A Novel Configuration For Fluidized Bed

ISSN: 1874-4788 (Online)
ISSN: 2211-3347 (Print)

Volume 7, 2 Issues, 2014

Download PDF Flyer

Recent Patents on Chemical Engineering

Aims & ScopeAbstracted/Indexed in

Submit Abstracts Online Submit Manuscripts Online

Yousheng Tao
State Key Laboratory of Structural Chemistry
Fujian Institute of Research on the Structure of Matter
Chinese Academy of Sciences

View Full Editorial Board

Subscribe Purchase Articles Order Reprints

A Novel Configuration For Fluidized Bed

Author(s): F. Okasha

Affiliation: Department of Mechanical Engineering, Faculty of Engineering, Taif University, Al-Hawiah P.O. Box 888, Zip Code 21974, Saudi Arabia.


A novel configuration for fluidized bed has been developed. It is basically a bubbling fluidized bed furnished with a spouted jet in the upper part of the bed. A part of gases is fed through the distributor to fluidize bed solids. The remaining part is fed through a vertical pipe creating a jet-fountain zone. A distinct feature of the novel configuration different from previous spouted bed patents and configurations is that the jet spout height is independent of the bed height. The experiments carried out using the novel configuration furnish promising results. The power consumption in delivering gases is found much lower when applying the novel configuration. Moreover, bubble sizes reduce considerably in the main bed as only a part of gases passes through it. Tests on combustion of a gaseous fuel indicate that the novel configuration enables smooth combustion of gaseous fuels and a rapid reliable method for initial heating of fluidized bed combustor. Staged air combustion technique is also applied. Drying silica gel has been tested in the novel configuration and in the conventional fluidized bed. Results demonstrate that the overall mass transfer rate is considerably higher in the novelconfiguration, particularly, at higher air flowrate.

Keywords: Fluidized Bed, Jet, Combustion, Gaseous Fuels, Staged air, Drying, Silica Gel, Mass Transfer.

Purchase Online Order Reprints Order Eprints Rights and Permissions


Article Details

Volume: 6
Issue Number: 2
First Page: 99
Last Page: 106
Page Count: 8
DOI: 10.2174/2211334711306020003

Related Journals

Webmaster Contact: urooj@benthamscience.org Copyright © 2014 Bentham Science