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Thermodynamics of gases in nano cavities
C. Firat
, A. Sisman
*
,
Z. F. Ozturk
*
Corresponding author for this work
Energy Institute
Istanbul Technical University
Research output
:
Contribution to journal
›
Article
›
peer-review
29
Citations (Scopus)
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Keyphrases
Boundary Layer
100%
Thermodynamics
100%
Nanocavity
100%
Density Distribution
50%
Density Profile
33%
Maxwellian
33%
Thermodynamic Equilibrium
33%
Thickness Profile
33%
Domain Geometry
33%
Analytical Solution
16%
Analytical Results
16%
Thermodynamic Behavior
16%
Thermal De Broglie Wavelength
16%
Wave Character
16%
Rectangular Domain
16%
Domain Boundary
16%
Gas Density
16%
Inhomogeneous Density
16%
Gas-particle
16%
Quantum Potential
16%
Planck Constant
16%
Irregular Domain
16%
Regular Domain
16%
Engineering
Boundary Layer
100%
Density Distribution
50%
Nanoscale
33%
Thermodynamic Equilibrium
33%
Domain Geometry
33%
Analytical Result
16%
Thermodynamic Behavior
16%
Domain Boundary
16%
Gas Density
16%
Planck Constant
16%
Domain Size
16%
Physics
Boundary Layer
100%
Density Distribution
50%
Nanoscale
33%
Thermodynamic Equilibrium
33%
De Broglie Wavelengths
16%
Material Science
Density
100%
Boundary Layer
100%
Density of Gases
16%
Mathematics
Boundary Layer
100%
Density Profile
33%
Thermodynamic Equilibrium
33%
Rectangular Domain
16%
Thermodynamic Behavior
16%
Planck Constant
16%