Material transport in the free volume of a fixed granular bed

1973 ◽  
Vol 25 (1) ◽  
pp. 835-839
Author(s):  
M. A. Kasamanyan ◽  
V. A. Kirillov ◽  
Yu. Sh. Matros
Keyword(s):  
Free Volume ◽  
Granular Bed ◽  
Material Transport ◽  
Fixed Granular Bed

Mass transfer in the void space of a fixed granular bed

1971 ◽  
Vol 20 (3) ◽  
pp. 375-380
Author(s):  
V. A. Kirillov ◽  
Yu. Sh. Matros
Keyword(s):  
Mass Transfer ◽  
Granular Bed ◽  
Void Space ◽  
Fixed Granular Bed

Investigation of the gas inlet velocity distribution in a fixed granular bed filter

2010 ◽  
Vol 21 (6) ◽  
pp. 614-622 ◽  
Author(s):  
Chia-Jen Hsu ◽  
Shu-San Hsiau ◽  
Yi-Shun Chen ◽  
Jiri Smid
Keyword(s):  
Velocity Distribution ◽  
Granular Bed ◽  
Inlet Velocity ◽  
Fixed Granular Bed

PIM-1/MIL-101 hybrid composite membrane material: Transport properties and free volume

2014 ◽  
Vol 54 (7) ◽  
pp. 477-481 ◽  
Author(s):  
A. Yu. Alentiev ◽  
G. N. Bondarenko ◽  
Yu. V. Kostina ◽  
V. P. Shantarovich ◽  
S. N. Klyamkin ◽  
...  
Keyword(s):  
Transport Properties ◽  
Free Volume ◽  
Composite Membrane ◽  
Hybrid Composite ◽  
Membrane Material ◽  
Material Transport

Gas flow control in a fixed granular bed

1993 ◽  
Vol 74 (3) ◽  
pp. 199-203
Author(s):  
Yu.A. Buyevich ◽  
V.N. Korolyov
Keyword(s):  
Flow Control ◽  
Gas Flow ◽  
Granular Bed ◽  
Fixed Granular Bed

Wall gas-dynamic inhomogeneity in a fixed granular bed

1988 ◽  
Vol 55 (4) ◽  
pp. 1127-1131 ◽  
Author(s):  
V. N. Korolev ◽  
N. I. Syromyatnikov
Keyword(s):  
Granular Bed ◽  
Gas Dynamic ◽  
Fixed Granular Bed

scholarly journals SUCCESSIVE SALTATION OF A SAND GRAIN BY WIND

1970 ◽  
Vol 1 (12) ◽  
pp. 87 ◽  
Author(s):  
Yoshito Tsuchiya
Keyword(s):  
Dynamic Characteristics ◽  
Theoretical Approach ◽  
Equations Of Motion ◽  
Sand Transport ◽  
Granular Bed ◽  
Water Stream ◽  
Fixed Granular Bed ◽  
Good Agreement

In order to establish the mechanics of sand transport in an air or water stream, the mechanics of saltation of sand grains should first be considered In sand storms, most of the saltating sand grains on a granular bed have successively continued the saltation motion In this paper, such a saltation motion is defined as successive saltation A theoretical approach to the saltation of a single sand grain on a fixed granular bed is proposed on the basis of the equations of motion for the saltation and the dynamic characteristics of collision between a saltating sand grain and bed sand grains Some experiments of the successive saltation of a single sand gram on a fixed granular bed were carried out to compare with the theoretical relationships It was verified from the comparison that the theoretical relationships of the height and distance of saltation of a sand gram are in fairly good agreement m substance with the results of experiment.

scholarly journals Removal of Alkali Vapors by a Fixed Granular-Bed Sorber Using Activated Bauxite as a Sorbent

1985 ◽  
Author(s):  
Sheldon H. D. Lee ◽  
Richard F. Henry ◽  
Kevin M. Myles
Keyword(s):  
Scale Up ◽  
Combined Cycle ◽  
Vapor Sorption ◽  
Fluidized Bed Combustion ◽  
Granular Bed ◽  
Cycle System ◽  
System A ◽  
Alkali Vapors ◽  
Fixed Granular Bed ◽  
Pressurized Fluidized Bed Combustion

Studies have been conducted to develop a fixed granular-bed sorber for the removal of alkali vapors in a pressurized fluidized-bed combustion (PFBC) combined-cycle system. A laboratory-scale pressurized alkali-vapor sorption test unit was used to characterize activated bauxite, the most effective sorbent identified earlier, for its alkali vapor sorption capability in a gas stream with temperature (≤900°C), pressure (10 atm absolute), and composition closely simulating the actual PFBC flue gas. A scale-up of laboratory tests is being conducted in a 15.2-cm-dia (6-in.-dia) PFBC system to demonstrate the granular-bed sorber concept. The NaCl-vapor sorption chemistry of activated bauxite is described. The extent of alkali-vapor evolution from the activated bauxite bed itself is discussed, along with an evaluation of the significance of its alkali vapor contribution to a downstream gas turbine. Details of the design of a high-temperature/high-pressure alkali sorber system for the demonstration of the sorber are presented.

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