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Design, assembly and characterization of silicide-based thermoelectric modules

2016

ID: 1143 In: Energy conversion and management, 13-21. Summary: Highlights•Novel silicide-based thermoelectric modules were experimentally investigated.•The modules produced high power of 1.04 W at 405 °C and 3.24 W at 735 °C.•An estimated module efficiency of 5.3% represent the highest reported for silicide systems.AbstractSilicides have attracted considerable attention for use in thermoelectric generators due mainly to low cost, low toxicity and light weight, in contrast to conventional materials such as bismuth and lead telluride. Most reported work has focused on optimizing the materials properties while little has been done on module testing. In this work we have designed and tested mod…

Energy storageThermoelectric equipment02 engineering and technology7. Clean energyThermal expansionBismuthchemistry.chemical_compoundDegradationMagnesium silicideHigher manganese silicideSilicide0202 electrical engineering electronic engineering information engineeringHigher manganese silicidesMagnesiumThermo-Electric materialsThermal expansion mismatchDirect energy conversion[CHIM.MATE]Chemical Sciences/Material chemistryThermoelectric materialsMagnesium silicides[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistryConversion directeFuel TechnologyThermal expansionSilicidesMaterials scienceMaximum power principleCharacterization020209 energyEnergy Engineering and Power Technologychemistry.chemical_elementMagnesium silicideThermoelectric moduleThermo-electric modulesElectronic engineering[CHIM.CRIS]Chemical Sciences/Cristallography[CHIM]Chemical SciencesManganeseRenewable Energy Sustainability and the EnvironmentEquivalent circuitsThermoelectricityEngineering physicsLead tellurideThermoelectric generatorCross-section areaNuclear Energy and EngineeringchemistryEnergy transferConventional materialsÉnergieMaterials propertiesThermoelectric generatorsMaterials testing
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