| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 144225 | Advanced Powder Technology | 2013 | 7 Pages |
•A new strategy for the production of spherical particles is developed.•Control parameters for the particle’s shape and size are assessed.•The mechanism for the formation of spherical particle is reported.•The developed particle can be applicable in the field of catalysis.
Herein we describe a versatile new strategy for producing spherical solid particles with 2 mm in size using integrated gelling process. The method involves the formation of spherical droplets by using a peristatic pump device and shaping the droplets in a liquid calcium chloride solution. The shape and size of these calcium alginate macroparticles depend strongly on the calcium solution concentration. The shaping mechanism of the macroparticles and the impact of the experimental conditions on particle shape and size are investigated. This method has the following features: (1) A new level of control over the shapes of the particles is offered. (2) The procedure can be scaled up to produce large numbers of particles. (3) The final porous structure of the developed particle can be designed for a specific application (adsorption, catalysis).
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