Thermomechanics

Thermomechanics
361-0955/00
čeština Thermomechanics
361-0955/01
čeština Thermomechanics
361-0955/02
čeština Thermomechanics
361-0955/03
čeština Thermomechanics
361-0955/04
angličtina Thermomechanics
361-0955/05
čeština Thermomechanics
361-0955/06
angličtina Thermomechanics
361-0955/07
angličtina

Summary

The course is designed for Ph.D. studies and its focus is based on individual specialization of student.
Students will further learn about thermodynamics of gases. These findings are prerequisite for understanding the essence of efficient extraction, transformation and distribution of thermal energy. It allows the proper management of technological processes and are essential for the normal range of heat technical calculations.

Literature

Moran, M., J., Shapio, H., N.: Fundamentals of engineering thermodynamics.
1.vyd. New York: John Wiley & Sons, 1990. 804s., ISBN 0-471-57117-2

Advised literature

HOLMAN, J.P. Heat Transfer. 5.vyd. New York: McGraw-Hill Book Company, 1981. 570 s. .
INCROPERA,F.P., DE WITT, D.P. Fundamentals of Heat and Mass Transfer. 5.vyd. John Wiley & Sons, 2002. 981s. ISBN 0-471-38650-2
MODEST,M.F. Radiative Heat Transfer. 1.vyd. New York: McGraw-Hill,Inc. 1993. 832 s. ISBN 0-07-042675-9.

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Language of instruction	čeština, čeština, čeština, čeština, angličtina, čeština, angličtina, angličtina
Code	361-0955
Abbreviation	Termo
Course title	Thermomechanics
Coordinating department	Department of Power Engineering
Course coordinator	doc. Ing. Zdeněk Kadlec, Ph.D.