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Schoo
l of C
ontinui
ng Edu
cation
B
usin
ess,
Eng
inee
ring
& T
echn
olog
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1 W
. Wisco
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Message Code: SP-02-10-W
MILWAUKEE D
ATE
S
ELEC
TRICAL SU
BST
ATION
DES
IGN FUNDAMEN
TALS
June
6-8
Keycode: WPDF
Message Code: SP-02-10-W
REGISTRATION PhoneMon.-Fri., 8am-5pm Central800-222-3623 (toll free)414-227-3200 (local)
Onlinesce-registration.uwm.edu
GENERAL INFORMATIONFeeThe fee includes program materials, continentalbreakfast, lunch and breaks. Lodging and othermeals are not included.
LodgingYou may make your own lodging arrangementat the facility of your choice. Hotel informationwill be mailed with your enrollment confirmation.When contacting the hotel, mention that youwill be attending a UW-Milwaukee seminar. Youmay qualify for a discount.
CancellationsPlease call 414-227-4100 at least seven days beforethe course starts for a refund. Cancellationsreceived less than seven days before the start ofthe course will be subject to a late cancellationfee. You may enroll a substitute at any timebefore the course starts, or you may apply theenrollment fee to a future course.
In the event the School cancels a class, theUniversity of Wisconsin–Milwaukee willreschedule, refund fees or apply the fee paymentto any other School of Continuing Educationengineering classes offered in the next 12 months.Liability of cancellation is specifically limited tothe amount of the pre-paid class fee and excludesany incidental or consequential damages.
Continuing Education Units (CEUs)All programs in this catalog carry ContinuingEducation Units (CEUs). CEUs are a means ofrecognizing and recording satisfactory participationin nondegree programs. One CEU is awardedfor each 10 contact hours (or equivalent) in anorganized continuing education experience.All CEUs earned through the University ofWisconsin–Milwaukee School of ContinuingEducation noncredit programs become a part ofyour permanent record.
ONSITE TRAININGAny program can be designed to meet your organization's uniq ue and specific employeedevelopment needs. There are many compellingadvantages to partnering with UWM SCE.
Contain Costs by eliminating or reducingtravel, food and lodging expenses.
Maximize Convenience by choosing youroptimal dates, times and location .
Save Time with staff spending fewer hoursaway from work.
Build Teamwork through group brainstormingand shared learning experiences.
Custom Tailor Content to your needs toaccomplish specific organizational objectives.Or, use the curriculum as-is.
For more information, contact Murali Vedulaat 414-227-3121 or [email protected].
SCE-ELECTRICAL.UWM.EDU
S P R I N G 2 0 1 1
Electrical SubstationDesign Fundamentals
Protective RelayingPrinciples and Applications
EXCEPTIONAL COURSES. EXPERIENCED INSTRUCTORS.
MARCH COURSES IN TAMPA, FL
ElectricalEngineering
C o n t i n u i n g E d u c a t i o n
ELECTRICAL SUBSTATION DESIGN FUNDAMENTALSThis program is presented as an introductory course on thefundamentals for the electrical, civil and structural design issues ofelectric power substations. Topics cover safety, standards, sitedevelopment, grounding practices, bus configurations, AC and DCancillary systems, and major equipment.
Examine practical issues important in developing an engineered solution.Current industry topics are integrated into the classroom presentationmaterial. After this course, you will have a broad foundation for thedevelopment of new, and the upgrade of existing, substation facilities.
This course also provides an introduction to electrical substationengineering for non-electrical engineers, as well as a civil and structuralintroduction for non-civil/structural engineers.
Who should attendThe course curriculum is intended for, but not limited to, engineers in the first three years of a substationdesign position. This course can replace, or compliment, an existing training program. Engineers,supervisors, drafting personnel, contract managers, consultants, and managers interested in/or involvedwith the overall electrical power substation projects could benefit from this course.
InstructorDaniel Chaply has been lead substation design engineer for substation projects for more than 25 years.He has developed designs for a wide variety of voltages, capacities and end-user categories, includingdedicated single-use industrial substations; large transmission substations; bulk power/intertiesubstations and switchyards; IPP interconnects, and power system distribution substations. He receivedhis BSEE and MSEE from Lehigh University, and is a member of the IEEE.
CO
UR
SE O
UTL
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PROTECTIVE RELAYING PRINCIPLES AND APPLICATIONSThis program presents fundamental concepts of protective relaying. Itcovers basic concepts, important setting considerations and short circuitcurrent calculations. You also learn how overcurrent, phase distanceand differential relay settings are determined. You gain the ability todetermine setpoints for protective relays commonly encountered insubstations, switchyards and industrial plants for protection of feeders,lines, transformers, buses and motors.
Who should attendThis course is for analysts, designers, engineers and technicians involvedwith the design, development or utilization of transmission lines,distribution lines, substations or medium voltage motors as well asanyone involved in protective relay selection and application.
InstructorAnthony Sleva’s experience includes design and analysis of transmission and distribution substations,power plant electrical systems, railway systems, and industrial plant electrical systems with an emphasison protective relaying, short circuit analysis, electrical system operations, cold load inrush phenomena,and security of substation hardware. He is a Senior Member of IEEE, graduate of Penn State University,licensed professional engineer in Pennsylvania and Maryland. Mr. Sleva has authored a textbook,“Protective Relay Principles and Applications”, which is provided for this course.
Electrical Engineering CoursesElectrical 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- Planning and Reliability- Site Identification and Acquisition - Engineering Design, Drawings and Documentation
- Construction, Testing and Commissioning
Developing the Scope/Identifying the Constraints for the Overall Project
- Safety - Power Requirements - Site Constraints - Weather - Atmospheric - Environmental Community and Societal Influences
- Electrical Effects - Construction Related - Operation and Maintenance O&M
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- Pier - Piles - Access Roads - Fence
Design Techniques - Open Air - Metal Clad Switchgear- Gas Insulated Subs/SF6
Bus Configurations - Types of Common Configurations- Reliability Criteria- Single Bus- Segmented Bus- Breaker and Half- Ring Bus - Double Bus/Double Breaker
TAMPA, FLMon.-Wed., Mar. 7-9Program No. 4830-84198am-4:30pmInstructor: Daniel ChaplyFee: $1395CEUs: 2.1
MILWAUKEE, WIJune 6-8
Insulation and Insulation Protection - Insulation- Insulation Protection and Shielding - Clearance - Surge Arresters
Bus Conductor - Electrical Power Bus - Rigid Bus - Strain Bus
Grounding - Need for Grounding - Personnel Safety - Hazardous Potentials During Faults - Ground Grid - Earth Resistivity - Design Considerations - Testing - Soil and Electrode Enhancement Materials
Structures - Materials - Design Options and Considerations - Finishes
Principle Equipment- General Specifications and Ratings
Transformers- Core, Winding Configuration- Tap Changers - Specifications
Circuit Breakers- Design and Purpose - Operating Mechanism - Interrupters - Relayed Operation- New Technologies - Specifications
Switches - Operational Types - Interrupters - Specifications
Ancillary Equipment - Potential Transformers - Current Transformers
Substation Auxiliary Systems - Necessity - AC Station Power - DC and Battery Power
CO
UR
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UTL
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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
TAMPA, FLThu.-Fri., Mar. 10-11Program No. 4830-84238am-4:30pmInstructor: Anthony F. Sleva Fee: $890CEUs: 1.4