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|a 9783030422745
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|a (MiAaPQ)EBC6363174
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|a TK1001-1841
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|a Strasser, Thomas I.
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|a European Guide to Power System Testing :
|b The ERIGrid Holistic Approach for Evaluating Complex Smart Grid Configurations.
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|a 1st ed.
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|a Cham :
|b Springer International Publishing AG,
|c 2020.
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|c Ã2020.
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|a 1 online resource (141 pages)
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|a text
|b txt
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|a computer
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|a online resource
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|a Intro -- Preface -- Contents -- Acronyms -- Towards System-Level Validation -- 1 Higher Complexity in Future Power Systems -- 2 Needs for System-Level Validation -- 2.1 Engineering and Validation Process -- 2.2 Towards a System Validation Approach -- 2.3 Illustrative Example -- 3 Existing Approaches and Research Directions -- 3.1 Suitable Methods and Tools -- 3.2 Future Research Directions -- 4 Overview of the ERIGrid Validation Approach -- References -- Test Procedure and Description for System Testing -- 1 Introduction -- 1.1 Testing Procedure and Test Description -- 1.2 Holistic Testing for System Validation -- 2 Toward Procedures for System Validation -- 2.1 Purpose of Testing in the Development Process -- 2.2 The Need for System Testing and Its Support -- 2.3 A Generic Procedure for System Validation -- 2.4 Testing Chain -- 3 ERIGrid Holistic Test Description Methodology -- 3.1 The Requirements and Semantics of Test Description -- 3.2 The ERIGrid Test Description for System Validation -- 3.3 Holistic Test Description: Key Concepts -- 3.4 Remarks on Quantitative Assessment -- 4 Application Examples -- 4.1 Example 1: Testing Chain -- 4.2 Example 2: Coordinated Voltage Control -- 5 Conclusion -- References -- Simulation-Based Assessment Methods -- 1 Introduction to Smart Grid Modelling and Simulation -- 2 Co-simulation Based Assessment -- 2.1 Introduction to Co-simulation, Goals, and Challenges -- 2.2 Current Co-simulation Standards and Their Functionality -- 3 Co-simulation Framework for Smart-Grid Assessment -- 3.1 Co-simulation Interfaces Based on FMI -- 3.2 Mosaik for Scenario Development and Simulation Orchestration -- 4 Scaling Considerations -- 5 Fault Ride-Through of a Wind Park Example -- 5.1 Experiment Setup and Objectives -- 5.2 Results -- 6 Conclusion -- References -- Hardware-in-the-Loop Assessment Methods -- 1 Introduction.
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|a 2 HIL Techniques for Validation of Smart Grid Solutions -- 2.1 Stability of HIL Experiments -- 2.2 Stability Assessment -- 2.3 Approaches for the Compensation of Time Delay -- 3 Integration of HIL Techniques into a Holistic Framework -- 3.1 Simulation Message-Bus Based Solutions: Lab-Link and OPSIM -- 3.2 Online Integration with SCADA as a Service Approach -- 3.3 Quasi-static PHIL/PSIL -- 4 Coordinated Voltage Control of a Microgrid Example -- 4.1 CHIL Implementation via Lab-Link -- 4.2 Multi-platform CHIL Implementation via OpSim Architecture -- 4.3 PHIL and PSIL Implementation in PRISMES Platform -- 5 Summary -- References -- Laboratory Coupling Approach -- 1 Introduction -- 1.1 State-of-the-Art for Smart Grid Testing -- 1.2 Multi-infrastructure Integration -- 2 JaNDER Communication Platform for Lab-Coupling -- 2.1 Features of the Cloud-Based Communication Platform -- 2.2 Basic Data Sharing via JaNDER-L0 -- 2.3 IEC 61850-Based Communication Platform via JaNDER-L1 -- 2.4 CIM-based Communication Platform via JaNDER-L2 -- 3 Integrated Research Infrastructure -- 3.1 Hardware/Software Integration Between Different Laboratories -- 3.2 Virtual Research Infrastructure -- 4 Examples of Laboratory Couplings -- 4.1 Integration of a Remote OLTC Controller via IEC 61850 -- 4.2 State Estimator Web Service -- 4.3 Geographically Distributed Real-Time Simulation -- 4.4 Real-Time Geographically Distributed CHIL -- 4.5 Real-Time Geographically Distributed PHIL -- 5 Conclusion -- References -- From Scenarios to Use Cases, Test Cases and Validation Examples -- 1 Test Scenario Descriptions -- 2 ERIGrid Generic System Configurations -- 3 Focal Use Cases -- 4 Test Cases -- 5 System Validation Examples -- 5.1 Analysis of the Centralized Voltage Control for Rhodes Island -- 5.2 Converter Controller Development -- 6 Conclusions -- References.
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|a Experiences with System-Level Validation Approach -- 1 Introduction to Users and Experiences -- 2 Application of System-Level Validation Approach in Projects -- 3 Evaluation of Representative Test Cases -- 4 Evaluation of the Holistic Test Description Methodology -- 4.1 Results of Work with ERIGrid Services Questionnaire -- 4.2 Results of Data Specification Questionnaire -- 5 Advantages and Shortcomings of Holistic Validation Methodology -- 5.1 Advantages of the Holistic Validation Methodology -- 5.2 Shortcomings of the Holistic Validation Methodology -- 6 Conclusion -- References -- Education and Training Needs, Methods, and Tools -- 1 Introduction -- 2 Learning Needs for Modern Power and Energy Education -- 3 Laboratory Education -- 3.1 Real-Time Simulation for Laboratory Education -- 3.2 Remote Laboratories -- 4 Simulation-Based Tools -- 4.1 Co-simulation Tools -- 4.2 Interactive (Jupyter) Notebooks -- 5 Outreach Activities -- 5.1 Webinars -- 5.2 Training Schools and Workshops -- 6 Conclusions -- References -- Summary and Outlook -- 1 Conclusions -- 2 Future Work -- References.
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|a Description based on publisher supplied metadata and other sources.
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|a Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2023. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
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|a Electronic books.
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|a de Jong, Erik C. W.
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|a Sosnina, Maria.
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|i Print version:
|a Strasser, Thomas I.
|t European Guide to Power System Testing
|d Cham : Springer International Publishing AG,c2020
|z 9783030422738
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| 797 |
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|a ProQuest (Firm)
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| 856 |
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|u https://ebookcentral.proquest.com/lib/matrademy/detail.action?docID=6363174
|z Click to View
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