https://doi.org/10.4081/jae.2014.435

Design and preliminary test of a fluidised bed photoreactor for ethylene oxidation on mesoporous mixed SiO2/TiO2 nanocomposites under UV-A illumination

Vol. 45 No. 4 (2014)
Published: 21 December 2014
ethylene reduction, fluidised bed photoreactor, postharvest storage, titanium oxide.
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Authors

Maria Lucia V. de Chiara
Department of Science of Food, Agriculture and Environment, University of Foggia, Italy.
Maria Luisa Amodio
marialuisa.amodio@unifg.it
Department of Science of Food, Agriculture and Environment, University of Foggia, Italy.
Francesco Scura
STC srl Science, Technology & Consulting, Mesagne (BR), Italy.
Luigina Spremulli
STC srl Science, Technology & Consulting, Mesagne (BR), Italy.
Giancarlo Colelli
Department of Science of Food, Agriculture and Environment, University of Foggia, Italy.
Ethylene (C2H4) is a plant hormone that has numerous effects on many horticultural and ornamental crops. It accelerates senescence, stimulates chlorophyll loss, enhances excessive softening, promotes discoloration and browning during storage of fresh produce. Among the techniques used to remove or inhibit ethylene action during postharvest handling of fresh products (potassium-based system, high temperature catalytic oxidation, inhibition of ethylene receptors), the use of titanium oxide (TiO2)-based materials with photocatalytic activity under ultraviolet (UV) light is one of the most promising. A fluidised-bed photoreactor (FBP) was designed to decompose ethylene in the storage room atmosphere, and the relative prototype was manufactured. Since TiO2 powder alone is not suitable for use within a fluidised bed, preliminary tests to select the best support were performed. Alumina microspheres showed a good fluidisation behavior; its functionality was tested with different kind of support material and actual photocatalytic activity was tested using SiO2/TiO2-coated alumina microspheres. A reduction of approximately 72% of ethylene concentration in the tested 40 ppm ethylene gas mixture was observed after 4.5 h of 36W UV light exposure. FBP resulted to be suitable to avoid the detrimental presence of C2H4 in the atmosphere surrounding fresh products within cold storage rooms.

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Supporting Agencies

The authors gratefully acknowledge funding from MIUR (Italian Ministry of University and Scientific Research) within Program PON (Project OFRALSER, Grant Agreement PON01_01435).

How to Cite

de Chiara, M. L. V. (2014) “Design and preliminary test of a fluidised bed photoreactor for ethylene oxidation on mesoporous mixed SiO2/TiO2 nanocomposites under UV-A illumination”, Journal of Agricultural Engineering, 45(4), pp. 146–152. doi: 10.4081/jae.2014.435.

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