LEARN FROM INSTRUCTORSWHO PRACTICEWHAT THEY TEACH

ElectricalEngineering

FALL 2011

C o n t i n u i n g E d u c a t i o n

SCE-ENG.UWM.EDU

Results-Driven CoursesReal-Life Engineers

Welcome to the UWM School of Continuing Education (SCE), where you’ll gain the knowledge to maximize productivity, efficiency and innovation in the field of Electrical Engineering.

You’ll use your new skills to make an immediate impact at your job. How do we know?Because our instructors use them too!

SCE instructors are real-life engineers seasoned with real-life experience in the field they teach. From substation design to understanding power systems, they provide you with a range of strategies proven for success.

For more details and to learn how we can bring courses onsite to you, contact me at 414-227-3121 or mvedula@uwm.edu.

Sincerely,

Murali Vedula, Engineering Program DirectorUWM School of Continuing Education • sce-eng.uwm.edu

MURALIVEDULAProgram Directormvedula@uwm.edu 414-227-3121

Dr. Murali Vedula worked in engineering at DowChemical Company and Structural CompositesIndustries for several years before joining UWM in1997. Dr. Vedula uses his engineering knowledgeto identify professional development needs,including elastomer and plastics technology,electrical engineering, innovation, mechanical andindustrial engineering, and Six Sigma. In add ition,he created an Office Lean certificate program andhas been involved with internal Lean training. Hecurrently serves on the Board of the Society ofPlastics Engineers Milwaukee Chapter.

MARCIAGABRIELProgram Managergabrielm@uwm.edu414-227-3378

Marcia Gabriel is responsible for developingeducational programs that focus on sustainability forthe School and for the Community. Prior to joiningSCE, Marcia spent the past 11 years working forHunzinger Construction Company/SustainableBuilding Solutions (Brookfield, Wisconsin), as theDirector of Hunzinger Construction Universityand served on the Project Management team.Marcia was named Green Educator of the Year in2008 by Wisconsin Builder Magazine.

DEBRAO’NEILProgram Associate oneil@uwm.edu414-227-3180

Debra O’Neil has been with the School ofContinuing Education for over15 years, nine ofwhich she was a program associate supportingpublic and corporate Engineering programs. Sheassists with the coordination of course scheduling,materials assembly, program content, marketing,inquiries and billing. She is customer serviceoriented and enjoys working with programparticipants.

TABLE OF CONTENTSUnderstanding Power System Design & Operation ........................4

Transmission Line Design ..................................................................5

NEW Right-of-Way Acquisition Guidelines ....................................6

Electrical Substation Design Fundamentals ....................................7

NEW Safe Grounding Practices and Design for Outdoor AC Substations ..............................................................8

Protective Relaying Principles & Applications ................................9

Instructors ........................................................................................10

General Information ....................................................................11

Onsite Training ................................................................................Back Cover

"THE INSTRUCTORDID A GREAT JOB.INTERESTINGSPEAKER, NICEPRESENTATIONWITH A LOT OFVALUABLE

INFORMATION."

– Engineering Participant

ElectricalEngineeringCertificate

Attend nine days of relatedcourses within three years.

Visit sce-eng.uwm.edu

or call 414-227-3121 to learn more.

4

UNDERSTANDING POWER SYSTEM DESIGN & OPERATIONThis course is for managers, project coordinators, engineers, designers, technicians andother individuals who have little or no formal training in electrical power system designand operation. This includes individuals who need to communicate effectively withelectrical engineers and other electrical system designers.

Who should attend:Individuals involved in the design, construction, testing operation, management and/orregulation of electric utility systems.

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Instructor: Anthony Sleva

Wed.-Fri., Oct. 5-78am-4:30pmFee: $1175CEUs: 2.0Program No. 4830-8404

Customer Equipment and Service Requirements• Single phase 120 and 240 volt equipment• Three phase 120/208 and 277/480 voltequipment

• Voltage requirements• Current demand• Power quality• Reliability expectations

Distribution System Design and Operation• Voltage and current ratings• Overhead lines and components• Wire, cable and support structures• Electrical clearance considerations• Circuit breakers and protective relays• Circuit reclosers and fuses• Air break switches• Surge and lightning protection

• Underground lines and components• Cable and duct banks• Circuit breakers and protective relays• Fuses and sectionalizers• Air break switches• Surge and lightning protection

• Distribution system operation• Short circuit detection and isolation• Load and voltage control• Power factor correction capacitors• Voltage regulators• Distribution system efficiency

Transmission System Design and Operation• Voltage and current ratings• Overhead lines and components• Underground lines and components• Transmission system operation• Short circuit detection and isolation• Load and voltage control• Economic dispatch of generators• Power factor correction• Voltage control with generators• Transmission system efficiency• System stability considerations• Reactive Power Requirements

Substation Design and Operation• Voltage and current ratings• Outdoor substations• Electrical clearance considerations• Transformer connections and ratings• Control houses

• Circuit breakers and ratings• Circuit switchers and circuit interrupters

• Protective relaying• Air break switches• Zones of protection• Surge and lightning protection

• Indoor substations• Switchgear designs• Phase bus designs and ratings• Electrical clearance considerations

• Substation operation• Bus configurations• Transformer and bus redundancy• Single failure analysis• Circuit breaker failure considerations• Short circuit detection and isolation

System Design Considerations• Load characteristics• Nominal versus actual voltage• Power factor correction• Daily and seasonal load fluctuations• Voltage reductions• Rotating blackouts• Under frequency load shedding

See page 10 for more.

Anthony Sleva has designed electrical systems for

nuclear generating stations.

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TRANSMISSION LINE DESIGNLearn a wide variety of design subjects at a level appropriate to those relatively new to thearea of transmission line design. Explore the fundamentals for the electrical, civil, andstructural design components of electric transmission lines. Examine industry practices,technical requirements, configuration philosophies, design practices, informationresources and work procedures and presented. Topics covered include conductor types,sag and tension calculations, insulation and hardware, structure loading, codes andstandards, clearances, foundations, ice and wind loading, and environmental coordination.

Who should attendEngineers, supervisors, drafting personnel, contract managers, consultants, and managersinterested in/or involved with overall transmission line design.

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Transmission lines as a system• Electrical fundamentals for transmission lines• Towers, poles, and conductors

National electrical safety code and its impact on line design• Vertical clearances• Horizontal clearances

Mechanical loads on structures• Conductor tension• Wind speed

Insulators• Suspension Type• Post Type

Conductors• Conductor selection• Ampere rating

Overhead ground wires• Shielding angle• Positive, negative

Noise• Causes and preventions• Methods of measurement

Structure design• Loading tables• Vertical loads

Foundation design• Geotechnical surveys• Guys and anchors

Grounding• Ground resistivity• Ground resistance

Environmental coordination• Construction Impacts• Land Use

Project schedule• Notice of intent• Preliminary corridor selection

Instructor: Doug Proctor

Mon.-Wed., Oct. 10-128am-4:30pmFee: $1195CEUs: 1.7Program No. 4830-8402

Doug Proctor has over 40 years of engineering, project management,

and construction management experienceon transmission, substation and distribution

projects throughout the U.S. and overseas.See page 10 for more.

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RIGHT-OF-WAY ACQUISITION GUIDELINESGet an overview, and understand property ownership, land requirements and transmission linedesign. Discuss the appraisal process and the determination of pre-specific appraisal data.

Who should attendEngineers, supervisors, drafting personnel, contract managers, consultants, and managersinterested in/or involved with overall transmission line design.

Instructor: Doug Proctor

Thu.-Fri., Oct. 13-148am-4:30pmFee: $890CEUs: 1.4Program No. 4830-8405

Basic overview• Discussion of Right-of-Way Acquisition Issues• Property ownership

Determining land requirements• Development of easement documents and the incorporation ofthe design parameters of the transmission line project• Route selection and land ownership lists

The transmission line design• CPCN notifications• Development of easement document language

Getting to the offer• Appraisal process and the determination of pre-specific appraisal data

• Selecting an appraiser

Title reports • Use of title reports to determine ownerships and encumbrances of properties

• Selecting a title company

County record surveysCenterline staking• Marks beginning of land owner concerns• Environmental surveys

Centerline estimate stakes• Flagged trails• Access to property

Examples project representations and demonstrations• LiDAR files• GIS mapping files

Specific appraisals• Appraisal process needed to establish fair market values for land acquisitions

General market valuation• Determining the highest and best use of the property• Zoning

Example cases• Acquisition process discussion of the process of completing thedocuments needed to submit offers to land owners

Are options an option?• Delivering the offer letter• Establishing land owner contact

Meeting the land owner• Discussion of the ins and outs of dealing with land owners• Title report anomalies

Discussion of the resolution process through negotiations• Counter offers• Working with land owner agents

Ready for construction?• Relationship between land acquisition and construction as itpertains to ingress and egress to the construction site

• Easements signed

Overall process and how it fits into the transmission project schedule• Flow chart• Communication plan

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Doug Proctor is experienced in all aspects of transmission and substation

projects in a wide range of voltages.See page 10 for more.

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ELECTRICAL SUBSTATION DESIGN FUNDAMENTALSThis program is presented as an introductory course on the fundamentals for the electrical,civil, structural design issues of electric power substations. Topics include safety, standards,site development, grounding practices, bus configurations, AC and DC ancillary systems,and major equipment. The course covers technical requirements, configurationphilosophies, design practices, information sources, and work processes. Issues related toreliability, safety, security and maintainability will be underscored. Emphasis is placed onpractical issues important in developing an engineered solution.

Who should attendEngineers, supervisors, drafting personnel, contract managers, consultants, and managersinterested in/or involved with overall electrical power substation projects.

Instructor: Dan Chaply

Mon.-Wed., Oct. 17-198am-5pmFee: $1295CEUs: 2.1Program No. 4830-8403

Electrical Substations, Power Systems,and Deregulation• Structure of the Electric Power System •Overview

• Systems for Distribution of Power• Classifications • Equipment Definitions• Design Principles

Substation Project Chronology• Workflow and Project Sequence• Site Identification and Acquisition• Engineering Design, Drawingsand Documentation

• Construction, Testing andCommissioning

Developing the Scope/Identifying the Constraints for the Overall Project• Safety• Power Requirements• Site Constraints• Atmospheric • Environmental Community andSocietal Influences

Costs and Schedules• Costs and Financial Analysis• Schedules and Impacts

Site Grading Design• Substation Grade Types• Drainage and Erosion Protection• Oil Spill Containment

Foundations• Slab on Grade and Others

Design Techniques• Open Air• Metal Clad Switchgear• Gas Insulated Subs/SF6

Bus Configurations & Conductor• Types of Common Configurations• Reliability Criteria

Insulation and Insulation Protection• Insulation• Insulation Protection and Shielding• Clearance• Surge Arresters

Grounding • Need for Grounding• Personnel Safety • Hazardous Potentials During Faults

Structures• Materials• Design Options and Considerations• Finishes

Principle Equipment• General Specifications and Ratings

Transformers• Core, Winding Configuration• Tap Changers• Specifications

Circuit Breakers/Switches• Design and Purpose

Ancillary Equipment• Potential Transformers• Current Transformers

Substation Auxiliary Systems• Necessity• AC Station Power• DC and Battery Power

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See page 10 for more.

Dan Chaply has been lead substation design engineer for substation

projects for more than 25 years.

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SAFE GROUNDING PRACTICES AND DESIGN FOR OUTDOOR AC SUBSTATIONSReview the requirements needed for a safe substation environment and learn how toprovide a procedure for design of practical grounding systems based on the criteria setforth in IEEE Std. 80-2000. The AC substation grounding system provides a low impedancepath for fault current so that substation equipment is protected. This grounding systemalso provides an assurance of the safety of personnel working in the substation and thepublic outside of the substation.

Who should attendEngineers, supervisors, drafting personnel, contract managers, consultants, and managersinterested in/or involved with overall electrical power substation projects.

Instructor: Ted Maffetone

Thu.-Fri., Oct. 20-218am-4:30pmFee: $890CEUs: 1.4Program No. 4830-8406

General Introduction to Grounding• What is it?• Why do we need it?

DefinitionsConditions of Danger• Biological Models

Area of the Ground Grid• Substation size

Soil Resistivity MeasurementsSoil Model and CharacteristicsDiscussion of Ground Fault CurrentsGround Conductors, Ground Rods, Surface MaterialsTolerable Step and Touch Voltages

Special Considerations for Gas Insulated Substations (GIS)Design of a Substation Grounding System• Design procedure• Design modifications Calculations

Practical ConsiderationsUse of Computer analysis in the Grid Design• What computer programs are available• What data is needed to start the analysis• Examples of graphic presentations

Open Discussion • Grounding ClinicWhat Have We learned?Short multiple choice quiz

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Ted Maffetone has 38 years of experience in the electrical

engineering and utility industry.See page 10 for more.

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PROTECTIVE RELAYING PRINCIPLES& APPLICATIONSThis program begins with the basic concepts, advances to important setting considerations,demonstrates how short circuit currents are calculated, demonstrates how phase distanceand overcurrent relay settings are determined, and concludes with a discussion of faultand disturbance analysis. Upon completing this course, participants will be able torecognize key protective relaying considerations for distribution lines, transmission lines,substations, transformers, buses and circuit breakers.

Who should attendAnalysts, designers, engineers and technicians involved with the design, development orutilization of transmission lines, distribution lines, substations or medium voltage motorsas well as anyone involved in protective relay selection and application.

Instructor: Anthony F. Sleva

Mon.-Wed., Oct. 24-268am-4:30pmFee: $1190CEUs: 2.0Program No. 4830-8401

Tools of the Trade• Single line diagrams• Zones of protection• Per unit system• Symmetrical components• Short circuit calculations• Three line diagrams• Current transformers – polarity and connections

• Voltage transformers – polarity and connections

• Circuit breaker tripping schemes• Redundancy• Dependability• Security• Reliability

Substation Protection• Transformer differential relays• Transformer overload relays• Bus differential relays• Ring bus differential considerations• Circuit breaker failure considerations• Arc flash considerations

System Protection• Overvoltage and undervoltage relays• Voltage comparison relays• Overfrequency and underfrequency relays

Distribution System Protection• Overhead and underground lines• Phase time overcurrent relays• Phase instantaneous overcurrent relays• Ground time overcurrent relays• Ground instantaneous overcurrent relays• Steady state load limits• Cold load pickup inrush• Voltage recovery inrush• Coordination with downstream fuses• Coordination with downstream reclosers• Distributed generation considerations

Protection of Selected Equipment• Large motors• Shunt reactors• Series reactors• Large capacitor banks (series parallel can arrangements)

Transmission System Protection• Phase relays (Zone 1, Zone 2 & Zone 3)• Arc resistance• Steady state load limits• Transient load limits• Directional time overcurrent ground relays

• Directional instantaneous overcurrent ground relays

• Multi-terminal lines• Apparent impedance• Ground bank action

Communication Aided Relaying Schemes• Permissive over-reaching schemes• Direct under-reaching schemes• Direct transfer tripping schemes• Directional comparison blocking schemes

Anthony Sleva specializes in the analysis of power system events that cause

the loss of customer load and the initiation of emergency load control procedures.

See page 10 for more.

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Instructors.Dan Chaply has been lead substation design engineer forsubstation projects for more than 25 years. He has developeddesigns for a wide variety of voltages, capacities, and end-usercategories, including dedicated single-use industrial substations,large transmission substations, bulk power/intertie substations andswitchyards, IPP interconnects, and power system distributionsubstations. He received his BSEE and MSEE from LehighUniversity, and is a member of the IEEE.

Ted Maffetone has 38 years of experience in the electricalengineering and utility business. Presently Mr. Maffetone is theChief Electrical Engineer at Altran Solutions, an Architectural andEngineering Company that designs and retro-fits electricalsubstations, generating stations and industrial facilities. Mr.Maffetone is responsible for overseeing substation design in thePower Delivery group. He is responsible for all electricalengineering and design requirements including calculations forbattery systems, lightning, voltage drop, grounding, AC and DCstation distribution, high voltage bus and all equipmentinstallations. He has designed and continues to approve all theground grid designs for substations ranging in voltage from 4 kVto 500 kV. In addition he recently participated in the conductor andgrounding design of a 500 kV transmission line using monopoles.He previously worked for the Consolidated Edison Company ofNew York (CECONY), a gas and electric utility for approximately33 years where he held various positions as an Engineer andManager. In his time with CECONY Mr. Maffetone served invarious departments that included Technical Services andDevelopment, Relay Protection Engineering, Research andDevelopment, and Distribution Engineering. Mr. Maffetone holdsa Master's Degree in Electrical Engineering, from PolytechnicInstitute of NY University; completed the two-year PTI PowerEngineering Course and is a licensed professional engineer in thestates of New York and New Jersey.

Doug Proctor, president of D. Proctor Engineering, Inc. has over40 years of engineering, project management, and constructionmanagement experience on transmission, substation, anddistribution projects throughout the United States and overseas. Heis experienced in all aspects of transmission and substation projectsat voltages ranging from 7.2-kV to 500-kV including environmentalservices, land acquisition services, engineering, contractadministration, construction management, and projectmanagement. Mr. Proctor is a registered professional engineer inCalifornia. His area of expertise is project engineering on overheadtransmission projects encompassing engineering and design,environmental support associated with transmission line routingand substation site selection, pre-engineering studies to assessfeasibility of options, structure design and selection, right of wayacquisition , clearance requirements, cost estimates, preparation ofcontracts, contract administration, scheduling, establishing budgetsand work plans, and construction management.

Anthony Sleva is President of Sleva Associates, an electricalconsulting and training company founded in 1995. He is a registeredProfessional Engineer with a BSEE degree from Pennsylvania StateUniversity. During his career, he has designed electrical systems fornuclear generating stations; designed 500-230 KV, 230-69 KV, 138-12 KV and 69-12 KV substations; provided technical support topower dispatchers, system operators and plant operators; anddeveloped technical training programs for technicians, drafters,designers and technical clerks. Presently, Mr. Sleva specializes in theanalysis of power system events that cause the loss of customer loadand/or the initiation of emergency load control procedures as wellas events that may have been caused by incorrect protective relayactuations.

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General Information.

TODAY’S WORKPLACE IS CHANGING RAPIDLY.ARE YOU PREPARED?

TODAY’S WORKPLACE IS CHANGING RAPIDLY.ARE YOU PREPARED?

With rapid globalization, technology advancements and demographic shifts, today’s workplace is constantly evolving.Visit the new Center for the Study of the Workplace (CSW)at StudyofWork.com where leaders from the business andacademic worlds educate you on the latest transformations.

• Gain insight from academic scholars • Analyze professional perspectives from real-world experts• Connect with a global community of change-makers• Join the conversation:

Comment Discuss Participate Follow Shareon Video on Blogs in Polls News Feeds Insights

YES

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TODAY’S WORKPLACE IS CHANGING RAPIDLY.ARE YOU PREPARED?

Check back often for updated discussion topics!

FeeThe fee includes program materials, continental breakfast, lunch and breaks.Lodging and other meals are not included.

LodgingYou may make your own lodging arrangement at the facility of your choice.Hotel information will be mailed with your enrollment confirmation.

CancellationsCancellations received less than seven days before the start of the course willbe subject to a late cancellation fee. You may enroll a substitute at any time beforethe course starts, or you may apply the enrollment fee to a future course.

In the event the School cancels a class, we will reschedule, refund fees orapply the fee payment to any other School of Continuing Educationengineering program offered in the next 12 months. Liability of cancellationis specifically limited to the amount of the pre-paid class fee and excludes anyincidental or consequential damages.

DirectionsFor the latest information on getting here visit sce-directions.uwm.edu. Thewebpage includes access to printable color PDFs of current maps,information about parking and public transportation, and other detailsrelevant to our location.

Continuing Education Units (CEUs)All programs in this catalog carry CEUs – a means of recognizing andrecording satisfactory participation in nondegree programs. One CEU isawarded for each 10 contact hours (or equivalent) in an organized continuingeducation experience. All CEUs earned through the University ofWisconsin–Milwaukee School of Continuing Education noncredit programsbecome a part of your permanent record.

For Further InformationContact Murali Vedula at 414-227-3121 or mvedula@uwm.edu.

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ONSITE TRAINING Capitalize on our CapabilitiesAny program can be designed to meet your organization's unique and specificemployee development needs. Onsite training helps you:

Contain Costs by eliminating or reducing travel, food and lodging expenses.

Maximize Convenience by choosing your optimal dates, times and location.

Save Time with staff spending fewer hours away from work.

Build Teamwork through group brainstorming and shared learning experiences.

Custom Tailor Content to your needs to accomplish specificorganizational objectives. Or, use the curriculum as-is.

For more information, contact Murali Vedula at 414-227-3121 or mvedula@uwm.edu.

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