Abstract

Calculated motions and heat transfer of particles suspended in a gas stream pulsating at large amplitude (resonance) show that the heat transfer and the amount of heat transferred to a particle increases, while the mean flow velocity required to transport particles decreases in comparision with the corresponding values in flow without pulsation. The use of resonance oscillations is claimed to intensify interphase heat and mass transfer in a gas suspension.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Non-equilibrium interphase heat and mass transfer during two-phase flow in porous media—Theoretical considerations and modeling
S Majid Hassanizadeh ... Jennifer Niessner
Advances in Water Resources | VOL. 32
S Majid Hassanizadeh, et. al.S Majid Hassanizadeh ... Jennifer Niessner
13 Oct 2009
Direct numerical simulation of interphase heat and mass transfer in multicomponent vapour–liquid flows
Jan B Haelssig ... Jules Thibault
International Journal of Heat and Mass Transfer | VOL. 53
Jan B Haelssig, et. al.Jan B Haelssig ... Jules Thibault
31 May 2010
Unsteady-State Wave Flows of a Gas–Solid Suspension with Gas-Flow-Rate Oscillations and Their Effect on the Heat and Mass Transfer
P S Kuts ... P V Akulich
Theoretical Foundations of Chemical Engineering | VOL. 38
P S Kuts, et. al.P S Kuts ... P V Akulich
01 Sep 2004
Accounting for the Effect of Noncondensing Gases on Interphasic Heat and Mass Transfer in the Two-Fluid Model Used in the KORSAR Code
Yu V Yudov
Thermal Engineering | VOL. 65
Yu V YudovYu V Yudov
01 Mar 2018
View more papers

More From: Journal of Engineering Physics

Paper Title
Journal
Date
Author
Effect of filtration flow on the equilibrium shape of bodies formed by forced freezing
G I Mukhamadullina ... K G Kornev
Journal of Engineering Physics | VOL. 61
G I Mukhamadullina, et. al.G I Mukhamadullina ... K G Kornev
01 Dec 1991
Thermophysical properties of granular-fibrous material on the temperature interval from 175 to 450 K
Kh S Nurmukhamedov ... S K Nigmadzhanov
Journal of Engineering Physics | VOL. 61
Kh S Nurmukhamedov, et. al.Kh S Nurmukhamedov ... S K Nigmadzhanov
01 Dec 1991
Some properties of a precursor film
D I Vandyshev ... S G Skakun
Journal of Engineering Physics | VOL. 61
D I Vandyshev, et. al.D I Vandyshev ... S G Skakun
01 Dec 1991
Aerodynamic window with a pressure separation ratio greater than 500
V M Khailov ... V V Shelomovskii
Journal of Engineering Physics | VOL. 61
V M Khailov, et. al.V M Khailov ... V V Shelomovskii
01 Dec 1991
View more papers