000			15953cam a2200697Ka 4500
001			ocn830324016
003			OCoLC
005			20170830092846.0
006			m o d
007			cr cnu---unuuu
008			130318s2012 enka ob 001 0 eng d
020			_a9781118562703 _q(electronic bk.)
020			_a1118562704 _q(electronic bk.)
020			_a9781118562895 _q(electronic bk.)
020			_a1118562895 _q(electronic bk.)
020			_z9781848212619
029	1		_aCHBIS _b010026695
029	1		_aCHVBK _b306230089
029	1		_aDEBBG _bBV043648144
029	1		_aDEBSZ _b431321809
029	1		_aNZ1 _b15916388
035			_a(OCoLC)830324016 _z(OCoLC)826685679 _z(OCoLC)827208501
040			_aN$T _beng _epn _cN$T _dYDXCP _dCDX _dE7B _dDG1 _dN$T _dOCLCF _dEBLCP _dDEBSZ _dUIU _dOCLCQ _dDEBBG _dOCLCQ _dDG1
049			_aMAIN
050		4	_aTK3105 _b.S545 2012eb
072		7	_aTEC _x031020 _2bisacsh
082	0	4	_a333.793/2 _223
245	0	0	_aSmartGrids / _cedited by Nouredine Hadjsaïd, Jean-Claude Sabonnadière. _h[electronic resource]
260			_aLondon : _bISTE ; _aHoboken, NJ : _bWiley, _c2012.
300			_a1 online resource (xix, 358 pages) : _billustrations.
336			_atext _btxt _2rdacontent
337			_acomputer _bc _2rdamedia
338			_aonline resource _bcr _2rdacarrier
490	1		_aISTE
504			_aIncludes bibliographical references and index.
505	0	0	_gMachine generated contents note: _gch. 1 _tSmartGrids: Motivation, Stakes and Perspectives / _rNouredine Hadjsaïd and _rJean-Claude Sabonnadiere -- _g1.1. _tIntroduction -- _g1.1.1. _tThe new energy paradigm -- _g1.2. _tInformation and communication technologies serving the electrical system -- _g1.3. _tIntegration of advanced technologies -- _g1.4. _tThe European energy perspective -- _g1.5. _tShift to electricity as an energy carrier (vector) -- _g1.6. _tMain triggers of the development of SmartGrids -- _g1.7. _tDefinitions of SmartGrids -- _g1.8. _tObjectives addressed by the SmartGrid concept -- _g1.8.1. _tSpecific case of transmission grids -- _g1.8.2. _tSpecific case of distribution grids -- _g1.8.3. _tThe desired development of distribution networks: towards smarter grids -- _g1.9. _tSocio-economic and environmental objectives -- _g1.10. _tStakeholders involved the implementation of the SmartGrid concept -- _g1.11. _tResearch and scientific aspects of the SmartGrid -- _g1.11.1. _tExamples of the development of innovative concepts -- _g1.11.2. _tScientific, technological, commercial and sociological challenges.
505	0	0	_g1.12. _tPreparing the competences needed for the development of SmartGrids -- _g1.13. _tConclusion -- _g1.14. _tBibliography -- _gch. 2 _tFrom the SmartGrid to the Smart Customer: the Paradigm Shift / _rCatherine Failliet -- _g2.1. _tKey trends -- _g2.1.1. _tThe crisis -- _g2.1.2. _tEnvironmental awareness -- _g2.1.3. _tNew technologies -- _g2.2. _tThe evolution of the individual's relationship to energy -- _g2.2.1. _tCuriosity -- _g2.2.2. _tThe need for transparency -- _g2.2.3. _tResponsibility -- _g2.3. _tThe historical model of energy companies -- _g2.3.1. _tIncumbents in a natural monopoly -- _g2.3.2. _tA clear focus on technical knowledge -- _g2.3.3. _tUndeveloped customer relationships -- _g2.4. _tSmartGrids from the customer's point of view -- _g2.4.1. _tThe first step: the data revolution -- _g2.4.2. _tThe second step: the establishment of a smart ecosystem -- _g2.4.3. _tThe consumers' reluctance -- _g2.5. _tWhat about possible business models? -- _g2.5.1. _tAn unprecedented global buzz and the search for a business model -- _g2.5.2. _tGovernment research into a virtuous model of regulation -- _g2.5.3. _tAn opening for new stakeholders -- _g2.6. _tBibliography.
505	0	0	_gCh. 3 _tTransmission Grids: Stakeholders in SmartGrids / _rHerve Mignon -- _g3.1. _tA changing energy context: the development of renewable energies -- _g3.2. _tA changing energy context: new modes of consumption -- _g3.3. _tNew challenges -- _g3.4. _tAn evolving transmission grid -- _g3.5. _tConclusion -- _g3.6. _tBibliography -- _gch. 4 _tSmartGrids and Energy Management Systems / _rJean-Louis Coullon -- _g4.1. _tIntroduction -- _g4.2. _tManaging distributed production resources: renewable energies -- _g4.2.1. _tCharacterization of distributed renewable production -- _g4.2.2. _tIntegrating renewable energies into the management process -- _g4.3. _tDemand response -- _g4.4. _tDevelopment of storage, microgrids and electric vehicles -- _g4.4.1. _tNew storage methods -- _g4.4.2. _tMicrogrids -- _g4.4.3. _tElectric vehicles -- _g4.5. _tManaging high voltage direct current connections -- _g4.6. _tGrid reliability analysis -- _g4.6.1. _tModel-based stability analysis -- _g4.6.2. _tContinuous measurements-based analysis: phasor measurement units -- _g4.6.3. _tDynamic limits -- _g4.6.4. _tSelf-healing grids -- _g4.7. _tSmart asset management.
505	0	0	_g4.8. _tSmart grid rollout: regulatory needs -- _g4.8.1. _tThe need for pilot projects -- _g4.8.2. _tIncentives for investment in grid reliability -- _g4.8.3. _tRenewables -- _g4.8.4. _tInvestment incentives for energy efficiency -- _g4.8.5. _tCost/profit allocation -- _g4.8.6. _tNew regulatory frameworks -- _g4.9. _tStandards -- _g4.9.1. _tThe case of smart grids -- _g4.9.2. _tWork in progress -- _g4.9.3. _tCooperation -- _g4.10. _tSystem architecture items -- _g4.10.1. _tBroaden the vision -- _g4.10.2. _tTaking vertical changes into consideration -- _g4.10.3. _tDeveloping integration tools -- _g4.11. _tAcknowledgements -- _g4.12. _tBibliography -- _gch. 5 _tThe Distribution System Operator at the Heart of the SmartGrid Revolution / _rPierre Mallet -- _g5.1. _tBrief overview of some of the general elements of electrical distribution grids -- _g5.2. _tThe current changes: toward greater complexity -- _g5.3. _tSmart grids enable the transition to carbon-free energy -- _g5.4. _tThe different constituents of SmartGrids -- _g5.5. _tSmart Life -- _g5.6. _tSmart Operation -- _g5.7. _tSmart Metering -- _g5.7.1. _tThe Linky project -- _g5.7.2. _tNew services for customers.
505	0	0	_g5.7.3. _tSmart meters can significantly modernize grid management -- _g5.8. _tSmart Services -- _g5.9. _tSmart local optimization -- _g5.9.1. _tDistributed generation -- _g5.9.2. _tActive management of demand -- _g5.9.3. _tMeans of distributed storage -- _g5.9.4. _tNew uses including electric vehicles -- _g5.9.5. _tLocal optimization of the system -- _g5.10. _tThe distributor ERDF is at the heart of future SmartGrids -- _g5.11. _tBibliography -- _gch. 6 _tArchitecture, Planning and Reconfiguration of Distribution Grids / _rBertrand Raison -- _g6.1. _tIntroduction -- _g6.2. _tThe structure of distribution grids -- _g6.2.1. _tHigh voltage/medium voltage delivery stations -- _g6.2.2. _tMeshed and looped grids -- _g6.2.3. _tTypes of conductor -- _g6.2.4. _tUnderground/overhead -- _g6.2.5. _tMV/LV substations -- _g6.3. _tPlanning of the distribution grids -- _g6.3.1. _tPrinciples of planning/engineering -- _g6.3.2. _tAll criteria to be met by the proposed architectures -- _g6.3.3. _tExample on a secured feeder grid -- _g6.3.4. _tLong-term and short-term planning -- _g6.3.5. _tThe impact of connecting DGs on the MV grid structure -- _g6.3.6. _tIncreasing the DG insertion rate in the grid.
505	0	0	_g6.3.7. _tProposal for a new looped architecture: the hybrid structure -- _g6.4. _tReconfiguration for the reduction of power losses -- _g6.4.1. _tThe problem of copper losses -- _g6.4.2. _tMathematic formulation of the optimization problem -- _g6.4.3. _tCombinatorial optimization -- _g6.4.4. _tDifferent approaches to finding the optimal configuration -- _g6.4.5. _tReconfiguration of the partially meshed grids -- _g6.5. _tBibliography -- _gch. 7 _tEnergy Management and Decision-aiding Tools / _rTran-Quoc Tuan -- _g7.1. _tIntroduction -- _g7.2. _tVoltage control -- _g7.2.1. _tIntroduction to voltage control in distribution networks -- _g7.2.2. _tVoltage control in current distribution networks -- _g7.2.3. _tVoltage control in distribution networks with dispersed generation -- _g7.2.4. _tVoltage control conclusion -- _g7.3. _tProtection schemes -- _g7.3.1. _tMV protection scheme -- _g7.3.2. _tNeutral grounding modes -- _g7.3.3. _tFault characteristics -- _g7.3.4. _tPower outages -- _g7.3.5. _tImpact of decentralized production on the operation of protections of the feeder -- _g7.4. _tReconfiguration after a fault: results of the INTEGRAL project.
505	0	0	_g7.4.1. _tGoals of the INTEGRAL project -- _g7.4.2. _tDemonstrator description -- _g7.4.3. _tGeneral self-healing principles -- _g7.4.4. _tSome results -- _g7.5. _tReliability -- _g7.5.1. _tBasic concepts of the Monte Carlo simulation -- _g7.5.2. _tConclusion on reliability -- _g7.6. _tBibliography -- _gch. 8 _tIntegration of Vehicles with Rechargeable Batteries into Distribution Networks / _rGeorge Gross -- _g8.1. _tThe revolution of individual electrical transport -- _g8.1.1. _tAn increasingly credible technology -- _g8.1.2. _tExample: the Fluence ZE -- _g8.1.3. _tWhat are the consequences on the electrical network? -- _g8.1.4. _tDemand management and vehicle-to-grid -- _g8.2. _tVehicles as "active loads" -- _g8.2.1. _tEnergetic services -- _g8.2.2. _tFrequency regulation -- _g8.2.3. _tLoad reserve and shedding -- _g8.2.4. _tOther services -- _g8.3. _tEconomic impacts -- _g8.3.1. _tA potentially lucrative but limited market -- _g8.3.2. _tNew business models -- _g8.3.3. _tMarket integration -- _g8.4. _tEnvironmental impacts -- _g8.4.1. _tSynergy with intermittent sources -- _g8.4.2. _tEnergetic efficiency -- _g8.4.3. _tOther advantages.
505	0	0	_g8.4.4. _tEvaluating environmental impacts -- _g8.5. _tTechnological challenges -- _g8.5.1. _tArchitecture -- _g8.5.2. _tCommunication infrastructure -- _g8.5.3. _tControl strategy -- _g8.5.4. _tFeedback -- _g8.6. _tUncertainty factors -- _g8.6.1. _tElectric vehicle adoption -- _g8.6.2. _tViability of demand management -- _g8.6.3. _tTechnological factors -- _g8.6.4. _tEconomic factors -- _g8.7. _tConclusion -- _g8.8. _tBibliography -- _gch. 9 _tHow Information and Communication Technologies Will Shape SmartGrids / _rGilles Privat -- _g9.1. _tIntroduction -- _g9.2. _tControl decentralization -- _g9.2.1. _tWhy smart grids will not be "intelligent networks" -- _g9.2.2. _tFrom the "home area network" to the "smart home grid": extension of the local data network to the electrical grid for the home -- _g9.2.3. _tThe "smart home grid" for the local optimization of energy efficiency -- _g9.2.4. _tFrom the home to microgrids: towards the autonomous control of subnetworks -- _g9.3. _tInteroperability and connectivity -- _g9.3.1. _t"Utility computing": when the electrical grid is a model for information technologies -- _g9.3.2. _tAvatars of connectivity, when moving up from the physical layer to information models.
505	0	0	_g9.4. _tFrom synchronism to asynchronism -- _g9.4.1. _tAbsolute and relative low-level and top-level synchronism -- _g9.4.2. _tFrom asynchronous data to asynchronous electricity -- _g9.4.3. _tFrom data packets to energy packets -- _g9.5. _tFuture Internet for SmartGrids -- _g9.5.1. _tTowards a shared infrastructure for SmartGrids and physical networks: sensors -- _g9.5.2. _tTowards a shared infrastructure: SmartGrids in the cloud -- _g9.6. _tConclusion -- _g9.7. _tBibliography -- _gch. 10 _tInformation Systems in the Metering and Management of the Grid / _rHerve Barancourt -- _g10.1. _tIntroduction -- _g10.1.1. _tClassification of the information systems -- _g10.1.2. _tApproach -- _g10.2. _tThe metering information system -- _g10.2.1. _tPresentation of the metering system.
505	0	0	_gNote continued: _g10.2.2. _tArchitecture of the metering system -- _g10.2.3. _tThe manipulated data -- _g10.2.4. _tThe deployment of a metering system -- _g10.3. _tInformation system metering in the management of the grid -- _g10.3.1. _tLinks with IS management of the distribution network -- _g10.3.2. _tThe SmartGrid triptych -- _g10.4. _tConclusion: urbanization of the metering system -- _g10.4.1. _tTwo approaches -- _g10.4.2. _tThe "pro'sumer's" information -- _g10.4.3. _tSummary -- _g10.5. _tBibliography -- _gch. 11 _tSmart Meters and SmartGrids: an Economic Approach / _rJacques Percebois -- _g11.1. _t"Demand response": a consequence of opening the electricity industry and the rise in environmental concerns -- _g11.1.1. _tThe specific features of electricity -- _g11.1.2. _tThe impact of introducing competition.
505	0	0	_g11.1.3. _tThe impact of the objectives for reducing CO2 emissions -- _g11.2. _tTraditional regulation via pricing is no longer sufficient to avoid the risk of "failure" during peaks -- _g11.2.1. _tCoping with failures -- _g11.2.2. _tExpensive advanced means reduces the incentive to invest -- _g11.2.3. _tEmphasizing the seasonal differentiation of prices -- _g11.3. _tSmart meters: a tool for withdrawal and market capacity -- _g11.3.1. _tTowards a market of withdrawal -- _g11.3.2. _tWho is financing the installation of the meters? -- _g11.3.3. _tWhat are the economic results of the operation? -- _g11.4. _tFrom smart meters to SmartGrids-the results -- _g11.5. _tBibliography -- _gch. 12 _tThe Regulation of SmartGrids / _rDidier Laffaille -- _g12.1. _tThe regulation and funding of SmartGrids -- _g12.1.1. _tMust R & D expenditure be submitted to an incentive mechanism? -- _g12.1.2. _tHow to cope with the deployment costs of SmartGrids?
505	0	0	_g12.1.3. _tWhich investments will be supported by transmission tariffs and to what extent? -- _g12.1.4. _tShould cooperation be established? -- _g12.2. _tRegulation and economic models -- _g12.3. _tEvolution of the value chain -- _g12.3.1. _tHow will the energy and ICT sectors work together? -- _g12.3.2. _tWhat will be the role of consumers and new players in the value chain? -- _g12.4. _tThe emergence of a business model for smart grids -- _g12.4.1. _tDo we need an energy regulatory framework to enhance the deployment of SmartGrids within Europe? -- _g12.4.2. _tWhat variation is there in France? -- _g12.5. _tRegulation can assist in the emergence of SmartGrids -- _g12.5.1. _tHow to ensure that system operators will account for public interest in their investment decisions? -- _g12.5.2. _tThe Linky smart meter -- _g12.5.3. _tHow to finance investments in SmartGrids? -- _g12.5.4. _tWhich energy regulatory framework should be used to encourage efficient investments in the SmartGrids?
505	0	0	_g12.5.5. _tWhat kind of development in prices would be acceptable for the consumer? -- _g12.5.6. _tHow else can the energy regulator facilitate the development of a SmartGrid system? -- _g12.6. _tThe business models are yet to be created -- _g12.7. _tThe standardization of SmartGrids -- _g12.7.1. _tWhy is standardization an essential factor in efficiently developing the electrical system? -- _g12.7.2. _tIs standardization a response to the need for interoperability in SmartGrids? -- _g12.7.3. _tWhat standardization efforts are being made for SmartGrids in Europe? -- _g12.7.4. _tIs standardization an important commercial issue for the European sector? -- _g12.8. _tConclusion -- _g12.9. _tBibliography.
520			_aOn a worldwide basis, the development of SmartGrids is a consistent answer to the problem of an efficient and sustainable delivery of electric energy through distribution grids. SmartGrids are a combination of information and communication technologies and new energy technologies. There are many different definitions of the concept of SmartGrids and thus it appears indispensable to gather the knowledge available from both industry and research laboratories in one book. Distributed generation is rightly receiving an increased amount of attention and will become an integral part of urban ener.
588	0		_aPrint version record.
650		0	_aSmart power grids.
650		7	_aTECHNOLOGY & ENGINEERING _xPower Resources _xElectrical. _2bisacsh
650		7	_aSmart power grids. _2fast _0(OCoLC)fst01792824
655		4	_aElectronic books.
700	1		_aHadjsaïd, Nouredine.
700	1		_aSabonnadière, Jean-Claude.
776	0	8	_iPrint version: _tSmartGrids. _dLondon : ISTE ; Hoboken, NJ : Wiley, 2012 _z9781848212619 _w(DLC) 2012006916 _w(OCoLC)670479676
830		0	_aISTE.
856	4	0	_uhttp://onlinelibrary.wiley.com/book/10.1002/9781118602638 _zWiley Online Library
942			_2ddc _cBK
999			_c208337 _d208337