A thermodynamic and exergoeconomic numerical study of two-stage annular thermoelectric generator

被引:60
作者
Asaadi, Soheil [1 ]
Khalilarya, Shahram [1 ]
Jafarmadar, Samad [1 ]
机构
[1] Urmia Univ, Dept Mech Engn, Orumiyeh, Iran
关键词
Two-stage annular thermoelectric generator; Energy; Exergy; Efficiency; Output power; Exergoeconomic; PERFORMANCE OPTIMIZATION; THEORETICAL-ANALYSIS; EXERGY ANALYSIS; WASTE HEAT; ENERGY; DESIGN; TEMPERATURE; PARAMETERS; EFFICIENCY;
D O I
10.1016/j.applthermaleng.2019.04.058
中图分类号
O414.1 [热力学];
学科分类号
摘要
A three-dimensional simulation of a two-stage annular thermoelectric generator is conducted to investigate the thermodynamic and the exergoeconomic performance of the thermoelectric device. The simulations are carried out considering the influence of Thomson effect and temperature-dependent material properties of thermoelectric legs to improve the precision of the study. The effect of two geometrical parameters, the height ratio of thermoelectric stages and angle ratio of legs as well as the influence of heat source temperature on the energy, exergy and economic performance of two-stage ATEG is studied. Results indicate that for a range of heat source temperatures, the output power, conversion efficiency and exergy efficiency of two-stage ATEG are higher compared to single-stage ATEGs based on the low-temperature and high-temperature materials. Moreover, the exergoeconomic study reveals that the single-stage ATEG performs more economical than the two-stage ATEG in all of the studied heat source temperatures. The amount of heat source temperature has a direct influence in determining the proper height ratio to reach the maximum thermodynamic and exergoeconomic efficiencies. Also, it is found that the angle ratio of 1 leads to better energy and exergy performance and least unit cost of output power.
引用
收藏
页码:371 / 381
页数:11
相关论文
共 43 条
[1]   Performance and Design Comparison of a Bulk Thermoelectric Cooler With a Hybrid Architecture [J].
Antonik, Margaret ;
O'Connor, Brendan T. ;
Ferguson, Scott .
JOURNAL OF THERMAL SCIENCE AND ENGINEERING APPLICATIONS, 2016, 8 (02)
[2]   Thermodynamic modeling and multi-objective optimization of two stage thermoelectric generator in electrically series and parallel configuration [J].
Arora, Ranjana ;
Kaushik, S. C. ;
Arora, Rajesh .
APPLIED THERMAL ENGINEERING, 2016, 103 :1312-1323
[3]  
Asaadi S., 2018, ENERG CONVERS MANAGE, P167
[4]   Study of the influence of heat exchangers' thermal resistances on a thermoelectric generation system [J].
Astrain, D. ;
Vian, J. G. ;
Martinez, A. ;
Rodriguez, A. .
ENERGY, 2010, 35 (02) :602-610
[5]  
Auerkari P., 1996, Mechanical and Physical Properties of Engineering Alumina Ceramics
[6]   Geometric optimization of thermoelectric elements for maximum efficiency and power output [J].
Barry, Matthew M. ;
Agbim, Kenechi A. ;
Rao, Parthib ;
Clifford, Corey E. ;
Reddy, B. V. K. ;
Chyu, Minking K. .
ENERGY, 2016, 112 :388-407
[7]  
Bejan A., 1995, Thermal Design and Optimization
[8]  
Bitschi Andreas., 2009, MODELLING THERMOELEC
[9]   Theoretical study on an integrated two-stage cascaded thermoelectric module operating with dual power sources [J].
Chen, Jiaheng ;
Yu, Jianlin ;
Ma, Ming .
ENERGY CONVERSION AND MANAGEMENT, 2015, 98 :28-33
[10]   Performance optimization of a two-stage semiconductor thermoelectric-generator [J].
Chen, LG ;
Li, J ;
Sun, FR ;
Wu, C .
APPLIED ENERGY, 2005, 82 (04) :300-312