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Full Description
Design and Control of Active Power Filters Towards the Decarbonisation of Smart Grid Networks offers an in-depth exploration of the essential role active power filters play in advancing modern energy systems. As the world transitions toward decarbonized power networks, this resource provides innovative approaches to enhance grid stability and improve power quality. With a focus on the shift from centralized high-voltage setups to decentralized, low-voltage smart grids, the book emphasizes how active power filters can address the challenges posed by fluctuating renewable energy sources and distributed generation.
Beyond its technical focus, the book also delves into the practical strategies for implementing active power filters in real-world scenarios. It examines their impact on energy efficiency, reliability, and the overall resilience of decarbonized power systems. Readers will find valuable insights into optimizing filter design while navigating the complexities of integrating renewable energy technologies. Whether for researchers, engineers, or decision-makers, this book serves as a comprehensive guide for shaping the energy systems of tomorrow.
Contents
1. Introduction
2. Grid stability and power quality in VRE integrated networks: Role of Active Power Filters
3. Grid Stability and Power Quality Improvement in Electrical Distribution Networks Using Smart Transformer
4. Basics of APFs - Design, topology and control
5. Integration, Placement and Control of Power Conditioning Devices in Distributed Generation Networks
6. Topology and Control of Active Power Filter Fed by DG Source
7. Harmonic mitigation in distribution networks by means of DERs with active power filtering capabilities
8. Design and Control of Multilevel and Modular Multilevel APFs
9. Power Quality Aspects of Smart Grid in Presence of Electric Vehicle Charging
10. Harmonic Mitigation using APFs for DER based Microgrid Applications
11. Frequency-adaptive multi-resonant state-feedback control of shunt-active power filters
12. Multi-frequency control of shunt active power filters
