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The use of a bead mill for the production of agrochemical suspensions

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Plant protection products represent one of the most innovative branches of the agrochemical industry which requires considerable financial investment to adequately meet agricultural needs. The optimal agrochemicals should enable farmers to maximize yields, and their components should remain active over long periods of time regardless of weather conditions. This article describes an innovative technology for the production of agrochemical suspensions in a bead mill. The suspension acts as a carrier of active ingredients. The parameters of the bead mill were presented, and the resulting suspensions were used in the production of fungicides. The parameters of the substrates used in the production of agrochemicals have to comply with legal regulations. The present experiment involved liquid chromatography, and it was conducted in accordance with good practice, in line with CIPAC guidelines.
Rocznik
Tom
Strony
271--280
Opis fizyczny
Bibliogr. 12 poz., rys., tab., wykr., zdj.
Twórcy
  • Department of Biosystems Engineering, Opole University of Technology, Opole
  • Department of Biosystems Engineering, Opole University of Technology, Opole
  • Pestila Sp. z o.o., Studzianki
Bibliografia
  • Directive 2004/9/EC of 11 February. 2004. Amending Council Directive 87/18/EEC, Official Journal of the European Union.
  • Gawenda T. 2009. Main aspects of grinding hard mineral raw materials in high-pressure roller presses. Mining and Geoengineering, 33(4).
  • Gawenda T. 2010. Problems with the selection of crushing machines in mineral aggregate installations. Mining and Geoengineering, 34(4).
  • IA/HPLC/10. Laboratory Procedure.
  • MT 75.3 Determination of pH values. 2000. CIPAC Handbook, J: 131.
  • Napier-Munn T.J., Morrell S., Morrison R.D., Kojovic T. 1997. Mineral comminution circuits –Their operation and optimization. JKMRC monograph series in mining and mineral processing. Hall & Jones Pty Ltd., Brisbane, p. 413.
  • Sidor J., Foszcz D., Tomach P., Krawczykowski D. 2015. High-energy mills for grinding ores and mineral resources. CUPRUM, 2: 71-85.
  • Szwedziak K., Grzywacz Ż., Biłos Ł., Tomaszewski S. 2019. Physicochemical properties of containing azoxystrobin AZS–GEN 250 SC after 2 years of storage. Chemical Industry, 98(3): 372-376, doi: 10.15199/62.2019.3.4.
  • Szwedziak K., Tukiendorf M., Grzywacz Ż., Tomaszewski S., Wojtkiewicz W. 2019. Physicochemical properties of a commercial herbicidal product containing metazachlor as an active substance. Chemical Industry, 98(7): 1113-1117, doi: 10.15199/62.2019.7.16.
  • Test No. 109 Density of Liquids and Solids. 2012. OECD, p. 2.
  • The Regulation of the Minister of Healt of 22 May 2013 on Good Laboratory Practice and Performance of Studies in Compilance with the Principces of Good Laboratory Practice.
  • Tumidajski T., Kasińska-Pilut E., Gawenda T., Naziemiec Z., Pilut R. 2010. Research on Energy consumption of the grinding process and susceptibility to grinding of lithological components of Polish copper ores. Economy of Mineral Raw Materials, 26(1): 61-72.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-10a009eb-3626-48f2-ac46-79b9b855072e
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