Efficiency of Thermoelectric Recuperators of the Exhaust Gas Energy of Internal Combustion Engines

被引:2
|
作者
Anatychuk, L. I. [1 ]
Kuz, R. V. [1 ]
Rozver, Yu. Yu. [1 ]
机构
[1] Natl Acad Sci Ukraine, Inst Thermoelect, UA-58029 Chernovtsy, Ukraine
来源
9TH EUROPEAN CONFERENCE ON THERMOELECTRICS (ECT2011) | 2012年 / 1449卷
关键词
thermoelectric recuperators; thermoelectric generator for diesel engine;
D O I
10.1063/1.4731607
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
Results of computer simulation of thermoelectric generators (TEG) using the exhaust heat of internal combustion engines are presented. Sectionalized generator schematics whereby maximum efficiency is achieved for cases of real temperature dependences of the most suitable thermoelectric materials are considered. A model optimized for minimum cost is considered as well. Results of experimental research on generator that employs exhaust heat from heat and electricity cogeneration plant with a diesel engine are presented. Computer simulation is verified by the test results. The outlook for application of such heat recuperators in stationary plants is considered.
引用
收藏
页码:516 / 519
页数:4
相关论文
共 50 条
  • [31] Implementation of energy efficiency programs using cogeneration based on internal combustion engines
    Minciuc, Eduard
    Patrascu, Roxana
    Darie, George
    Diaconescu, Ioana
    PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON BUSINESS EXCELLENCE, 2017, 11 (01): : 209 - 217
  • [32] Internal combustion engine exhaust gas analysis
    Collings, Nick
    Glover, Keith
    Campbell, Bruce
    Fisher, Stewart
    INTERNATIONAL JOURNAL OF ENGINE RESEARCH, 2017, 18 (04) : 308 - 332
  • [33] PRACTICAL APPLICATIONS OF THE COMBUSTION RATE FOR ESTIMATING THE THERMAL EFFICIENCY AND GAS STATES IN INTERNAL COMBUSTION ENGINES.
    Tsuboi, Takao
    Terao, Kunio
    Bulletin of the Faculty of Engineering, Yokohama National University, 1983, 32 : 1 - 24
  • [34] Utilization of natural gas for internal combustion engines
    Tsukasaki, Y
    Taniguchi, S
    Yasuda, A
    Tanaka, T
    Which Fuels for Low CO2 Engines?, 2004, : 123 - 132
  • [35] Exhaust gas aftertreatment to minimize NOX emissions from hydrogen-fueled internal combustion engines
    Oezyalcin, Can
    Sterlepper, Stefan
    Roiser, Sebastian
    Eichlseder, Helmut
    Pischinger, Stefan
    APPLIED ENERGY, 2024, 353
  • [36] Thin-Wire Thermocouple Design for Exhaust Gas Temperature Pulse Measurements in Internal Combustion Engines
    Venkataraman, Varun
    Stenlaas, Ola
    Cronhjort, Andreas
    SAE INTERNATIONAL JOURNAL OF ENGINES, 2023, 16 (07) : 987 - 1005
  • [37] Ways of Depolluting the Internal Combustion Engines by Controlling the Exhaust Gas Flow into the Carter (the Blow-By Effect)
    Ivan, Florian
    Lita, Daniel
    Busoi, Andrei
    INGINERIA AUTOMOBILULUI, 2012, 6 (01): : 22 - 24
  • [38] THERMODYNAMICS OF PRODUCER GAS COMBUSTION - APPLICATION TO INTERNAL COMBUSTION ENGINES
    OLESON, AP
    WIEBE, R
    INDUSTRIAL AND ENGINEERING CHEMISTRY, 1945, 37 (07): : 653 - 660
  • [39] An experimental investigation of exhaust waste heat recycling by thermoelectric generators under different thermal conditions for internal combustion engines
    Kunt, M. Akif
    PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART D-JOURNAL OF AUTOMOBILE ENGINEERING, 2018, 232 (12) : 1648 - 1653
  • [40] A computational study into the effect of exhaust gas recycling on homogeneous charge compression ignition combustion in internal combustion engines fuelled with methane
    Chen, R
    Milovanovic, N
    INTERNATIONAL JOURNAL OF THERMAL SCIENCES, 2002, 41 (09) : 805 - 813
12345