Energy and Environmental Aspects of Emerging Technologies for Smart Grid
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| Autore: |
Salkuti Surender Reddy
|
| Titolo: |
Energy and Environmental Aspects of Emerging Technologies for Smart Grid
|
| Pubblicazione: | Cham : , : Springer International Publishing AG, , 2024 |
| ©2024 | |
| Edizione: | 1st ed. |
| Descrizione fisica: | 1 online resource (751 pages) |
| Disciplina: | 621.310286 |
| Nota di contenuto: | Intro -- Preface -- About This Book -- Contents -- Editor and Contributors -- Energy Management in Microgrid with Battery Storage System -- 1 Introduction -- 2 Formulation of Microgrid System with Battery Storage -- 2.1 Diesel Generator -- 2.2 Wind Energy Source -- 2.3 Fuel Cell Plant -- 2.4 Battery Energy Storage System (BESS) -- 2.5 Emission Dispatch -- 2.6 Fuzzy min Ranking -- 3 Chaotic Jaya Algorithm -- 3.1 Implementation of Ch-JAYA for Energy Management -- 4 Case Study and Simulation Results -- 4.1 MG System -- 4.2 MG System with Battery Storage -- 4.3 MOMG System -- 4.4 MOMG System with Wind Turbine and BESS -- 5 Conclusions -- Appendix -- References -- Wind Energy Conversion Systems: A Review on Aerodynamic, Electrical and Control Aspects, Recent Trends, Comparisons and Insights -- 1 Introduction -- 2 Structure of the WECS -- 3 Wind Turbines -- 3.1 Wind Turbine Model -- 3.2 Different Operating Regions in Terms of Wind Speed -- 3.3 Classification of WT Systems -- 4 Types of Electric Generators in WECS -- 4.1 Synchronous Generator -- 4.2 Induction Generator -- 5 Power Electronics Development in the WECS -- 5.1 Requirements for RESs and Demands on Wind Power Systems -- 5.2 Different Types of Modulation and 2-Level and 3-Level Converters -- 6 Control Strategies in WECS -- 6.1 Pitch Angle Control -- 6.2 Maximum Power Point Tracking Control -- 6.3 Machine/Grid Side Converter Control -- 7 Simulations of a WECS -- 8 Conclusions -- References -- Buck-Boost Converter-Based Sliding Mode Maximum Power Point Tracking System for Photovoltaic Systems -- 1 Introduction -- 2 Modelling of PV Cell -- 3 Averaged Model of Buck-Boost Converter -- 4 Sliding Mode Based MPPT Technique -- 5 Stability Analysis -- 6 Results and Discussion -- 7 Conclusions -- References -- Optimized Control of an Isolated Wind Energy Conversion System -- 1 Introduction. |
| 2 Wind Energy Background -- 3 Topologies and Control Algorithms -- 4 Wind Energy Conversion System Topologies -- 5 Control Algorithms for Power Quality Improvement -- 6 The Admittance Algorithm -- 6.1 Computation of Reference Currents -- 7 Results -- 8 Optimization Techniques for Fine Tuning the Variables -- 9 Antlion Optimization (ALO) -- 10 Results and Analysis -- 11 Conclusions -- References -- Emerging Technologies for the Integration of Renewable Energy, Energy Storage and Electric Vehicles -- 1 Introduction -- 2 Renewable Energy and Electric Vehicles -- 2.1 Grid Stability and Control with RESs -- 2.2 Electric Vehicles (EVs): Emerging Technologies -- 2.3 Uncertainties -- 2.4 Reliability Assessment with RESs -- 3 Energy Storage -- 3.1 Challenges -- 3.2 Battery Packs -- 3.3 Hybrid Energy Storage System (HESS) -- 4 Conclusions -- References -- Coordinated Control Strategy for LFC in an Islanded Microgrid: A JAYA Algorithm Based Cascade PD-PI Approach -- 1 Introduction -- 2 Mathematical Modeling of Islanded Microgrid -- 2.1 Mathematical Modeling of Various Components in MG -- 3 JAYA Optimization Algorithm -- 4 Results and Discussion -- 5 Scenario 1 (Only Load Disturbances in MG) -- 6 Scenario 2 (Only Wind Disturbances in MG) -- 7 Scenario 3 (Only PV Disturbances in MG) -- 8 Scenario 4 (Concurrent Disturbances in MG) -- 9 Scenario 5 (Parametric Uncertainties in ESSs and MG) -- 10 Scenario 6 (Coordinated and Non-coordinated Approach) -- 11 Conclusions -- References -- Simulation and Analysis of Solar-Wind System for EV Charging -- 1 Introduction -- 2 Solar Energy -- 2.1 Solar Energy on a Flat Panel -- 2.2 Solar Energy on a Tilted Panel -- 2.3 Optimal Tilt for the Panel -- 3 MPPT for Solar and Wind Energy Systems -- 3.1 Modified P& -- O for Solar Energy Systems -- 3.2 P& -- O for Wind Energy System -- 4 Simulation Model. | |
| 5 Results and Discussion -- 6 Conclusions -- Appendix: Solar Geometry Angles -- References -- Performance of Grid-Connected Shunt Active Filter Equipped PV System -- 1 Introduction -- 2 Configuration of Investigated PV System -- 3 PV Array Modeling Characteristic -- 4 Active Power Filter Modeling -- 5 Nonlinear Load Model -- 6 Grid Modeling -- 7 Control of Grid Integrated PV System -- 8 MPPT Algorithm -- 9 Active Power Filter Control -- 10 Modeling a System with MATLAB/Simulink -- 11 Result and Discussion -- 12 Conclusions -- References -- Smart Energy Management Model for Electric Vehicles -- 1 Introduction -- 2 Smart Charging and Energy Storage -- 3 Smart Routing and Grid-Friendly Charging -- 4 Vehicle to Grid Technology -- 5 Onboard DC/AC Inverter -- 6 Proposed Converter Topology -- 7 Simulation Results and Discussion -- 8 Conclusions -- References -- Improved Linear Sinusoidal Tracer Based Control for Three-Phase VSC in Photovoltaics -- 1 Introduction -- 2 Maximum Power Point Tracking (MPPT) Algorithms -- 2.1 Classification of MPPT Algorithms -- 2.2 Overview of Incremental Conductance Algorithm -- 3 Voltage Source Inverter (VSI) Control -- 3.1 Proposed Algorithm for VSI -- 4 Harmonic Mitigation and Power Quality Improvement -- 5 Simulation and Implementation -- 6 Conclusions -- References -- Analysis, Modeling and Implementation of Electric Vehicle Converter Configurations -- 1 Introduction -- 2 Electric Vehicle Controllers and Challenges -- 2.1 Types of Controllers -- 2.2 Analysis of Charging Station, Types, and Challenges -- 3 Electric Vehicle Converter Types, Challenges, Configuration and Control Schemes -- 3.1 Non-isolated Converter -- 3.2 Isolated Converter -- 4 Results and Discussion -- 4.1 Flyback Converter -- 4.2 Push-Pull Buck Converter -- 4.3 CUK Converter -- 4.4 Buck Converter -- 4.5 Boost Converter. | |
| 4.6 Buck-Boost Converter: Average-Value DC-DC Converter Control -- 4.7 Buck-Boost -- 4.8 Bidirectional DC-DC Converter -- 4.9 Ultracapacitor with Converter -- 5 Conclusions -- References -- Integration of Electric Vehicles with Smart Grid -- 1 Introduction -- 2 Electric Vehicle (EV) Charging Infrastructure -- 2.1 Understanding the Basics of EV Charging -- 2.2 Deployment of EV Charging Infrastructure -- 2.3 Smart Charging Technologies -- 3 Grid Integration Challenges -- 3.1 Peak Demand Management -- 3.2 Grid Congestion -- 4 Vehicle-to-Grid Technology -- 4.1 Applying Distributed Model Predictive Control (DMPC) for Voltage Regulation in Distributed Networks -- 4.2 Components of the DMPC Model -- 4.3 Layers of DMPC Framework -- 4.4 Advantages and Importance -- 4.5 Operational Range of EV Chargers -- 4.6 Modelling of EV Chargers -- 4.7 Modeling of Grid -- 4.8 Framework of Proposed Scheme -- 5 Conclusions -- References -- Installation of UPQC in Radial Distribution System for Enhancement of Voltage Profile -- 1 Introduction -- 2 Unified Power Quality Conditioner (UPQC) -- 2.1 Block Diagram -- 2.2 Mathematical Modelling -- 3 Solution Methodology -- 3.1 Load Flow Analysis -- 3.2 Placement of UPQC -- 4 Results and Discussions -- 5 Conclusion -- 6 Appendix -- References -- Infinite Impulse Response Peak Filter with Salp Swarm Optimization Technique for Improvement of DVR Reliability -- 1 Introduction -- 2 DVR Structure Description -- 3 IIR Control Strategy -- 3.1 Unit Templates Estimation -- 3.2 Magnitude Estimation of Active Source Power Component -- 3.3 Estimation of Magnitude Source Reactive Power Component -- 3.4 Optimization Technique (OT) Using Salp Swarm Optimization (SS) -- 3.5 Switching Pulses from VSC -- 4 MTTF of Proposed DVR -- 5 Results and Discussion -- 5.1 Voltage Sag Performance with an IIR Peak Filter-Based DVR. | |
| 5.2 Voltage Swell Performance with an IIR Peak Filter-Based DVR -- 5.3 Unbalanced Voltages Performance with an IIR Peak Filter-Based DVR -- 5.4 Voltage Harmonics Performance with an IIR Peak Filter-Based DVR -- 6 Conclusion -- Appendix -- References -- Design of Fuzzy Logic Controller Based BLDC Motor -- 1 Introduction -- 2 Operation and Mathematical Model of BLDC Motor -- 2.1 Operation -- 2.2 Mathematical Model -- 3 Speed Control of BLDC Motor -- 3.1 PI Controllers -- 3.2 PID Controllers -- 3.3 Fuzzy Logic Controller (FLC) -- 4 Simulation Results and Discussion -- 4.1 Simulation Model of BLDC Motor with PI Controller -- 4.2 Simulation Model of BLDC Motor with PID Controller -- 4.3 Simulation Model of BLDC Motor with Fuzzy Logic Controller -- 5 Conclusions -- References -- Impact of Discrete-Time Modeling on Dual Input Modified SEPIC Converter -- 1 Introduction -- 2 TI-MBS DC-DC Converter -- 3 State-Space Modelling Aspects of TI-MBS DC-DC Converter -- 3.1 State-Variable Modelling -- 3.2 Small-Signal Continuous-Time Modeling -- 4 Derivation of TFM Using Small-Signal Discrete-Time Model -- 4.1 Small Signal Discrete Model Parameters of TI-MBS Converter with Trailing Edge DPWM -- 4.2 Small Signal Discrete Model Parameters of TI-MBS Converter with Leading Edge DPWM -- 5 Simulation Results -- 5.1 Experimental Results -- 6 Conclusions -- References -- Directional Relaying Issues in Power Transmission Networks -- 1 Introduction -- 2 Problem Statement and Proposed Solutions -- 2.1 Issues Generated with Directional Relay in Series Compensated Power System -- 2.2 Issues Generated with Directional Relay in UPFC Compensated Power System -- 2.3 Issues Generated with Directional Relay in Grid Connected Photovoltaic System -- 3 Simulation Results -- 3.1 Performance of Proposed Directional Relay in Series Compensated Power System. | |
| 3.2 Performance of UPFC Compensated Power System. | |
| Titolo autorizzato: | Energy and Environmental Aspects of Emerging Technologies for Smart Grid |
| ISBN: | 3-031-18389-4 |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910864189203321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |
Serie:
Green Energy and Technology Series