Continuous ozonation treatment systems as other alternative more efficient grain protection technologies

Autor/innen

  • D. E. Maier Department of Grain Science and Industry, Kansas State University, 201 Shellenberger Hall, Manhattan, KS 66506, Email: dmaier@k-state.edu
  • C. A. Campabadal Agricultural and Biological Engineering, Purdue University, 225 South University St. West Lafayette, Indiana, USA 47906-2093
  • C. P. Woloshuk Botany & Plant Pathology Department, Purdue University, 1155 LILY, West Lafayette, IN 47907-1155
  • L. Mason Department of Entomology, Purdue University, 1158 SMTH, West Lafayette, IN 47907-1158

DOI:

https://doi.org/10.5073/jka.2010.425.258

Abstract

Previous static bed ozonation scale-up and demonstration trials have proven the use of ozone as an effective technology for grain protection without affecting its end-use quality. Due to the lack of current availability of high capacity ozone producing generators, grain treatment through static bed ozonation systems are limited to be used in metal silos of capacities smaller than 644-t. Also, the trials have shown that treatment time has to be of no less than 4 d during application in order to be effective for pest control. Therefore, more efficient ozonation treatment systems are needed for proper ozone usage for stored product protection. The primary objective of these research studies was to design and test a semi-continuous counter-flow ozonation and a continuous ozonation flow treatment systems in order to ozonate grain at faster rates based on the concentration-time product (CTP) of ozone required to achieve 100% insect mortality and effective mold reduction in grain. The procedure of the counter-flow semi-continuous ozonation system consisted of removing each grain layer inside a metal silo with a tapered unloading auger after each layer reached the desired ozone CTP. The treated grain is subsequently transported to a storage or shipping silo. The continuous ozonation flow system involves applying high ozone concentrations through a modified grain loading screw conveyor where ozone and grain are moving continuously in the same flow direction. The counter-flow semi-continuous ozonation system was successfully tested and proved to be a technically feasible tool for pest control and mold reduction. The continuous ozonation flow system was proved as an effective tool for treating grain during handling while achieving 100% insect mortality, and effective mold reduction.


Keywords: Ozonation, Continuous treatment, Grain, Pest control, Molds.

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Veröffentlicht

2010-09-02

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Rubrik

Section: Fumigation, Modified Atmospheres and Hermetic Storage