| Description |
1 online resource (256 pages) ; illustrations |
| Contents |
Intro -- Preface -- Reference -- Contents -- Chapter 1: An Overview of Hosting Capacity for Modern Power Grids -- 1.1 Introduction -- 1.2 Dynamic Hosting Capacity Approach -- 1.3 Dynamic Hosting Capacity Considering Storage Systems -- 1.4 Formulation of the DHC with Energy Storage Systems (ESS) -- 1.5 Further Remarks -- References -- Chapter 2: Hosting Capacity Determination via Risk Analysis Approach Involving Likelihood and Severity of Operational Constrai ... -- 2.1 Introduction -- 2.2 Recent Methods on Hosting Capacity Determination -- 2.3 System Formulation and Evaluation |
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2.3.1 System Evaluation -- 2.3.1.1 Step A: Uncertainty Characterization -- 2.3.1.2 Step B: System Evaluation via Nonintrusive Method -- 2.3.1.3 Step C: Hypothesis Testing -- 2.3.2 Sparse Grid Technique -- 2.4 Proposed Risk Analysis Approach for Hosting Capacity Determination -- 2.4.1 Risk Definition -- 2.4.2 Deterioration Indices and Hosting Capacity -- 2.4.2.1 Risk Indices -- 2.4.2.2 Hosting Capacity Determination -- 2.5 Case Studies -- 2.5.1 Simulation Test -- 2.5.2 11 Bus Actual Feeder -- 2.5.3 11-kV Grid with 91 (11/0.4 kV) Distribution Transformers -- 2.6 Conclusion -- References |
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Chapter 3: A Methodology Proposal for Calculation of Hosting Capacity Including Different Power Quality Phenomena -- 3.1 Background Harmonic Distortion -- 3.1.1 Modelling and Methods of Background Distortion Source -- 3.1.2 Example of the Impacts of Background Harmonic Distortion -- 3.2 Analysis of Hosting Capacity Through Different Power Quality Phenomena -- 3.3 Integrated Hosting Capacity: Voltage Rise Due to Harmonic Injection -- 3.3.1 Sensitivity Analysis of an Integrated Hosting Capacity Approach -- References |
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Chapter 4: Effect of Harmonics due to Distributed Energy Resources on Hosting Capacity of Microgrid: A Hardware in Loop-Based ... -- 4.1 Introduction -- 4.2 Concept of Hosting Capacity (HC) -- 4.3 Microgrid and Its Components -- 4.3.1 Wind Energy -- 4.3.2 Solar Energy -- 4.3.3 Biofuel-Based Power Plant -- 4.4 Effect of DER on Power Flow -- 4.5 Tools Used to Analyze the Effect of Harmonics on HC by DERs -- 4.5.1 MATLAB -- 4.5.2 Typhoon Hardware in Loop (HIL) -- 4.5.2.1 Step 1 -- 4.5.2.2 Step 2 -- 4.5.2.3 Step 3 -- 4.5.2.4 Step 4 -- 4.5.2.5 Step 5 -- 4.5.2.6 Step 6 -- 4.5.2.7 Step 7 |
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4.6 Case Studies and Results -- 4.6.1 5-Bus Distribution System -- 4.6.1.1 Case I: Solar Photovoltaic at all Buses -- 4.6.1.2 Case II: Wind Power Plant at all Buses -- 4.6.1.3 Case III: Biofuel-Based Power Plant at all Buses -- 4.6.2 IEEE 33-Bus Distribution System -- 4.6.2.1 Case I: Solar Photovoltaic at Bus 2 in IEEE 33-Bus Distribution System -- 4.6.2.2 Case II: Wind Power Plant at Bus 2 in IEEE 33-Bus Distribution System -- 4.6.2.3 Case III: Biofuel-Based Power Plant at Bus 2 in IEEE 33-Bus Distribution System -- 4.7 Conclusion and Future Work -- References |
| Summary |
This book brings together several aspects of hosting capacity (HC) assessment and enhancement of modern electrical power systems, HC is a key enabler for affordable, reliable and renewable energy sources, that will aid in transitioning away from traditional high-carbon energy sources. The chapters provide insight into the state of the art on current hosting capacity concepts, restrictive performance limits, distribution network operators and network planners viewpoints, and the cutting-edge technologies deployed worldwide for hosting capacity enhancement. Written by leading experts in power, control, and renewable energy resources. This book is beneficial to distribution system operators, network planners, distribution generation investors, and researchers in this field. Due to its broad scope, it is an ideal resource for students in advanced graduate-level courses and special topics in the field of hosting capacity assessment and enhancement in modern electrical power systems. Presents novel solutions to enable networks to cope with future developments Introduces innovative research outcomes, programs, algorithms, and software Provides practical training on theoretical developments and latest advances in HC enhancements technologies |
| Notes |
Chapter 5: A Scenario-Based Approach for Storage Capacity Determination to Improve the Hosting Capacity of Distribution Systems |
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Print version record |
| Subject |
Smart power grids.
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Electrical engineering.
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Alternative & renewable energy sources & technology.
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Energy conversion & storage.
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Energy technology & engineering.
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Technology & Engineering -- Machinery.
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Technology & Engineering -- Power Resources -- Alternative & Renewable.
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Technology & Engineering -- Power Resources -- General.
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Smart power grids
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| Form |
Electronic book
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| Author |
Zobaa, Ahmed F.
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Ismael, Sherif M
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Ribeiro, Paulo F.
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Abdel Aleem, Shady H. E.
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| ISBN |
9783030400293 |
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3030400298 |
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