Microscale nonequilibrium heat transfer in technologies using intensive heat sources

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HONNER, Milan ;KUNEŠ, Josef .
Microscale nonequilibrium heat transfer in technologies using intensive heat sources. 
Strojniški vestnik - Journal of Mechanical Engineering, [S.l.], v. 47, n.8, p. 383-389, july 2017. 
ISSN 0039-2480.
Available at: <https://www.sv-jme.eu/sl/article/microscale-nonequilibrium-heat-transfer-in-technologies-using-intensive-heat-sources/>. Date accessed: 09 aug. 2020. 
doi:http://dx.doi.org/.
Honner, M., & Kuneš, J.
(2001).
Microscale nonequilibrium heat transfer in technologies using intensive heat sources.
Strojniški vestnik - Journal of Mechanical Engineering, 47(8), 383-389.
doi:http://dx.doi.org/
@article{.,
	author = {Milan  Honner and Josef  Kuneš},
	title = {Microscale nonequilibrium heat transfer in technologies using intensive heat sources},
	journal = {Strojniški vestnik - Journal of Mechanical Engineering},
	volume = {47},
	number = {8},
	year = {2001},
	keywords = {Microscale; nonequilibrium; heat transfer; intensive heat sources; },
	abstract = {Microscale nonequlibrium heat conduction appears in all states of matter including solids, liquids, gases and plasmas where heat is carried by phonons,atoms, molecules, electrons or photons. A unified model of diffusion, wave and parallel conduction is introduced. Internal parameters and conditions of unambiguity describing the nonequlibrium are discussed from the physical point of view. Nonequilibrium heat transfer applications in technologies of microscale heating of materials by energetical photons, electrons and ions are presented.},
	issn = {0039-2480},	pages = {383-389},	doi = {},
	url = {https://www.sv-jme.eu/sl/article/microscale-nonequilibrium-heat-transfer-in-technologies-using-intensive-heat-sources/}
}
Honner, M.,Kuneš, J.
2001 July 47. Microscale nonequilibrium heat transfer in technologies using intensive heat sources. Strojniški vestnik - Journal of Mechanical Engineering. [Online] 47:8
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%A Kuneš, Josef 
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%! Microscale nonequilibrium heat transfer in technologies using intensive heat sources
%K Microscale; nonequilibrium; heat transfer; intensive heat sources; 
%X Microscale nonequlibrium heat conduction appears in all states of matter including solids, liquids, gases and plasmas where heat is carried by phonons,atoms, molecules, electrons or photons. A unified model of diffusion, wave and parallel conduction is introduced. Internal parameters and conditions of unambiguity describing the nonequlibrium are discussed from the physical point of view. Nonequilibrium heat transfer applications in technologies of microscale heating of materials by energetical photons, electrons and ions are presented.
%U https://www.sv-jme.eu/sl/article/microscale-nonequilibrium-heat-transfer-in-technologies-using-intensive-heat-sources/
%0 Journal Article
%R 
%& 383
%P 7
%J Strojniški vestnik - Journal of Mechanical Engineering
%V 47
%N 8
%@ 0039-2480
%8 2017-07-07
%7 2017-07-07
Honner, Milan, & Josef  Kuneš.
"Microscale nonequilibrium heat transfer in technologies using intensive heat sources." Strojniški vestnik - Journal of Mechanical Engineering [Online], 47.8 (2001): 383-389. Web.  09 Aug. 2020
TY  - JOUR
AU  - Honner, Milan 
AU  - Kuneš, Josef 
PY  - 2001
TI  - Microscale nonequilibrium heat transfer in technologies using intensive heat sources
JF  - Strojniški vestnik - Journal of Mechanical Engineering
DO  - 
KW  - Microscale; nonequilibrium; heat transfer; intensive heat sources; 
N2  - Microscale nonequlibrium heat conduction appears in all states of matter including solids, liquids, gases and plasmas where heat is carried by phonons,atoms, molecules, electrons or photons. A unified model of diffusion, wave and parallel conduction is introduced. Internal parameters and conditions of unambiguity describing the nonequlibrium are discussed from the physical point of view. Nonequilibrium heat transfer applications in technologies of microscale heating of materials by energetical photons, electrons and ions are presented.
UR  - https://www.sv-jme.eu/sl/article/microscale-nonequilibrium-heat-transfer-in-technologies-using-intensive-heat-sources/
@article{{}{.},
	author = {Honner, M., Kuneš, J.},
	title = {Microscale nonequilibrium heat transfer in technologies using intensive heat sources},
	journal = {Strojniški vestnik - Journal of Mechanical Engineering},
	volume = {47},
	number = {8},
	year = {2001},
	doi = {},
	url = {https://www.sv-jme.eu/sl/article/microscale-nonequilibrium-heat-transfer-in-technologies-using-intensive-heat-sources/}
}
TY  - JOUR
AU  - Honner, Milan 
AU  - Kuneš, Josef 
PY  - 2017/07/07
TI  - Microscale nonequilibrium heat transfer in technologies using intensive heat sources
JF  - Strojniški vestnik - Journal of Mechanical Engineering; Vol 47, No 8 (2001): Strojniški vestnik - Journal of Mechanical Engineering
DO  - 
KW  - Microscale, nonequilibrium, heat transfer, intensive heat sources, 
N2  - Microscale nonequlibrium heat conduction appears in all states of matter including solids, liquids, gases and plasmas where heat is carried by phonons,atoms, molecules, electrons or photons. A unified model of diffusion, wave and parallel conduction is introduced. Internal parameters and conditions of unambiguity describing the nonequlibrium are discussed from the physical point of view. Nonequilibrium heat transfer applications in technologies of microscale heating of materials by energetical photons, electrons and ions are presented.
UR  - https://www.sv-jme.eu/sl/article/microscale-nonequilibrium-heat-transfer-in-technologies-using-intensive-heat-sources/
Honner, Milan, AND Kuneš, Josef.
"Microscale nonequilibrium heat transfer in technologies using intensive heat sources" Strojniški vestnik - Journal of Mechanical Engineering [Online], Volume 47 Number 8 (07 July 2017)

Avtorji

Inštitucije

  • ŠKODA VÝZKUM s.r.p., Mechanical Engineering Reseach
  • University of West Bohemia, Department of Physics, Czech Republic

Informacije o papirju

Strojniški vestnik - Journal of Mechanical Engineering 47(2001)8, 383-389

Microscale nonequlibrium heat conduction appears in all states of matter including solids, liquids, gases and plasmas where heat is carried by phonons,atoms, molecules, electrons or photons. A unified model of diffusion, wave and parallel conduction is introduced. Internal parameters and conditions of unambiguity describing the nonequlibrium are discussed from the physical point of view. Nonequilibrium heat transfer applications in technologies of microscale heating of materials by energetical photons, electrons and ions are presented.

Microscale; nonequilibrium; heat transfer; intensive heat sources;