Spectrum Power 3 Programming - Siemens
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Spectrum Power 3 Programming - Siemens

Spectrum Power 3 Programming - Siemens Spectrum Power 3 Programming - Siemens

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13.07.2015 Views

Transmission Network ApplicationsTransmission Network Applications03/06/12Course Descriptions - 46 - Siemens Energy, Inc.Energy Automation

Transmission Network ApplicationsNetwork Model BuildingThis course provides the participant with an understanding of the power system information required byNetwork Applications, and needed to develop a network model. Concepts and guidelines for use in preparinga network model are described. Participants gain a clear understanding of how to translate thereduced network model into the format required by the Spectrum Power 3 system.General InformationCourse Code: E0810Length: 2 DaysAudienceThis course is designed for those responsibilitiesinclude the collection of network data to be inputinto a Spectrum Power system, data input, datacorrection, data integrity, and coordination ofdata changes, including:• Data Engineers• Power System EngineersPrerequisites• Participants must have read the network applicationfunctional specifications, have a basicunderstanding of the purpose of networkfunctions, and understand the power networkcomponents.GoalsUpon completion of this course, the studentsshall be able to:• Explain the need for a node based and busbased representation of the power system• Describe the organization of the SpectrumPower Network Model• List the parameters that define the power systemequipment• Explain how the bus based topology is determinedfrom the node based topology• List the data required by the State Estimatorto find the complete complex voltage solution• List the data required by Power Flow to findthe steady state operation of the power system• List the data required by Security Analysis tostudy the steady state operation of the powersystem under various contingencies• Describe the guidelines for developing a networkmodel• Describe error checking• Explain how a SCADA point is mapped to apiece of equipment in the networkTopics• Understanding the Power System Data− Purpose of Network Applications− Network Model Organization− Data Defining the Power System Equipment− How Network Topology is Determined− Data Required by State Estimator− Data Required by the Power Flow− Data Required by Security Analysis− Data Required by Contingency Analysis• Developing the Network Model− Network Model Development Guidelines− Error Checking− Network to SCADA Point Mapping− Network Model Data Examples03/06/12Course Descriptions - 47 - Siemens Energy, Inc.Energy Automation

Transmission Network ApplicationsNetwork Model BuildingThis course provides the participant with an understanding of the power system information required byNetwork Applications, and needed to develop a network model. Concepts and guidelines for use in preparinga network model are described. Participants gain a clear understanding of how to translate thereduced network model into the format required by the <strong>Spectrum</strong> <strong>Power</strong> 3 system.General InformationCourse Code: E0810Length: 2 DaysAudienceThis course is designed for those responsibilitiesinclude the collection of network data to be inputinto a <strong>Spectrum</strong> <strong>Power</strong> system, data input, datacorrection, data integrity, and coordination ofdata changes, including:• Data Engineers• <strong>Power</strong> System EngineersPrerequisites• Participants must have read the network applicationfunctional specifications, have a basicunderstanding of the purpose of networkfunctions, and understand the power networkcomponents.GoalsUpon completion of this course, the studentsshall be able to:• Explain the need for a node based and busbased representation of the power system• Describe the organization of the <strong>Spectrum</strong><strong>Power</strong> Network Model• List the parameters that define the power systemequipment• Explain how the bus based topology is determinedfrom the node based topology• List the data required by the State Estimatorto find the complete complex voltage solution• List the data required by <strong>Power</strong> Flow to findthe steady state operation of the power system• List the data required by Security Analysis tostudy the steady state operation of the powersystem under various contingencies• Describe the guidelines for developing a networkmodel• Describe error checking• Explain how a SCADA point is mapped to apiece of equipment in the networkTopics• Understanding the <strong>Power</strong> System Data− Purpose of Network Applications− Network Model Organization− Data Defining the <strong>Power</strong> System Equipment− How Network Topology is Determined− Data Required by State Estimator− Data Required by the <strong>Power</strong> Flow− Data Required by Security Analysis− Data Required by Contingency Analysis• Developing the Network Model− Network Model Development Guidelines− Error Checking− Network to SCADA Point Mapping− Network Model Data Examples03/06/12Course Descriptions - 47 - <strong>Siemens</strong> Energy, Inc.Energy Automation

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