Modelling of phase diagrams for renewable energy materials
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库存241件
广东广州
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作者Cui Jaxin,E Dianyun,Dan Jiayun[著]
出版社冶金工业出版社
ISBN9787502496272
出版时间2023-09
装帧平装
开本其他
定价76元
货号14147271
上书时间2025-01-01
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目录
ContentsChapter 1Introduction1.1Background and motivation1.2Objectives1.3Structure of the bookChapter 2Literature Review2.1Methods for phase diagram determination2.1.1Equilibrated alloy for phase diagrams determination2.1.2Diffusion couples for phase diagram determination2.1.3Analysis measurements for phase diagram determination2.2CALPHAD(Calculation of Phase Diagram)calculationtechnology2.2.1CALPHAD development history2.2.2CALPHAD process2.2.3CALPHAD application2.2.4Thermodynamic calculation principles2.2.5Thermodynamic models2.2.6Basic processes of thermodynamic functionsChapter 3Thermodynamic Calculation of the S-Sb System and Cu-S-SbSystem3.1Introduction3.2The phase diagram information of the Cu-S-Sb system3.2.1The Cu-S system3.2.2The Cu-Sb system3.2.3The S-Sb system3.2.4The Cu-S-Sb system3.3Thermodynamic models3.3.1Liquid phase3.3.2Solution phase3.3.3Intermetallic compound3.4Study procedure3.4.1Experimental procedure3.4.2Assessment procedure3.4.3Results for the S-Sb binary system3.4.4Results for the Cu-S-Sb ternary system3.5ConclusionsChapter 4Experimental Investigation and Thermodynamic Modelling of theSe-Sn-Te System4.1Introduction4.2Experimental procedures4.3Literature information4.3.1The Se-Sn system4.3.2The Sn-Te system4.3.3The Se-Te system4.3.4The Se-Sn-Te system4.4Thermodynamic calculation4.4.1Thermodynamic model4.4.2Assessment procedure4.5Results and discussion4.5.1Experimental investigation4.5.2Thermodynamic optimization4.6ConclusionsChapter 5Thermdoynamic Modelling of the V-Zr System Supported byKey Experiments5.1Introduction5.2Phase diagram information5.2.1Phase diagram data5.2.2Thermodynamic optimization results in literature5.3Experimental procedures5.4Thermodynamic model5.4.1Pure elements5.4.2Solution phases5.4.3Intermetallic compound5.5Results and discussion5.5.1Experimental investigation5.5.2Thermodynamic optimization5.6ConclusionsChapter 6Experimental Investigation and Thermdoynamic Modelling ofthe Ti-V-Zr System6.1Introduction6.2Literature information6.2.1The Ti-V system6.2.2The Ti-Zr system6.2.3V-Zr system6.2.4Ti-V-Zr system6.3Experimental procedures6.4Thermodynamic modelling6.4.1Thermodynamic model6.4.2Modelling procedure6.5Results and discussion6.5.1Experimental investigation6.5.2Thermodynamic optimization6.6ConclusionsChapter 7Experimental Investigation and Thermdoynamic Modellingof the Fe-Si-Zr System7.1Introduction7.2Literature information7.2.1The Fe-Si system7.2.2The Fe-Zr system7.2.3The Si-Zr system7.2.4The Fe-Si-Zr system7.3Experimental investigation7.3.1Experimental procedures7.3.2Experimental results7.4Thermodynamic modelling7.4.1Thermodynamic models7.4.2Assessment procedure7.4.3Thermodynamic optimisation results7.5ConclusionsChapter 8Conclusions and Recommendations8.1Summary and conclusions8.2Recommended future workReferences
内容摘要
AbstractAstheconcernsoftheenergycrisisandglobalwarming,researchershavepaidmuchattentiontoinvestigateanddeveloparenewableenergysource.Solarphotovoltaicsandhydrogenenergyaretwoofthelargestrenewableenergyoptions.However,currentpracticehasfailedtoachievetheexpectedefficiencyandpropertiesforpotentialmaterialsintermsofrenewabledeviceperformanceduetothelackoffundamentalequilibriuminformationontherelatedrenewablematerialssystems.Thephasediagramasthefundamentalstudyisaneffectivetoolforabasicunderstandingofmaterialsprocessing,synthesisandmaterialsproperties.Besides,thermodynamicmodellingofthemulticomponentsystemusingtheCalculationofPhaseDiagrams(CALPHAD)approachisacost-efficientwaytoinvestigatephaseequilibria.Therefore,itiswidelyreceivedtocombineexperimentalworkwiththecalculations.Inthiswork,thekeyexperimentalworksandthermodynamiccalculationareoperatedtoinvestigatethephasediagramsofsomerenewableenergymaterialssystemsincludingS?Sb,Cu?S?Sb,Se?Sn?Te,V?Zr,Ti?V?Zr,Fe?Si?Zrsystems.
精彩内容
AbstractAstheconcernsoftheenergycrisisandglobalwarming,researchershavepaidmuchattentiontoinvestigateanddeveloparenewableenergysource.Solarphotovoltaicsandhydrogenenergyaretwoofthelargestrenewableenergyoptions.However,currentpracticehasfailedtoachievetheexpectedefficiencyandpropertiesforpotentialmaterialsintermsofrenewabledeviceperformanceduetothelackoffundamentalequilibriuminformationontherelatedrenewablematerialssystems.Thephasediagramasthefundamentalstudyisaneffectivetoolforabasicunderstandingofmaterialsprocessing,synthesisandmaterialsproperties.Besides,thermodynamicmodellingofthemulticomponentsystemusingtheCalculationofPhaseDiagrams(CALPHAD)approachisacost-efficientwaytoinvestigatephaseequilibria.Therefore,itiswidelyreceivedtocombineexperimentalworkwiththecalculations.Inthiswork,thekeyexperimentalworksandthermodynamiccalculationareoperatedtoinvestigatethephasediagramsofsomerenewableenergymaterialssystemsincludingS?Sb,Cu?S?Sb,Se?Sn?Te,V?Zr,Ti?V?Zr,Fe?Si?Zrsystems.
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