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Udemy – Generator Selection, Sizing, And Installation Guide

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Free Download Udemy – Generator Selection, Sizing, And Installation Guide

Published: 3/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 5.03 GB | Duration: 11h 18m
Learn to Select, Size, and Install Reliable Generator Systems for Industrial, Commercial, and Critical Applications.

What you'll learn

Understand the Importance of On-Site Generators – Learn why generators are essential for reliability, code compliance, and economic considerations.
Select the Right Generator Power Rating – Identify generator rating types (ESP, PRP, LTP, COP, DCC) and apply industry standards like ISO 8528-1.
Analyze Location Considerations – Evaluate indoor and outdoor placement, fuel storage, cooling, ventilation, and access for maintenance.
Size Generators for Various Loads – Determine generator capacity based on electrical load impact, UPS systems, motor loads, fire pumps, and medical equipment.
Design Electrical Systems for Generators – Understand LV/MV/HV configurations, paralleling options, reliability, and system protection strategies.
Implement Power Transfer & Distribution – Learn about automatic transfer switches (ATS), load sequencing, and utility-paralleled generators.
Manage Environmental & Site-Specific Factors – Address coastal, cold-weather, seismic, and high-altitude considerations for generator installations.
Ensure Compliance & Safety – Apply NEC, IEC, and other regulatory

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for grounding, selective coordination, and fault current protection.
Optimize Generator Performance & Efficiency – Understand load flow, power factor considerations, peak shaving, and energy efficiency strategies.
Requirements

Basic Electrical Knowledge – Understanding of electrical circuits, power distribution, and load calculations.
Familiarity with Power Systems – Basic knowledge of power generation, transmission, and distribution concepts.
Understanding of Generator Basics – Awareness of generator components, operation, and applications.
Experience with Load Calculations – Ability to analyze power demand, load types, and generator sizing factors.
Awareness of Safety Practices – Familiarity with electrical safety, grounding, and protection principles.
Basic Control & Automation Knowledge – Understanding of ATS, paralleling, and generator control systems.
Description

Hello Everyone,This course provides a comprehensive understanding of the essential principles behind selecting, sizing, and installing, reliable generator systems for various industrial, commercial, and critical applications. It covers the core concepts necessary for ensuring efficient and dependable power generation, focusing on both theoretical knowledge and practical skills.Learners will explore key topics such as the reasons for having on-site generators, including meeting building code

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and specific load demands. They will delve into generator power ratings, understanding the differences between Emergency Standby Power (ESP), Prime Rated Power (PRP), Limited-Time Power (LTP), and Continuous Operating Power (COP), with a focus on industry standards like ISO 8528-1.The course also addresses critical location considerations for both indoor and outdoor installations, covering factors like ventilation, fuel storage, cooling systems, noise management, and weather protection. Additionally, students will learn how to size generators based on electrical load impact, including UPS systems, motor loads, lighting, and medical equipment.In terms of system design, the course covers power distribution, paralleling generator sets, and ensuring seamless transfer between utility and generator power. The course also provides insights into compliance with safety standards and regulations, ensuring the continued reliability and efficiency of generator systems in any application.
Overview

Section 1: Reasons for Having On Site Generator
Lecture 1 Meeting Building Code

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Lecture 2 Economic Considerations
Lecture 3 Meeting Specific Load

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Section 2: Generator Power Ratings
Lecture 4 Types of Ratings to Consider When Specifying a Generator Set
Lecture 5 Industry Standard Ratings (ISO-8528-12005)
Lecture 6 ESP Emergency Standby Power
Lecture 7 PRP Prime Rated Power
Lecture 8 LTP Limited-Time Power
Lecture 9 COP Continuous Operating Power
Lecture 10 Generator Set Rating Example
Lecture 11 Data Center Continuous (DCC) Rating
Lecture 12 Generator Overload Capability
Lecture 13 Power Factor and Generator Set Ratings
Section 3: Location Considerations
Lecture 14 Introduction: Location Considerations
Lecture 15 (Indoor & Outdoor) Generator Mounting Considerations
Lecture 16 (Indoor & Outdoor) Location of Distribution Switchboard and Transfer Switches
Lecture 17 (Indoor & Outdoor) Branch Circuits for Generator Locations
Lecture 18 (Indoor & Outdoor) Fuel & Coolant Containment for Generator Locations
Lecture 19 (Indoor & Outdoor) Access & Workspace for Major Maintenance
Lecture 20 (Indoor & Outdoor) Access for Load Bank Testing
Lecture 21 Outdoor Location Considerations Noise Management
Lecture 22 Outdoor Location Considerations Weather Protection
Lecture 23 Outdoor Location Considerations: Cold Weather Operation Considerations
Lecture 24 Outdoor Location Considerations Coastal Region Considerations
Lecture 25 Outdoor Location Considerations: Service Access for Major Repairs & Overhauls
Lecture 26 Outdoor Location Considerations: Security Fences & Sight Barriers
Lecture 27 Outdoor Location Considerations: Grounding

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Lecture 28 Outdoor Location Considerations Lightning Protection
Lecture 29 Indoor Location Considerations: Dedicated Generator Room
Lecture 30 Indoor Location Considerations: Fire Rating of Room Construction
Lecture 31 Indoor Location Considerations: Working Space
Lecture 32 Indoor Location Considerations: Type of Cooling System
Lecture 33 Indoor Location Considerations Ventilation Considerations
Lecture 34 Indoor Generator Location Considerations: Engine Exhaust
Lecture 35 Indoor Generator Location Considerations: Fuel Storage and Piping
Lecture 36 Indoor Generator Location Considerations: Temporary Load Bank Connection
Lecture 37 Indoor Generator Location Considerations: Accessibility
Lecture 38 Rooftop Installations Considerations
Lecture 39 Coastal Environment Considerations
Lecture 40 Arid/Dusty Climates Considerations
Lecture 41 Altitude Considerations
Section 4: Electrical Load Impact on Generator Sizing
Lecture 42

Overview

of Electrical Load Impact on Generator Sizing
Lecture 43 Mandated vs. Optional Applications
Lecture 44 Code-Mandated Applications
Lecture 45 Optional Standby Systems
Lecture 46 Prime and Continuous Duty Generators
Lecture 47 Load Running and Starting

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Lecture 48 Load Step Sequencing
Lecture 49 Lighting Loads
Lecture 50 Air Conditioning Loads
Lecture 51 Motor Loads: Low- and High-Inertia Loads
Lecture 52 Motor Loads Over 50 HP
Lecture 53 Uninterruptible Power Supply (UPS) Loads
Lecture 54 Battery Charger Loads
Lecture 55 Medical Imaging Equipment (X-ray, CAT Scan, MRI)
Lecture 56 Fire Pump Applications
Lecture 57 Regenerative Power in Generator Applications
Lecture 58 Power Factor Considerations
Lecture 59 Single-Phase Loads and Load Balance on Three-Phase Generator Sets
Section 5: Electrical Design
Lecture 60 Typical Low Voltage System Configurations
Lecture 61 Paralleling Generators
Lecture 62 Single Set Power Transfer Scheme
Lecture 63 Serving Multiple Buildings with a Single Generator System
Lecture 64 MV or HV Generator Systems
Lecture 65 Simple MV/HV Generator Scheme for Prime Power Installation
Lecture 66 HV/MV Scheme for Large Installations
Lecture 67 Using an LV Generator in an MV Application
Lecture 68 Single vs. Parallel Generators
Lecture 69 Reliability in Paralleling Generators for Critical Applications
Lecture 70 Performance Benefits of Paralleling Generators
Lecture 71 Cost Considerations Single vs. Paralleled Generators
Lecture 72 Generator and Room Size Single vs. Paralleled Generators
Lecture 73 Efficiency A Key Factor in Parallel Generators Operation
Lecture 74 Load Considerations Single vs Parallel Generators
Lecture 75 Risks Associated with Parallel Operation of Generator Sets
Lecture 76 No-Break Changeover Between Utility and Generator Power
Lecture 77 Generators for Peak Shaving & Peaking Duty
Lecture 78 Protection for Utility-Paralleled Generators
Lecture 79 Maximum Available Fault Current (Imafc) in Paralleling System
Lecture 80 Load Flow Analysis
Lecture 81 Anti-Islanding Protection
Lecture 82 Power Distribution
Lecture 83 Selecting a Distribution System
Lecture 84 Example Power Generation in Large Industrial System
Lecture 85 Electrical Connections - Vibration Isolation
Lecture 86 Generators in Seismic Areas
Lecture 87 Control Wiring for Generators
Lecture 88 Accessory Branch Circuits for Generators
Lecture 89 AC Power Conductors for Generators
Lecture 90 Voltage Drop in AC Circuits
Lecture 91 Generator System Grounding
Lecture 92 Selective Coordination
Lecture 93 Considerations for Sizing a Main-Line Generator Circuit Breaker
Lecture 94 Considerations for Starting Single-Phase Motors on a Generator
Lecture 95 NEMA Code Letters & Motor Starting Characteristics
Lecture 96 Starting Power Factor for Motors
Lecture 97 Generator Sizing Considerations for UPS Loads
Lecture 98 Procedure for Sizing a Generator for a Static UPS Load
Electrical Engineers & Designers – Design generator systems for industrial, commercial, and critical facilities, including MV/HV applications and distribution.,Facility Managers & Operators – Manage power infrastructure, ensure compliance, reliability, and efficiency in data centers, hospitals, and industrial sites.,Consulting & Design Engineers – Specify generators for projects, evaluate sizing, power distribution, system reliability, and compliance with industry standards,Contractors & Technicians – Handle generator setup, commissioning, control wiring, grounding, troubleshooting, and scheduled maintenance tasks.,Data Center & IT Specialists – Manage power reliability, generator sizing for UPS loads, IT infrastructure, and backup power strategies in data centers.,Utility & Power System Engineers – Work with grid-connected generators, peak shaving, fault current analysis, anti-islanding protection, and system coordination,Regulatory & Compliance Officers – Ensure compliance with building codes, fire safety, seismic, environmental regulations, and industry standards like ISO 8528

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