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020 _a9781782420224
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049 _aMAIN
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082 0 4 _a621.3126
_223
245 0 0 _aAdvances in batteries for medium- and large- scale energy storage /
_cedited by Chris Menictas, Maria Skyllas-Kazacos and Tuti Mariana Lim.
264 1 _aCambridge, UK ;
_aWaltham, MA, USA :
_bElsevier Woodhead Publishing,
_c[2015]
264 4 _cò015
300 _a1 online resource (pages cm).
336 _atext
_btxt
_2rdacontent
337 _acomputer
_bc
_2rdamedia
338 _aonline resource
_bcr
_2rdacarrier
490 1 _aWoodhead Publishing series in energy ;
_vnumber 67
504 _aIncludes bibliographical references and index.
505 0 _aFront Cover; Advances in Batteries for Medium- and Large-scale Energy Storage; Copyright; Contents; List of contributors; Woodhead Publishing Series in Energy; Part One: Introduction; Chapter 1: Electrochemical cells for medium- and large-scale energy storage: fundamentals; 1.1. Introduction; 1.2. Potential and capacity of an electrochemical cell; 1.2.1. Theoretical potential; 1.2.2. Actual cell potential; 1.2.2.1. Ohmic overpotential; 1.2.2.2. Activation overpotential; 1.2.2.3. Concentration overpotential; 1.2.3. Capacity; 1.2.3.1. Theoretical capacity and actual capacity.
505 8 _a1.2.3.2. Capacity decay in secondary battery systems1.2.4. Other important parameters of electrochemical cells; 1.3. Electrochemical fundamentals in practical electrochemical cells; 1.3.1. Electrochemical fundamentals of the lithium-ion battery; 1.3.2. Electrochemical fundamentals of the redox flow battery; 1.3.3. Electrochemical fundamentals of the sodium battery; References; Chapter 2: Economics of batteries for medium- and large-scale energy storage; 2.1. Introduction; Case study1-small scale; Case study2-large scale; 2.2. Small-scale project; 2.2.1. Simulation inputs.
505 8 _a2.2.1.1. Primary load data2.2.1.2. Solar resource and photovoltaic module; 2.2.1.3. Wind resource and turbine; 2.2.1.4. Energy storage systems; 2.2.1.4.1. Lead-acid battery: Surrette S4KS25P; 2.2.1.4.2. Vanadium redox flow battery; 2.2.1.5. Diesel generator; 2.2.1.6. Additional considerations; 2.2.2. Simulation results and discussion; 2.2.2.1. Energy storage system vs. diesel generator; 2.2.2.2. Flow-type battery (VRB) versus lead-acid battery; 2.3. Large-scale project; 2.3.1. Simulation inputs; 2.3.1.1. Primary load data; 2.3.1.2. Solar resource and photovoltaic module.
505 8 _a2.3.1.3. Wind resource and turbine2.3.1.4. Energy storage system and additional considerations; 2.3.2. Simulation results and discussion; 2.3.2.1. Energy storage system (VRB) vs. diesel generator; 2.3.2.2. Vanadium redox flow battery vs. lead-acid battery; 2.4. Conclusions; References; Part Two: Lead, nickel, sodium, and lithium-based batteries; Chapter 3: Lead-acid batteries for medium- and large-scale energy storage; 3.1. Introduction; 3.2. Electrochemistry of the lead-acid battery; 3.3. Pb-acid battery designs; 3.4. Aging effects and failure mechanisms; 3.5. Advanced lead-acid batteries.
505 8 _a3.6. Applications of lead-acid batteries in medium- and long-term energy storage3.7. Summary and future trends; References; Chapter 4: Nickel-based batteries for medium- and large-scale energy storage; 4.1. Introduction; 4.2. Basic battery chemistry; 4.2.1. Ni-Cd battery; 4.2.2. Ni-MH battery; 4.3. Battery development and applications; 4.3.1. Ni-Cd; 4.3.1.1. Positive and negative electrodes; 4.3.1.2. Classification; 4.3.1.3. Application; 4.3.2. Ni-MH battery; 4.3.2.1. Negative electrode; 4.3.2.2. Electrolyte and separator; 4.3.2.3. Construction; 4.3.2.4. Ni-Cd versus Ni-MH batteries.
520 _aAs energy produced from renewable sources is increasingly integrated into the electricity grid, interest in energy storage technologies for grid stabilisation is growing. This book reviews advances in battery technologies and applications for medium and large-scale energy storage. Chapters address advances in nickel, sodium and lithium-based batteries. Other chapters review other emerging battery technologies such as metal-air batteries and flow batteries. The final section of the book discuses design considerations and applications of batteries in remote locations and for grid-scale storage. R.
588 0 _aOnline resource; title from PDF title page (EBSCO; viewed on February 12, 2015).
590 _aElsevier
_bScienceDirect All Books
650 0 _aStorage batteries.
650 0 _aStorage batteries
_xMaterials.
650 0 _aEnergy storage
_xEquipment and supplies.
650 0 _aElectric power systems.
650 7 _aTECHNOLOGY & ENGINEERING
_xMechanical.
_2bisacsh
650 7 _aElectric power systems.
_2fast
_0(OCoLC)fst00905529
650 7 _aEnergy storage
_xEquipment and supplies.
_2fast
_0(OCoLC)fst00910248
650 7 _aStorage batteries.
_2fast
_0(OCoLC)fst01133980
650 7 _aStorage batteries
_xMaterials.
_2fast
_0(OCoLC)fst01133984
655 4 _aElectronic books.
700 1 _aMenictas, Chris,
_eeditor.
700 1 _aSkyllas-Kazacos, Maria,
_eeditor.
700 1 _aLim, Tuti Mariana,
_eeditor.
776 0 8 _iPrint version:
_aMenictas, C.
_tAdvances in Batteries for Medium and Large-Scale Energy Storage : Types and Applications.
_dBurlington : Elsevier Science, ò014
_z9781782420132
830 0 _aWoodhead Publishing in energy ;
_vno. 67.
856 4 0 _uhttps://eresourcesptsl.ukm.remotexs.co/user/login?url=http://www.sciencedirect.com/science/book/9781782420132
907 _a.b16399808
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