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008			161221s2015 ne ob 000 0 eng d
020			_a9780128033753 _qelectronic bk.
020			_a0128033754 _qelectronic bk.
020			_z9780128033746
020			_a0128033746
020			_a9780128033746
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035			_a(OCoLC)914706364 _z(OCoLC)915311599
035			_a(OCoLC)ocn914706364
039		9	_y12-21-2016 _zhafiz _wmetacoll.MYUKM.updates.D20160920.T210208.sdallbooks.1 (perolehan)hafizupload21122016.mrc _x197
040			_aNST _beng _erda _epn _cNST _dNST _dOPELS _dYDXCP _dOCLCF _dCDX _dEBLCP _dIDEBK _dZCU _dKNOVL _dDEBSZ _dCOO
049			_aMAIN
050		4	_aTK3105
072		7	_aTEC _x009070 _2bisacsh
082	0	4	_a621.31 _223
100	1		_aGao, David Wenzhong, _eauthor.
245	1	0	_aEnergy storage for sustainable microgrid / _cDavid Wenzhog Gao.
264		1	_aAmsterdam : _bAcademic Press is an imprint of Elsevier, _c2015.
264		4	_cò015
300			_a1 online resource.
336			_atext _btxt _2rdacontent
337			_acomputer _bc _2rdamedia
338			_aonline resource _bcr _2rdacarrier
504			_aIncludes bibliographical references.
505	0		_aFront Cover; Energy Storage for Sustainable Microgrid; Copyright Page; Contents; Foreword; 1 Basic Concepts and Control Architecture of Microgrids; 1.1 Introduction; 1.1.1 Concepts of Microgrids; 1.1.2 Benefits of Microgrids; 1.1.3 Integration of Microgrid to Distribution Networks; 1.1.4 Basic Components and Operation Strategies in Microgrids; 1.1.5 Microgrid Market Models; 1.2 Microgrid Control Issues; 1.2.1 Introduction; 1.2.2 Centralized Control Versus Decentralized Control; 1.2.3 Forecasting; 1.2.4 State Estimation; 1.2.4.1 Least Squares Estimation
505	8		_a1.2.4.2 Weighted Least Squares Estimation1.2.4.3 Newton-Raphson Algorithm; 1.3 Microgrid Control Methods; 1.3.1 PQ Control; 1.3.2 V/f Control; 1.3.3 Droop Control; 1.3.3.1 Active Power Control; 1.3.3.2 Voltage Control; 1.4 Control Architectures in Microgrids; 1.4.1 Master-Slave Control; 1.4.2 Peer-to-peer Control; 1.4.3 Hierarchy Control; 1.5 Microgrid Protection; 1.6 Three-Phase Circuit for Grid-Connected DG; 1.6.1 LC Filter; 1.6.2 Isolation Transformer; 1.7 Energy Storage Technology in Renewable Microgrids; 1.7.1 Batteries; 1.7.1.1 Lead-Acid Batteries; 1.7.1.2 Lithium-Ion Batteries
505	8		_a1.7.1.3 Redox-Flow Battery1.7.1.4 Sodium Battery; 1.7.2 Flywheels; 1.7.3 Supercapacitor; 1.7.4 Comparison of Various ESS Technologies; 1.7.5 Battery Energy Storage Modeling Consideration; References; 2 Applications of ESS in Renewable Energy Microgrids; 2.1 Introduction; 2.2 Aggregated ESS; 2.3 Distributed ESS; 2.3.1 Generator Side Distributed ESS; 2.3.2 Load Side Distributed ESS; 2.4 Energy Management (Load Leveling and Peak Shifting); 2.4.1 Load Leveling; 2.4.2 Peak Shifting; 2.5 Fluctuation Suppression (Intermittency Mitigation); 2.5.1 Constant Power Control; 2.5.2 Output Filtering
505	8		_a2.5.3 Ramp-rate Control2.6 Uninterruptible Power System (UPS); 2.7 Low-Voltage Ride Through; 2.8 Placement of the ESS to Improve Power Quality; 2.9 Voltage Regulation Using ESS; 2.9.1 The Threshold Value for ESS Voltage Regulation Activation; 2.9.2 Upper Limit of ESS Reactive Power Output; 2.9.3 Reactive Power Support by ESS; 2.9.4 Automatic Substitution of ESS Reactive Power Regulation Capacity; 2.9.5 The Reactive Power Control Strategy Verification Case; 2.10 ESS as Spinning Reserve; 2.11 Case Study: Operating Reserves Using ESS; 2.11.1 Problem Formulation; 2.11.2 Simulation Setup
505	8		_a2.11.3 Simulation Results and DiscussionsReferences; 3 Interfacing Between an ESS and a Microgrid; 3.1 Introduction; 3.2 DC-DC Converter; 3.2.1 Buck Converter (Step-Down Converter); 3.2.2 Boost Converter (Step-Up Converter); 3.2.3 Bidirectional Buck-Boost Converter; 3.3 AC-DC and DC-AC Converter; 3.3.1 Single-Phase AC-DC Rectifier; 3.3.1.1 Single-Phase Half-Wave Rectifier; 3.3.1.2 Single-Phase Full-Wave Rectifier; 3.3.2 Three-Phase AC-DC Rectifier; 3.3.2.1 Three-Phase Half-Wave Rectifier; 3.3.2.2 Three-Phase Full-Wave Rectifier; 3.3.3 Single-Phase DC-AC Inverter
520			_aEnergy Storage for Sustainable Microgrid addresses the issues related to modelling, operation and control, steady-state and dynamic analysis of microgrids with ESS. This book discusses major electricity storage technologies in depth along with their efficiency, lifetime cycles, environmental benefits and capacity, so that readers can envisage which type of storage technology is best for a particular microgrid application. This book offers solutions to numerous difficulties such as choosing the right ESS for the particular microgrid application, proper sizing of ESS for microgrid, as well as.
588	0		_aOnline resource; title from PDF title page (EBSCO, viewed July 29, 2015).
590			_aElsevier _bScienceDirect All Books
650		0	_aSmart power grids.
650		0	_aRenewable energy sources _xResearch.
650		7	_aTECHNOLOGY & ENGINEERING / Mechanical _2bisacsh
650		7	_aRenewable energy sources _xResearch. _2fast _0(OCoLC)fst01094593
650		7	_aSmart power grids. _2fast _0(OCoLC)fst01792824
650		4	_aEnergy Storage.
650		4	_aSmart power grids.
655		4	_aElectronic books.
655		0	_aElectronic books.
776	0	8	_iPrint version: _aGao, David Wenzhong _tEnergy Storage for Sustainable Microgrid _dBurlington : Elsevier Science,c2015 _z9780128033746
856	4	0	_uhttps://eresourcesptsl.ukm.remotexs.co/user/login?url=http://www.sciencedirect.com/science/book/9780128033746
907			_a.b16401153 _b2022-11-03 _c2019-11-12
942			_n0
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998			_ae _b2016-08-12 _cm _dz _feng _gne _y0 _z.b16401153
999			_c613501 _d613501