Article
Publicly Available
Erratum to EHS 1 (1–2), 69–78 (2014), A High-Temperature Thermoelectric Generator Based on Oxides
This erratum corrects the original online version which can be found here:
https://doi.org/10.1515/ehs-2014-0003
-
Armin Feldhoff
and
Benjamin Geppert
Published/Copyright:
December 2, 2014
Due to not strictly distinguishing particle-flux density
[1]( j → q j → S ) = ( σ T σ T · S * q σ T · S * q σ T · S * 2 q 2 + Λ j → q = 0 ) · ( − ∇ → ( η q ) − ∇ → T )
Then eq. [2] is as follows:
[2]M = ( σ T σ T · S * q σ T · S * q σ T · S * 2 q 2 + Λ j → q = 0 )
And eq. [6] is as follows:
[6]p = | j → E | = | ( η ( x → ) q , T ( x → ) ) · ( j → q j → S ) | = | η ( x → ) q · j → q + T ( x → ) · j → S | = | j → E , electrical ( x → ) + j → E , thermal ( x → ) |
Sentence in front of eq. [7] needs to be read as follows:
Let us postulate that high efficiency can be achieved if the ratio of the entropy conductivity under short-circuit conditions
Published Online: 2014-12-02
Published in Print: 2014-12-01
©2014 by De Gruyter
Articles in the same Issue
- Frontmatter
- III–V Multijunction Solar Cell Integration with Silicon: Present Status, Challenges and Future Outlook
- Monolithic Integration of Diluted-Nitride III–V-N Compounds on Silicon Substrates: Toward the III–V/Si Concentrated Photovoltaics
- Study of the Growth and Dislocation Blocking Mechanisms in InxGa1−xAs Buffer Layer for Growing High-Quality In0.5Ga0.5P, In0.3Ga0.7As, and In0.52Ga0.48As on Misoriented GaAs Substrate for Inverted Metamorphic Multijunction Solar Cell Application
- Organic, Flexible, Polymer Composites for High-Temperature Piezoelectric Applications
- Modeling of a Bridge-Shaped Nonlinear Piezoelectric Energy Harvester
- Enhanced Vibration Energy Harvesting Through Multilayer Textured Pb(Mg1/3Nb2/3)O3–PbZrO3–PbTiO3 Piezoelectric Ceramics
- Load-Tolerant, High-Efficiency Self-Powered Energy Harvesting Scheme Using a Nonlinear Approach
- Comparative Analysis of One-Dimensional and Two-Dimensional Cantilever Piezoelectric Energy Harvesters
- Modeling of Hybrid Piezoelectrodynamic Generators
- Opto-electrical Behavior of Pb(Zn1/3Nb2/3)O3–Pb0.97La0.03(Zr,Ti)O3 Transparent Ceramics with Varying Defect Structure
- Feasibility Study for Small Scaling Flywheel-Energy-Storage Systems in Energy Harvesting Systems
- Ca0.15Zr0.85O1.85 Thin Film for Application to MIM Capacitor on Organic Substrate
- Erratum to EHS 1 (1–2), 69–78 (2014), A High-Temperature Thermoelectric Generator Based on Oxides
- A Direct Entropic Approach to Uniform and Spatially Continuous Dynamical Models of Thermoelectric Devices
Articles in the same Issue
- Frontmatter
- III–V Multijunction Solar Cell Integration with Silicon: Present Status, Challenges and Future Outlook
- Monolithic Integration of Diluted-Nitride III–V-N Compounds on Silicon Substrates: Toward the III–V/Si Concentrated Photovoltaics
- Study of the Growth and Dislocation Blocking Mechanisms in InxGa1−xAs Buffer Layer for Growing High-Quality In0.5Ga0.5P, In0.3Ga0.7As, and In0.52Ga0.48As on Misoriented GaAs Substrate for Inverted Metamorphic Multijunction Solar Cell Application
- Organic, Flexible, Polymer Composites for High-Temperature Piezoelectric Applications
- Modeling of a Bridge-Shaped Nonlinear Piezoelectric Energy Harvester
- Enhanced Vibration Energy Harvesting Through Multilayer Textured Pb(Mg1/3Nb2/3)O3–PbZrO3–PbTiO3 Piezoelectric Ceramics
- Load-Tolerant, High-Efficiency Self-Powered Energy Harvesting Scheme Using a Nonlinear Approach
- Comparative Analysis of One-Dimensional and Two-Dimensional Cantilever Piezoelectric Energy Harvesters
- Modeling of Hybrid Piezoelectrodynamic Generators
- Opto-electrical Behavior of Pb(Zn1/3Nb2/3)O3–Pb0.97La0.03(Zr,Ti)O3 Transparent Ceramics with Varying Defect Structure
- Feasibility Study for Small Scaling Flywheel-Energy-Storage Systems in Energy Harvesting Systems
- Ca0.15Zr0.85O1.85 Thin Film for Application to MIM Capacitor on Organic Substrate
- Erratum to EHS 1 (1–2), 69–78 (2014), A High-Temperature Thermoelectric Generator Based on Oxides
- A Direct Entropic Approach to Uniform and Spatially Continuous Dynamical Models of Thermoelectric Devices
