1 P. H. Ngan, "Towards high efficiency segmented thermoelectric unicouples" 211 : 9-17, 2014
2 D. Champier, "Thermoelectric generators: A review of applications" 140 : 167-181, 2017
3 A. Z. Sahin, "Thermodynamic irreversibility and performance characteristics of thermoelectric power generator" 55 : 899-904, 2013
4 Q. Ma, "Theoretical analysis and design optimization of thermoelectric generator" 127 : 758-764, 2017
5 W. Shin, "Li-doped nickel oxide as a thermoelectric material" 38 : L1336-L1338, 1999
6 H. Ali, "Innovative design of a thermoelectric generator with extended and segmented pin configurations" 187 : 367-379, 2017
7 R. McCarty, "High performance from multiphysics coupled simulation, ANSYS Adv. II (2)"
8 Z. Liu, "Geometry optimization of two-stage thermoelectric generators using simplified conjugate-gradient method" 190 : 540-552, 2017
9 A. F. Mijangos, "Enhanced performance thermoelectric module having asymmetrical legs" 148 : 1372-1381, 2017
10 U. Erturun, "Effect of various leg geometries on thermo-mechanical and power generation performance of thermoelectric devices" 73 : 128-141, 2014
1 P. H. Ngan, "Towards high efficiency segmented thermoelectric unicouples" 211 : 9-17, 2014
2 D. Champier, "Thermoelectric generators: A review of applications" 140 : 167-181, 2017
3 A. Z. Sahin, "Thermodynamic irreversibility and performance characteristics of thermoelectric power generator" 55 : 899-904, 2013
4 Q. Ma, "Theoretical analysis and design optimization of thermoelectric generator" 127 : 758-764, 2017
5 W. Shin, "Li-doped nickel oxide as a thermoelectric material" 38 : L1336-L1338, 1999
6 H. Ali, "Innovative design of a thermoelectric generator with extended and segmented pin configurations" 187 : 367-379, 2017
7 R. McCarty, "High performance from multiphysics coupled simulation, ANSYS Adv. II (2)"
8 Z. Liu, "Geometry optimization of two-stage thermoelectric generators using simplified conjugate-gradient method" 190 : 540-552, 2017
9 A. F. Mijangos, "Enhanced performance thermoelectric module having asymmetrical legs" 148 : 1372-1381, 2017
10 U. Erturun, "Effect of various leg geometries on thermo-mechanical and power generation performance of thermoelectric devices" 73 : 128-141, 2014
11 R. Shen, "Dynamic performance analysis of a cascaded thermoelectric generator" 203 : 808-815, 2017
12 H. S. Kim, "Design of segmented thermoelectric generator based on cost-effective and light-weight thermoelectric alloys" 185 : 45-52, 2014
13 V. A. Kulbachinskii, "Composites of Bi2-xSbxTe3 nanocrystals and fullerene molecules for thermoelectricity" 193 : 64-70, 2012
14 H. Tian, "Comparison and parameter optimization of a segmented thermoelectric generator by using the high temperature exhaust of a diesel engine" 84 : 121-130, 2015
15 "ANSYS 17r, Academic research software, Release 17.0"
16 E. Kanimba, "A modeling comparison between a two-stage and three-stage cascaded thermoelectric generator" 365 : 266-272, 2017
17 G. Zhang, "A comprehensive design method for segmented thermoelectric generator" 106 : 510-519, 2015