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European Guide to Power System Testing : The ERIGrid Holistic Approach for Evaluating Complex Smart Grid Configurations. (2020)

Strasser, Thomas I. ; de Jong, Erik C. W. ; Sosnina, Maria.

Cham :Springer International Publishing AG,

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almahu_9949301196702882

Format: 1 online resource (141 pages)

ISBN: 9783030422745

Note: 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. , 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. , 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.

Additional Edition: Print version: Strasser, Thomas I. European Guide to Power System Testing Cham : Springer International Publishing AG,c2020 ISBN 9783030422738

Language: English

Keywords: Electronic books. ; Electronic books. ; Electronic books. ; Electronic books.

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Online Resource

European Guide to Power System Testing : The ERIGrid Holistic Approach for Evaluating Complex Smart Grid Configurations (2020)

Strasser, Thomas I. ; Strasser, Thomas I. [editor.] ; de Jong, Erik C. W. [editor.] ; [et al.]

Springer Nature | Cham :Springer International Publishing :

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UID:

almahu_9948368126602882

Format: 1 online resource (XII, 132 p. 65 illus., 58 illus. in color.)

Edition: 1st ed. 2020.

ISBN: 3-030-42274-7

Content: This book is an open access book. This book provides an overview of the ERIGrid validation methodology for validating CPES, a holistic power system testing method. It introduces readers to corresponding simulation and laboratory-based tools, including co-simulation, real-time simulation, and hardware-in-the-loop. Selected test cases and validation examples are provided, in order to support the theory discussed. The book begins with an introduction to current power system testing methods and an overview of the ERIGrid system-level validation approach. It then moves on to discuss various validation methods, concepts and tools, including simulation and laboratory-based assessment methods. The book presents test cases and validation examples of the proposed methodologies and summarises the lessons learned from the holistic validation approach. In the final section of the book, the educational aspects of these methods, the outlook for the future, and overall conclusions are discussed. Given its scope, the book will be of interest to researchers, engineers, and laboratory personnel in the fields of power systems and smart grids, as well as undergraduate and graduate students studying related engineering topics.

Note: Part I: Introduction -- Motivation -- State-of-the-Art and Current Practice in Power System Testing -- Overview of the ERIGrid System-Level Validation Approach -- Part II: Validation Methods, Concepts, and Tools -- Holistic System Integration and Testing Procedure -- Simulation-Based Assessment Methods -- Laboratory-Based Assessment Methods -- Laboratory Coupling Approach -- Part III: Test Cases, Case Studies, and Validation Examples -- Selected Test Cases -- Selected Case Studies and Validation Examples -- Experiences and Lessons Learned from the Holistic Validation Approach -- Part IV: Educational Aspects -- Training Needs -- Education Concepts and Material -- Part V: Outlook and Conclusions -- Outlook -- Conclusions. , English

Additional Edition: ISBN 3-030-42273-9

Language: English

DOI: 10.1007/978-3-030-42274-5

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European Guide to Power System Testing : The ERIGrid Holistic Approach for Evaluating Complex Smart Grid Configurations (2020)

Strasser, Thomas I. [editor.] ; de Jong, Erik C. W. [editor.] ; Sosnina, Maria. [editor.] ; [et al.]

Cham :Springer International Publishing :

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UID:

almahu_9948573750502882

Format: XII, 132 p. 65 illus., 58 illus. in color. , online resource.

Edition: 1st ed. 2020.

ISBN: 9783030422745

In: Springer Nature eBook

Additional Edition: Printed edition: ISBN 9783030422738

Additional Edition: Printed edition: ISBN 9783030422752

Language: English

DOI: 10.1007/978-3-030-42274-5

URL: https://doi.org/10.1007/978-3-030-42274-5

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