Studies of Solid-Solid Mixing Behaviors In a Downer Reactor

Monday, October 17, 2011: 1:10 PM
M100 E (Minneapolis Convention Center)
Yongpan Cheng1, Eldin Wee Chuan Lim1, Chi-Hwa Wang1, Guoqing Guan2, Yu Nakamura3, Masanori Ishizuka3, Chihiro Fushimi4 and Atsushi Tsutsumi5, (1)Chemical and Biomolecular Engineering, National University of Singapore, Singapore, Singapore, (2)North Japan Research Institute for Sustainable Energy (NJRISE), Hirosaki University, Hirosaki, Japan, (3)Institute of Industrial Science, University of Tokyo, Tokyo, Japan, (4)Department of Chemical Engineering, Tokyo University of Agriculture and Technology, Tokyo, Japan, (5)Institute of Industrial Science, The University of Tokyo, Tokyo, Japan

Downer reactor has the very short residence times, narrow residence time distributions and uniform solids holdup distributions with the aid of gravitational acceleration.  As a result, it has become an attractive alternative to its counterpart, the riser reactor, for certain classes of chemical reactions. These include gasification reactions, fluid catalytic cracking, Fischer-Tropsch reactions and others. In particular, in downer reactor, high reaction efficiencies and low tar formation can be achieved in fast pyrolysis of coal or biomass. The flow behavior of solids is a key to the successful operation of the reactor within the downer, because it determines the contacting pattern as well as the extents of mixing between different phases of materials. Despite the research efforts that have been invested towards both experimental and numerical studies of hydrodynamics and flow behaviors in downer reactor systems, current understanding of such systems is far from complete. In particular, relatively little attention has been given towards the studies of mixing behaviors between two or more types of solids within a downer reactor. Our work will focus on the characterization of the mixing between two types of solids through both experiment and numerical studies.  

*Corresponding author. Tel.: +65 6516 5079; Fax: +65 6779 1936; E-mail address: chewch@nus.edu.sg (C. H. Wang)


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See more of this Session: Fundamentals of Fluidization II
See more of this Group/Topical: Particle Technology Forum