Basic School

Advanced School

Basic School Modules

BASIC ELECTRICITY

This module will review fundamental electrical concepts and provide students who have little or no knowledge of electricity, electrical and magnetic circuit concepts and how they’re applied to power generation. Covers resistance, impedance, Ohm’s Law, AC and DC circuits, rectification, Faraday’s Law, magnetism, electromagnetism, electromagnetic induction, different load types, linear and non-linear loads, capacitance, reactance, real and apparent power, power factor and load banking. (3 Hrs)

PRIME MOVERS

This session provides information on the basic types of prime movers found in On-Site Generator applications, and then focuses on reciprocating internal combustion engines. Students will gain an understanding of the two and four-stroke cycles that are the basis of engine operation. Further topics include sparkignited (gaseous) and compression-ignited (diesel) engines and their internal components; fuel, lubrication, cooling and exhaust systems; engine ratings; mechanical to electrical power and fuel consumption calculations. (3 Hrs)

INTRODUCTION TO GENERATORS/ALTERNATORS

This module is an introduction to the general design and functions of rotating AC electric generators. Major topics covered include electrical safety; types of electric generating systems; definitions and descriptions of the wound components of an AC generator, including discussions of generator fields and armatures; the generation and frequency of the AC voltage wave form; exciters and excitation support systems. The instructor will also cover types and criteria of AC generators; design, including discussions of armature design features; generated harmonics and the methods of connection of both three-phase and single-phase armatures. (2 Hrs)

STARTING SYSTEMS

This module provides an overview of electrical start systems; general electrical sizing parameters; environmental considerations, and battery technologies commonly deployed to start engines or turbines. Topics include: parameters required to size electrical start systems; the effect of environmental conditions on battery performance and life; features, benefits and modes of failure of traditional battery technologies; dual battery starting systems with best battery selectors; and installation, maintenance and replacement best practices. (2 Hrs)

INTRODUCTION TO AUTOMATIC VOLTAGE REGULATORS

This section of the program covers the basic theory of operation for the voltage regulator, and its application and selection, for a synchronous generating system. It also includes a discussion of special regulator applications and the use of excitation accessories and control devices for improved performance and protection. (2 Hrs)

INTRODUCTION TO GOVERNORS/SPEED & LOAD CONTROLS

Today’s generator sets demand the best in frequency control. Although not obsolete, mechanical governors have given way to either the electrohydraulic or the all-electric governor, depending on the size of the set. In addition to covering basic engine governing, this session also covers electronic isochronous load sharing and automatic synchronizing. Utility paralleling, with its special considerations, is also covered. (2 Hrs)

INTRODUCTION TO TRANSFER SWITCHES

This module provides an overview of the definition and purpose of manual and automatic transfer switches, typical installations, applicable codes and standards and where they are applied in the on-site power system. The module will cover general reliable design concepts, operation, ratings and various switching configurations including Bypass-Isolation Switches. (2 Hrs)

LOAD BANK FUNDAMENTALS

Load Banks are a critical component for proper, reliable power system operation. This training session will expose the student to the different types of load banks, their applications, and will detail how a load bank tests a power source. This training module will also address the important topics of load bank safety and best practices. (1 Hrs)

GENERATOR SYSTEM INSTRUMENTATION

This module will define and describe the instrumentation required to monitor and control the operation of On-Site Power Systems. (2 Hrs)

CODES AND STANDARDS

On-Site Power systems and their installation must meet various codes and standards. This module reviews the codes related to these systems. You will learn the background for these standards as well as requirements for when and where they are needed, how generators must be installed, tested and maintained. Typical standards covered are issued by NFPA (National Fire Prevention Association), IEEE (Institute of Electrical and Electronic Engineers), UL (Underwriters Laboratories), ISO (International Standards Association) and others. (1 Hrs)

GENERATOR SET SYSTEMS: PUTTING THE PIECES TOGETHER

This session addresses practical, environmental and economic considerations in sizing and installing power systems from the perspective of sales and service personnel. Topics include determining a customer’s power requirements; basic load characteristics and their effects on generator set sizing; selecting the right engine and generator for the application and the types of fuel recommended and available; the accessories that should be included; selecting the right location for the set. Special emphasis will be placed on Installation, Testing and Commissioning of the system. (2 Hrs)

UNDERSTANDING BID AND SPECIFICATION DOCUMENTS

This session is designed for students with a solid understanding of on-site power systems that seek a basic understanding of the specification and bid process as it relates to the industry. Class work includes analyzing a sample set of plans and specifications. With these documents, students learn the roles of the individuals and companies that influence the design process. In addition, students will learn to identify the various documents, codes and standards used by engineers, contractors and others. (2 Hrs)

NOTICE: EGSA reserves the right to change the content, sequencing and any other aspect of the EGSA George Rowley School of On-Site Power Generation at any time, and without notice.

Advanced School Modules

ADVANCED GENERATORS/ALTERNATORS

Understanding generator systems begins with understanding the alternator, commonly called the generator. This module presents the construction of the generator and its subsystems, operational theory and limitations and precautions required to keep it operating safely. The electro-mechanical components of the excitation system will be covered along with advantages and disadvantages of various excitation methods. Winding pitch will be discussed along with its importance to the system. The student will learn how to easily calculate the maximum short circuit available from a generator and its importance. We will cover possible consequences of power system faults and how to develop a maintenance and prevention plan. (3.5 Hrs)

GENERATOR SET AND CRITICAL POWER SYSTEM CONTROLS

Once the Alternator is combined with a Reciprocating Internal Combustion Engine (RICE) and becomes a generator set, automation is required for safe and reliable operation. This module will examine the control systems of the modern generator set, from the prime mover throttle to the kilowatt output, to maximize operational functionality and flexibility of the complete power system. Various Control Theories and Modes of Operation, including PID theory for closed loop control systems, the effects of power system faults, the role of the Dedicated Purpose Controller and the Programmable Logic Controller, Base Load, Peak Shaving, Load Management, Grid Support, and Fuel Optimization will be discussed in detail. The module wraps up with a look at industry trends and the effects on the future of the power generation business. We will discuss the Smart Grid and the importance RICE Distributed Generation will be to the grid in the future. (3 Hrs)

GENERATOR AND SYSTEM PROTECTION

The effects of a catastrophic electrical fault can cause loss of life and cost millions of dollars in damaged equipment and forced outages. During this two part series on protective systems, the student will be presented information on common electrical problems and the solutions most commonly used to minimize or protect equipment from damage. Circuit Breakers, Protective Relays, Current Transformers, and other equipment used to control power systems will be discussed. Positive Sequence, Negative Sequence, and Zero Sequence voltages and currents will be defined, and their importance to the art and science of protective relay application, discussed. Ground Fault Detection and Protection will be discussed and applied to generator protection as well as system protection. We will study commonly utilized protective relays for protection of the engine, the generator and the complete power system. (3 Hrs)

ADVANCED AUTOMATIC VOLTAGE REGULATORS (AVRs)

This session will provide an understanding of some of the more complex issues associated with controlling the voltage of a generator. It takes the student past the basic understanding of the AVR and into the actual application and commissioning of voltage regulators. Topics include basic automatic voltage regulator functionality; stability vs. transient response; paralleling generators - islanded: paralleling generators – utility: commissioning voltage regulators; troubleshooting; offline problems and troubleshooting online problems. (3 Hrs)

ADVANCED GOVERNORS/SPEED AND LOAD CONTROLS

Increased engine governing capabilities are achieved with modern generators by utilizing electro-hydraulic and the all-electric actuator with programmable digital controls. This module will focus on engine governing with electronic controls, including governorprogramming concepts and processes. It will also cover electronic isochronous load sharing and governing principles of gaseous fuel-powered generators. (3 Hrs)

(Students may wish to bring their laptops to this module in order to participate in a generator set simulation, demonstrating generator paralleling and load sharing.) 

ADVANCED TRANSFER SWITCHES

This module provides a more in-depth description of transfer switches, with discussion of applications such as Closed-Transition, Delayed-Transition, Service Entrance Rated Switches, Soft Load Switches, motor load transfer, neutral conductor considerations and remote communication systems. (2.5 Hrs)

MULTIPLE GENERATOR PARALLELING SWITCHGEAR

This session covers synchronization of multiple sources of power, such as generators and utilities. The differences between switchgear and paralleling switchgear are defined, as well as where and why these systems are used. Standards for design, manufacturing and installation are detailed, emphasizing engineering considerations that impact systems configuration and the sequence of operation. (2.5 Hrs) 

ENGINE EMISSIONS

This module discusses the main pollutants emitted from engine exhaust, their effects on the environment and current methods of reduction. Topics covered include emissions regulations; how pollutants are created during combustion and pollution reduction solutions before, during and after combustion. Post combustion technologies including SCR, Diesel Particulate Filters and Oxidation Catalysts will be examined. (3 Hrs)

NOISE CONTROL

The Noise Control module covers a broad and in-depth overview of important soundrelated issues and concepts. The module is presented in 5 sections: 

1. Basic Acoustics covers logarithmic nature of hearing and the decibel; the weighting curve; relative loudness; sound power vs. sound pressure; noise behavior vs. frequency; predicting the effects of distance and reflection on sound attenuation; and how to apply the inverse square law. 
    
2. Mechanical Noise covers sources of mechanical noise and their noise signatures; fundamentals of enclosures; and properties of noise at enclosure openings. 
    
3. Engine Exhaust Noise covers characteristics of raw engine exhaust noise; silencer types and styles; insertion loss performance; design and validation of exhaust systems.
    
4. Airflow Generated Noise covers characteristics of fan and airflow noise and the concept of volume flow, velocity and pressure differential.
    
5. System Review covers the effects of noise from multiple sources; responsibility for compliance; writing proper noise control specifications and noise measuring techniques. (2 Hrs)

COMMUNICATIONS

This module will include in-depth examination of data communication techniques in modern reciprocating engine powered generator sets. The session will cover generator level data, derived from the Generator Set Control, and also engine-level data derived from the Engine Control Unit (ECU). Modbus communication will be covered, including the hardware variants of RS232, RS485 and TCP/IP. The ECU segment, J1939 CANbus will be discussed. Remote communications techniques, including cellular, satellite, and Ethernet TCP/IP, will also be covered. Security risks and benefits of network-connected generators will also be reviewed. (3 Hrs)

ADVANCED GENERATOR SYSTEMS: SIZING TO SERVICE

This session addresses specific considerations in sizing and installing power systems from the perspective of a design professional or advanced sales and service personnel. Topics include determining a customer’s power requirements; an in-depth explanation of load types; characteristics and staging and their effects on generator set sizing and performance; selecting the right engine and generator for the application and what type of fuels should be recommended; environmental variables; noise and sound abatement and the associated impact on cost; selecting the right location for the set; and specific installation considerations and requirements, start up and service; and national code relevance and compliance. (3 Hrs)
 

NOTICE: EGSA reserves the right to change the content, sequencing and any other aspect of the EGSA George Rowley School of On-Site Power Generation at any time, and without notice.

Instructors for the EGSA Rowley Schools of On-Site Power Generation come from these leading firms:

ASCO Power Technologies by Schnieder Electric
Basler Electric Co.
Caterpillar, Inc.
Chillicothe Metal Co.
Girtz Industries          
Governor Control Systems, Inc.
Omnimetrix, LLC.
Onsite Power, Inc.
Power Telematics, Inc.
Smith Power Products, Inc.
 

Basic School
Perfect for staff new to the power generation industry or someone who needs an introduction to the basic concepts and technologies, this school is appropriate for students seeking a foundation in generator technology. Whether you are in project management, sales, marketing or administration, you will find great value in this course! The Basic School is a generalized, yet technical, overview of On-Site Power.

Advanced School
Compared to the Basic School, expect our highly skilled and knowledgeable instructors to go into depth on subjects like paralleling, speed and load control, generator protection, voltage regulation and more. The Advanced curriculum is recommended for technical personnel. If you have more than three years in the Industry and need to sharpen your system equipment technical skills, then our Advanced School is right for you!

(Note: Attending the Basic School prior to attending the Advanced School is encouraged.)

Registering for the school is easy, find the school that you want to attend in our Events calendar and click on the name of the school.  Inside you will find hotel and registration information for that school. 

Be sure to register early as our classes have a maximum capacity of just 40 students and tend to fill up fast.
 

By registering for an EGSA School, you reserve a seat and receive all the session handouts including On-Site Power Generation: A Comprehensive Guide to On-Site Power.  Your registration fee also includes coffee and beverages and a hot buffet lunch each day.  

Please note your registration fee DOES NOT include transportation/travel to and from the school, hotel/lodging, and meals (other than the provided lunches). 

Nothing! You’ll receive a link to download all the handouts and attendees to in-person schools will recieve a physical copy of the 5th Edition reference book, On-Site Power Generation: a Comprehensive Guide to On-Site Power.

(Students may bring a laptop, but it is not required.)

EGSA Power Schools are classroom based schools. You will not physically interact with any equipment while attending the school so business casual is encouraged. We also suggest that you bring a jacket in case the classroom temperature varies.

Our schools provide a broad technical overview of On-Site Power Generation Systems that might be helpful to technicians as they prepare to take the EGSA Technician Certification Test. However, they do not substitute for the in-depth practical skills and theoretical knowledge needed to pass the Certification Exam (acquired through field experience, on-the-job training, other educational experiences, etc.).
 

We can do that!  Looking for a cost effective way to get all of your staff up to speed on power generation all at once? Need to introduce basic principles of on-site power to your team? EGSA will work with you to provide the most appropriate training for your education dollars!

An introduction to On-Site Power Generation is certainly beneficial to new employees and people new to the industry. And we can select from the 19 Basic and Advanced school modules for your core program. See the questions above about what is taught in each school for an overview of available modules.

The school comes to you!

• Save the cost of the transportation, accommodation and meal expenses of sending employees to a regular Rowley School
• Have more people trained at one time
• No need to take your most experienced staff off their work to train others
• Our modules are taught by experienced industry experts
• The schools are non-brand specific
• No lost travel time to a regular Rowley School
• Customized courses available
• Continuing Education Unit (CEU) tests are available
• Our classrooms offer great interaction between the students and instructors.

An in-house school will enable you have more people efficiently trained. If you have members in your team that could use more knowledge…we have the expert instructors. 

If you only have a small team, then use our Rowley Schools to increase the knowledge level within your organization. But sign up soon; class sizes are limited to 40 people.

Questions? Send an email to Nathan Harris, EGSA Director of Education

Education has always been a key area of focus for our Association. George Rowley took the helm of EGSA’s Education Program as its Director in 2001. With a Masters Degree in Education, and a background in Healthcare, he adapted very quickly to the power generation industry. He once said in a letter to members: “I didn’t know a volt from a watt when I first came onboard!” Through his collaboration with the Education Committee as well as other members, he was able to develop and take our education program to unforeseen levels. It is through this hard work and dedication that EGSA’s education program took shape resulting in the 2-tiered program that now bears his name.