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Lewis number

May 02, 2024

In fluid dynamics and thermodynamics, the Lewis number (denoted Le) is a dimensionless number defined as the ratio of thermal diffusivity to mass diffusivity. It is used to characterize fluid flows where there is simultaneous heat and mass transfer. The Lewis number puts the thickness of the thermal boundary layer in relation to the concentration boundary layer.[1] The Lewis number is defined as[2]

.

where:

In the field of fluid mechanics, many sources define the Lewis number to be the inverse of the above definition.[3][4]

The Lewis number can also be expressed in terms of the Prandtl number (Pr) and the Schmidt number (Sc):[5]

It is named after Warren K. Lewis (1882–1975),[6][7] who was the first head of the Chemical Engineering Department at MIT. Some workers in the field of combustion assume (incorrectly) that the Lewis number was named for Bernard Lewis (1899–1993), who for many years was a major figure in the field of combustion research[citation needed].

Literature edit

  • Bird, R.B. (Fall 2001). "Who Was Who in Transport Phenomena". Chemical Engineering Education. 35 (4). Retrieved 20 May 2021.
  • Incropera, F. P.; DeWitt, D. P. (1996). Heat and Mass Transfer, fifth edition. New York, NY: Wiley. ISBN 0-471-38650-2.

References edit

  1. ^ "Lewis number". tec-science. 10 May 2020. Retrieved 25 June 2020.
  2. ^ Cohen, E. Richard; Cvitaš, Tomislav; Frey, Jeremy G.; Homström, Bertil; Kuchitsu, Kozo; Marquardt, Roberto; Mills, Ian; Pavese, Franco; Quack, Martin; Stohner, Jürgen; Strauss, Herbert L.; Takami, Michio; Thor, Anders J. (2007). Quantities, Units and Symbols in Physical Chemistry (PDF) (3rd ed.). IUPAC. p. 82.
  3. ^ Candler, Graham V.; Nompelis, Ioannis (September 2009). "Computational Fluid Dynamics for Atmospheric Entry". Von Karman Institute. Von Karman Institute for Fluid Dynamics Lecture Series Hypersonic Entry and Cruise Vehicles – via Defence Technical Information Centre.
  4. ^ White, Frank M. (1991). Viscous fluid flow (2nd ed.). New York: McGraw-Hill. pp. 31–34. ISBN 0-07-069712-4. OCLC 21874250.
  5. ^ Guruge, Amila Ruwan (2022-02-10). "What is the Lewis Number". Chemical and Process Engineering. Retrieved 2022-12-20.
  6. ^ Lewis, W. K. (1922). "The Evaporation of a Liquid into a Gas". Transactions of the American Society of Mechanical Engineers. 44 (1849). New York: 325–340. hdl:2027/mdp.39015023119749.
  7. ^ Klinkenberg, A.; Mooy, H. H. (1948). "Dimensionless Groups in Fluid Friction, Heat, and Material Transfer". Chemical Engineering Progress. 44 (1): 17–36.

May 02, 2024
lewis, number, fluid, dynamics, thermodynamics, denoted, dimensionless, number, defined, ratio, thermal, diffusivity, mass, diffusivity, used, characterize, fluid, flows, where, there, simultaneous, heat, mass, transfer, puts, thickness, thermal, boundary, lay. In fluid dynamics and thermodynamics the Lewis number denoted Le is a dimensionless number defined as the ratio of thermal diffusivity to mass diffusivity It is used to characterize fluid flows where there is simultaneous heat and mass transfer The Lewis number puts the thickness of the thermal boundary layer in relation to the concentration boundary layer 1 The Lewis number is defined as 2 L e a D l r D i m c p displaystyle mathrm Le frac alpha D frac lambda rho D im c p where a is the thermal diffusivity D is the mass diffusivity l is the thermal conductivity r is the density Dim is the mixture averaged diffusion coefficient cp is the specific heat capacity at constant pressure In the field of fluid mechanics many sources define the Lewis number to be the inverse of the above definition 3 4 The Lewis number can also be expressed in terms of the Prandtl number Pr and the Schmidt number Sc 5 L e S c P r displaystyle mathrm Le frac mathrm Sc mathrm Pr It is named after Warren K Lewis 1882 1975 6 7 who was the first head of the Chemical Engineering Department at MIT Some workers in the field of combustion assume incorrectly that the Lewis number was named for Bernard Lewis 1899 1993 who for many years was a major figure in the field of combustion research citation needed Literature editBird R B Fall 2001 Who Was Who in Transport Phenomena Chemical Engineering Education 35 4 Retrieved 20 May 2021 Incropera F P DeWitt D P 1996 Heat and Mass Transfer fifth edition New York NY Wiley ISBN 0 471 38650 2 References edit Lewis number tec science 10 May 2020 Retrieved 25 June 2020 Cohen E Richard Cvitas Tomislav Frey Jeremy G Homstrom Bertil Kuchitsu Kozo Marquardt Roberto Mills Ian Pavese Franco Quack Martin Stohner Jurgen Strauss Herbert L Takami Michio Thor Anders J 2007 Quantities Units and Symbols in Physical Chemistry PDF 3rd ed IUPAC p 82 Candler Graham V Nompelis Ioannis September 2009 Computational Fluid Dynamics for Atmospheric Entry Von Karman Institute Von Karman Institute for Fluid Dynamics Lecture Series Hypersonic Entry and Cruise Vehicles via Defence Technical Information Centre White Frank M 1991 Viscous fluid flow 2nd ed New York McGraw Hill pp 31 34 ISBN 0 07 069712 4 OCLC 21874250 Guruge Amila Ruwan 2022 02 10 What is the Lewis Number Chemical and Process Engineering Retrieved 2022 12 20 Lewis W K 1922 The Evaporation of a Liquid into a Gas Transactions of the American Society of Mechanical Engineers 44 1849 New York 325 340 hdl 2027 mdp 39015023119749 Klinkenberg A Mooy H H 1948 Dimensionless Groups in Fluid Friction Heat and Material Transfer Chemical Engineering Progress 44 1 17 36 Retrieved from https en wikipedia org w index php title Lewis number amp oldid 1207352946, wikipedia, wiki, book, books, library,

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