project si-kerf_sokratis oikonomidis
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Oikonomidis P. Sokratis
“Energy Technologies and Sustainable Design” -Postgraduate Studies, University of Cyprus
“Powder Technology Laboratory”, University of Cyprus
Recycling Si-kerf from Photovoltaics to Thermoelectrics
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Outline• Introduction to thermoelectricity• Phase 1Use of Si-kerf from PV recycling process (Fraunhofer Institute) to form Mg₂Si• Phase 2Doping with Bi-measurements and comparison to previous work• Conclusions
PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to ThermoelectricsOikonomidis P. Sokratis
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Introduction to thermoelectricityThermoelectricityconversion of temperature difference to electric voltage & charge differential to temperature alternationSeebeck effect: Direct conversion of temperature difference into electricityPeltier effect : Absorbance or Rejection of heat across the junction of two metals, depending on the direction of the applied currentThomson effect : This effect consists of reversible cooling or heating when a flow of electric current and a temperature gradient occur simultaneously.
PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to ThermoelectricsOikonomidis P. Sokratis
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At the junction of two dissimilar metals, electrons migrate in one direction across the junction (thermoelectric current)Increase of ΔT = increase of thermoelectric voltage(due to buildup of charge carriers on the cold side)Seebeck coefficient S
PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to ThermoelectricsOikonomidis P. Sokratis
Introduction to thermoelectricity
Seebeck
S positive when direction of electric current is same as the direction of thermal current
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5PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to ThermoelectricsOikonomidis P. Sokratis
Introduction to thermoelectricity
Peltier
“..An electrical current produce a temperature gradient at the junction of two dissimilar metals..” (Jean Peltier,1834)When an electric current is applied on a thermocouple, the result is an exothermic or an endothermic phenomenon in accordance to the current’s directionPeltier Coefficient
When the current direction was reversed, the cold junction would get hot while the hot would get cold.
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6PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to ThermoelectricsOikonomidis P. Sokratis
Introduction to thermoelectricity
Thomson
Heat energy is absorbed (endothermic) or evolved (exothermic) along the length of a material rod whose ends are at different temperatures. This heat energy was shown to be proportional to the flow of current and to the temperature gradient along the rod.Thomson Coefficient τ
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7PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to ThermoelectricsOikonomidis P. Sokratis
Phase 1Analysis of the recycled material to determine %Si & %SiC
sample consists of 85% Si & 15% SiC
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Forming Mg₂SiFrom Mg + Si-kerf
(SUCCESS)Small percentages of unreacted Si (negligible)
PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to ThermoelectricsOikonomidis P. Sokratis
Phase 1
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PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to Thermoelectrics_Oikonomidis P. Sokratis
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Phase 1Measuring thermoelectric performance and comparing to previous work
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PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to Thermoelectrics_Oikonomidis P. Sokratis
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Phase 1Measuring thermoelectric performance and comparing to previous workSeebeck Coefficient:
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PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to Thermoelectrics_Oikonomidis P. Sokratis
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Measuring thermoelectric performance and comparing to previous workPower Factor: S: Seebeck coefficientσ: electrical conductivityT: Temperature
Phase 1
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12PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to Thermoelectrics_Oikonomidis P. Sokratis
Phase 1Measuring thermoelectric performance and comparing to previous workFigure of Merit:
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Bismuth doping2% #A3% #G
PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to ThermoelectricsOikonomidis P. Sokratis
Phase 2
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14PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to ThermoelectricsOikonomidis P. Sokratis
Phase 2
Bismuth doping3% #GBrittle behavior
Sample #G with (3% Bi)-exfoliating process
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PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to Thermoelectrics_Oikonomidis P. Sokratis
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Phase 2
Electrical conductivity σ (S/cm) in#Reference Doped (3% doping)#007 (undoped)#A (2% Bi)#G (3% Bi)in temperature dependence.
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PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to Thermoelectrics_Oikonomidis P. Sokratis
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Seebeck coefficient S (μV/K) in#Reference Doped (3% doping)#007 (undoped)#A (2% Bi)#G (3% Bi)in temperature dependence.
Phase 2
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PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to Thermoelectrics_Oikonomidis P. Sokratis
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Phase 2
Thermal conductivity κ (W/mK) in#Reference Doped (3% doping)#007 (undoped)#A (2% Bi)#G (3% Bi)in temperature dependence.
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PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to Thermoelectrics_Oikonomidis P. Sokratis
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Phase 2
Thermal Lattice conductivity κʟ (W/mK) in#Reference Doped (3% doping)#007 (undoped)#A (2% Bi)#G (3% Bi)in temperature dependence.
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PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to Thermoelectrics_Oikonomidis P. Sokratis
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Phase 2
Power Factor in#Reference Doped (3% doping)#007 (undoped)#A (2% Bi)#G (3% Bi)in temperature dependence.
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PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to Thermoelectrics_Oikonomidis P. Sokratis
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Phase 2
ZT in#Reference Doped (3% doping)#007 (undoped)#A (2% Bi)#G (3% Bi)in temperature dependence.
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PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to Thermoelectrics_Oikonomidis P. Sokratis
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Conclusion• Successful production of Mg2Si from pure Mg & Si-kerf (waste material)• Samples with Si-kerf present similar thermoelectric performance to
previous work from pure Mg and pure Si• 2% & 3% doping presented good PF values relatively to pure Mg2Si
(nominator in ZT equation)• The thermal conductivity decreased as expected due to increased
lattice scattering (denominator in ZT equation)• 2% doping exhibits better ZT and PF values than 3% doping, but both
less than that of pure Mg2Si
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Thank you for your time
PowderTech Lab Project- Recycling Si-kerf from Photovoltaics to Thermoelectrics_Oikonomidis P. Sokratis