Публикации

2011

1. J. Electron. Mater.

   

   Inverse Problems of Thermoelectricity

   M. N. Strutinsky, and Luste O.J.

   Journal of Electronic Materials, Chernovtsi. More Information can be found here , Mar 2011

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   Classical thermoelectricity is based on the use of the Seebeck and Thomson effects that occur in the near-contact areas between n- and p-type materials. A conceptually different approach to thermoelectric power converter design that is based on the law of thermoelectric induction of currents is also known. The efficiency of this approach has already been demonstrated by its first applications. More than 10 basically new types of thermoelements were discovered with properties that cannot be achieved by thermocouple power converters. Therefore, further development of this concept is of practical interest. This paper provides a classification and theory for solving the inverse problems of thermoelectricity that form the basis for devising new thermoelement types. Computer methods for their solution for anisotropic and inhomogeneous media are elaborated. Regularities related to thermoelectric current excitation in anisotropic and inhomogeneous media are established. The possibility of obtaining eddy currents of a particular configuration through control of the temperature field and material parameters for the creation of new thermo- element types is demonstrated for three-dimensional (3D) models of anisotropic and inhomogeneous media.

   @article{strutinsky2011inverseproblems,
     title = {Inverse Problems of Thermoelectricity},
     author = {Strutinsky, M. N. and O.J., Luste},
     journal = {Journal of Electronic Materials},
     volume = {40},
     pages = {856--861},
     year = {2011},
     month = mar,
     location = {Chernovtsi},
     publisher = {Springer},
     doi = {10.1007/s11664-011-1595-z},
     dimensions = {false},
     url = {https://link.springer.com/article/10.1007/s11664-011-1595-z},
   }

2010

1. J. Thermoelectr.

   

   Computer simulation of single-stage thermoelectric generator module

   Roman Kuz, and Mikhail Strutinsky

   Journal of Thermoelectricity, Mar 2010

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   Program for computer design of single-stage thermoelectric generator modules was elaborated with regard to temperature dependences of material parameters, thermal losses in ceramic and connecting plates, as well as electrical losses on the contacts and connections of thermoelements. The program allows a detailed optimization of module parameters to be made during its design phase, owing to which generator modules with improved parameters can be elaborated and produced.

   @article{strutinsky2010thermoelectricgenerator,
     title = {Computer simulation of single-stage thermoelectric generator module},
     author = {Kuz, Roman and Strutinsky, Mikhail},
     journal = {Journal of Thermoelectricity},
     volume = {1},
     number = {3},
     pages = {21--27},
     year = {2010},
     publisher = {Institute of Thermoelectricity},
   }

2009

1. J. Thermoelectr.

   

   Компьютерные технологии в термоэлектричестве

   M. N. Strutinsky

   Journal of Thermoelectricity, Chernovtsi. More Information can be found here , Oct 2009

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   Анализируется современное состояние и перспективы использования методов компьютерного моделирования в термоэлектричестве. Дана классификация существующих компбютерных технологий, рассмотрены актуальные направления использования компьютерных технологий для создания и исследования термоэлектрических моделей.