De vice coordination\n\nCategories of Faults and Short Circuit Currents\n\n Symmetrical units\n Unbalanced faults and earth faults\n Short circuit M VA calculation\n Simple distribution system development\n Equivalent dia grams for system impedance reduction\n Fault types\, effects\, and calcul ations\n\nSystem Earthing and Earth Faults\n\n Effects of electric shock on humans\n Sensitive earth leakage protection\n Phase and earth faults\ n Comparison of earthing methods\n System classification\n Protective e arthing\n\nCircuit Breakers with Built-in Protection\n\n Circuit breakers with integrated protection\n Conventional and electronic releases\n Fus e characteristics\, ratings\, and selection\n Performance under fault con ditions\n Protective relay-circuit breaker combination\n\nRelays and Auxi liary Power Apparatus\n\n Construction and operation of protective relays \n Communication capabilities\n Factors influencing plug setting choices \n Reasons for breakers and contractors failing to trip\n Universal micr oprocessor overcurrent relay\n Future of protection for distribution syst ems\n Necessity of consistent auxiliary power for protection systems\n T echnical features of modern microprocessor relays\n Trip circuit supervis ion\n Capacity storage trip units\n\nProtection Classification and Relay Coordination\n\n Design considerations of MV and LV networks\n Basis of selectivity\n Time-current grading\n Coordination between transformer ci rcuits\n Importance of settings and coordination curves\n\nUnit Security and Functions\n\n Recommendations and advantages of unit protection syste ms\n Protective relay systems\n Differential protection\n Main\, unit\, and backup protection\n Machine\, transformer\, and switchgear protectio n\n Feeder pilot-wire protection\n\nSafety of Feeders and Lines\n\n Use of carrier signals in line protection\n Overcurrent and earth fault prote ction\n Unit and impedance protection of lines\n Auto-reclosing relays f or transmission and distribution lines\n DMT and IDMT arrangements for la rge systems\n Use of auto-reclosing to reduce outage time\n\nProtection o f Machinery\n\n Basics of motor protection\n Introduction to generator p rotection\n Transient and steady-state temperature rise\n Typical protec tive settings for motors\n Thermal time constant\n Unbalanced supply vol tages and rotor failures\n\nThe Future\n\n Advances in protection: microp rocessor\, static\, and conventional\n Personal protective equipment (PPE )\n Intelligent sectionalizing\n Shock hazard versus burn/blast hazard\n Hazard labeling\n IEEE 1584 and NFPA 70E\n Communication-based overcur rent protection\n\n \; ATTACH;FMTTYPE=image/jpeg:https://x8ti.com/wp-content/uploads/2024/12/7ecc 3590-52af-4df7-9aa4-22f28aa1c9e7.jpg CATEGORIES:Electrical Engineering LOCATION:Paris Training Courses\, Maison Colbert Meliá Collection\, Paris\ , France\, France X-APPLE-STRUCTURED-LOCATION;VALUE=URI;X-ADDRESS=Maison Colbert Meliá Colle ction\, Paris\, France\, France;X-APPLE-RADIUS=100;X-TITLE=Paris Training Courses:geo:0,0 END:VEVENT BEGIN:VTIMEZONE TZID:Europe/Paris X-LIC-LOCATION:Europe/Paris BEGIN:DAYLIGHT DTSTART:20250330T030000 TZOFFSETFROM:+0100 TZOFFSETTO:+0200 TZNAME:CEST END:DAYLIGHT END:VTIMEZONE END:VCALENDAR