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Title Microgrids : modeling, control, and applications / edited by Josep M. Guerrero and Ritu Kandari.

Imprint London : Academic Press, [2022]

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Location Call No. OPAC Message Status
 Axe Elsevier ScienceDirect Ebook  Electronic Book    ---  Available
Description 1 online resource
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Note Includes index.
Print version record.
Contents Front Cover -- Microgrids -- Copyright Page -- Dedication -- Contents -- List of contributors -- I. Introduction to microgrids -- 1 Microgrids, their types, and applications -- 1.1 Introduction -- 1.2 Microgrid classification -- 1.3 Structure -- 1.4 Modes of operation -- 1.5 Control of AC microgrid -- 1.5.1 Hierarchical control schemes -- 1.6 Control of DC microgrid -- 1.6.1 Control structures -- 1.7 Control of hybrid (AC/DC) microgrid -- 1.8 Microgrid research areas -- 1.9 Solar -- 1.9.1 Independent (or stand-alone) PV system -- 1.9.2 Grid-connected PV system -- 1.9.3 PV modeling -- 1.10 Maximum power point tracking -- 1.10.1 P& -- O method -- 1.11 Wind turbine system -- 1.12 Battery -- 1.12.1 Lithium-ion battery -- 1.12.2 Lead-acid battery -- 1.12.3 Battery modeling -- 1.12.4 Sizing batteries correctly -- 1.12.4.1 Voltage of system (min and max) -- 1.12.4.2 Duty cycle -- 1.12.4.3 Correction factor -- 1.13 Fuel cell -- 1.14 Advantages and applications of microgrid -- 1.15 Conclusion -- References -- II. AC microgrids -- 2 Disturbance observer-aided adaptive sliding mode controller for frequency regulation in hybrid power system -- 2.1 Introduction -- 2.2 System modeling -- 2.2.1 Model of reheated thermal power system -- 2.2.1.1 Transfer function model of double-stage reheat turbine -- 2.2.2 Distributed energy resources -- 2.2.2.1 Wind power generation -- 2.2.2.2 Fuel cell -- 2.2.2.3 Aqua-electrolyzer -- 2.2.2.4 Diesel engine generator -- 2.2.2.5 Battery energy storage system -- 2.3 Disturbance observer-aided adaptive sliding mode load frequency controller -- 2.3.1 Traditional sliding mode load frequency controller (SMLFC) -- 2.3.2 Adaptive sliding mode LFC with disturbance observer -- 2.3.2.1 Adaptive law -- 2.4 Results and discussion -- 2.4.1 Performance analysis of isolated HPS against multiple load perturbation.
2.4.2 Performance analysis of isolated HPS with multiple-step loads and random wind power perturbation -- 2.4.3 Performance analysis of isolated HPS with GRC and GDB -- 2.4.4 Performance analysis of interconnected two-area HPS with multiple-step load and RWPP -- 2.4.5 Performance analysis of two-area HPS with GRC and GDB -- 2.4.6 Robust stability analysis -- 2.5 Conclusion -- References -- 3 Recent advancements in AC microgrids: a new smart approach to AC microgrid monitoring and control using IoT -- 3.1 Introduction -- 3.2 Problem statement -- 3.3 Literature survey -- 3.4 Block diagram -- 3.5 Methodology -- 3.6 Details of hardware and software used -- 3.6.1 LCD display (JDH162A): a 16×2 LCD is a display unit used in different activities -- 3.7 Details about the web portal: ThingSpeak -- 3.8 Algorithm -- 3.9 Software development flowchart -- 3.10 Results and discussions -- 3.10.1 Hardware section of the model -- 3.11 Graphical analysis -- 3.12 Conclusion and future scope -- References -- Further reading -- III. DC microgrids -- 4 DC microgrid -- 4.1 Introduction -- 4.2 DC microgrid -- 4.3 Mode of operation -- 4.4 Advantages of DC microgrid -- 4.5 Standards -- 4.6 DC microgrid architecture -- 4.6.1 Photovoltaics cell/solar -- 4.6.2 DC-DC converters -- 4.7 Principle of chopper -- 4.8 Boost converter -- 4.9 Case-I (switch S is ON) -- 4.10 Case-II (switch S is OFF) -- 4.11 Buck-boost converter -- 4.12 Case-I (switch S is ON) -- 4.13 Case-II (switch S is OFF) -- 4.13.1 Maximum power point tracking controller -- 4.13.2 Storage device-battery -- 4.14 Working principle -- 4.15 Discharging mechanism -- 4.16 Charging mechanism -- 4.17 State of charge and state of health -- 4.18 Types of batteries -- 4.18.1 Modeling -- 4.19 Types of modeling methods -- 4.20 Equivalent circuit model -- 4.21 Data-driven model -- 4.22 Case study -- 4.23 Conclusion -- References.
5 Role of dual active bridge isolated bidirectional DC-DC converter in a DC microgrid -- 5.1 Introduction -- 5.2 Microgrid -- 5.3 Dual-active bridge converter -- 5.3.1 DAB parameter design -- 5.4 Fuzzy logic controller -- 5.5 Performance evaluation -- 5.5.1 Single-phase shift technique -- 5.5.2 Forward conduction mode -- 5.5.3 Reverse conduction mode -- 5.6 Experimental verification -- 5.7 Conclusion -- References -- IV. Hybrid AC/DC microgrids -- 6 Introduction to hybrid AC/DC microgrids -- 6.1 Introduction -- 6.1.1 Hybrid micro-grid -- 6.1.2 The topographies of hybrid micro-grid -- 6.1.3 Need of hybrid micro-grid -- 6.1.4 Comparison between conventional grid and hybrid micro-grid -- 6.2 Architecture of hybrid micro-grid -- 6.3 Architecture of AC-coupled hybrid micro-grid -- 6.4 Architecture of DC-coupled hybrid micro-grid -- 6.5 Architecture of AC-DC coupled hybrid micro-grid -- 6.6 Modeling of hybrid micro-grid components -- 6.6.1 PV system model -- 6.6.2 Wind energy system model -- 6.6.3 Biomass energy model -- 6.6.4 Small-hydro system model -- 6.6.5 Battery model -- 6.6.6 Fuel cell model -- 6.7 Power quality issues in hybrid micro-grid -- 6.8 Control strategies and energy management system for hybrid micro-grid -- 6.8.1 AC-coupled hybrid micro-grid -- 6.8.2 DC-coupled hybrid micro-grid -- 6.8.3 AC-DC coupled hybrid micro-grid -- 6.8.4 Transition between grid-connected and standalone operation mode for energy management -- 6.9 Modeling of hybrid micro-grid -- 6.9.1 Modeling of PV and wind hybrid micro-grid -- 6.9.2 Modeling of PV, wind and biomass hybrid micro-grid -- 6.9.3 Modeling of PV, wind, biomass and small hydro hybrid micro-grid -- 6.10 Mathematical modeling of hybrid micro-grid -- 6.10.1 Modeling of AC micro-grid -- 6.10.2 Modeling of DC micro-grid -- 6.11 Coordination control of the converters -- 6.11.1 Isolated mode.
Subject Microgrids (Smart power grids)
Minirésaux électriques intelligents.
Microgrids (Smart power grids)
Added Author Guerrero, Josep M.
Kandari, Ritu.
Other Form: Print version: 032385463X 9780323854634 (OCoLC)1241443563
Print version: MICROGRIDS. [S.l.] : ELSEVIER ACADEMIC PRESS, 2021 032385463X (OCoLC)1241443563
ISBN 9780323854641 (electronic bk.)
0323854648 (electronic bk.)
9780323854634
032385463X
Standard No. AU@ 000070133220
AU@ 000070156327
UKMGB 020389786

 
    
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