Influence of microwave technology on cocarboxylase hydrochloride particle diversity and drying efficiency

Influence of microwave technology on cocarboxylase hydrochloride particle diversity and drying efficiency

Two possible ways of crystallite downsizing of cocarboxylase hydrochloride namely mechanical milling and precipitation under high supersaturation conditions were studied as well as their influence on the drying parameters of the produced powders. It was found that both methods allowed shortening dry...

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Veröffentlicht in:Powder technology 2011-02, Vol.207 (1-3), p.134-139
Hauptverfasser: Pinchukova, Natalia A., Chebanov, Valentin A., Danilina, Viktoria V., Desenko, Sergey M., Seminozhenko, Volodymyr P., Shishkin, Oleg V., Voloshko, Alexander Yu
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Chemical engineering
Crystallites
Drying
Evaporation
Exact sciences and technology
Hydrochlorides
Inclusion
Mechanical milling
Microwave irradiation
Microwaves
Milling
Miscellaneous
Precipitation
Solid-solid systems
Supersaturation
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container_end_page 139
container_issue 1-3
container_start_page 134
container_title Powder technology
container_volume 207
creator Pinchukova, Natalia A.
Chebanov, Valentin A.
Danilina, Viktoria V.
Desenko, Sergey M.
Seminozhenko, Volodymyr P.
Shishkin, Oleg V.
Voloshko, Alexander Yu
description Two possible ways of crystallite downsizing of cocarboxylase hydrochloride namely mechanical milling and precipitation under high supersaturation conditions were studied as well as their influence on the drying parameters of the produced powders. It was found that both methods allowed shortening drying times of powders. However, precipitation from highly supersaturated solutions was found to have a more significant effect on cocarboxylase hydrochloride drying in comparison with the milling as the crystallites produced by the former method have smaller sizes (
doi_str_mv 10.1016/j.powtec.2010.10.018
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It was found that both methods allowed shortening drying times of powders. However, precipitation from highly supersaturated solutions was found to have a more significant effect on cocarboxylase hydrochloride drying in comparison with the milling as the crystallites produced by the former method have smaller sizes (&lt;10μm) without additional disintegration and contain much less inclusions of mother liquor. Obtaining solutions with high supersaturation degrees was achieved due to application of microwave irradiation at the evaporation stage that provided uniform gradientless heating of cocarboxylase aqueous solutions. The results of this work can be applied for producing other fine-crystalline substances and materials when particle sizes play a key role in the manufacture of products with the desired qualitative characteristics. Drying times of cocarboxylase hydrochloride powders have been shown to be strongly dependant on particle diversity. Both mechanical milling of the powders obtained via uncontrollable crystallization and precipitation from highly supersaturated aqueous solutions have resulted in fine powders and considerable drying time shortening, the latter technique, however, demonstrated much more striking effect. 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Both mechanical milling of the powders obtained via uncontrollable crystallization and precipitation from highly supersaturated aqueous solutions have resulted in fine powders and considerable drying time shortening, the latter technique, however, demonstrated much more striking effect. 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It was found that both methods allowed shortening drying times of powders. However, precipitation from highly supersaturated solutions was found to have a more significant effect on cocarboxylase hydrochloride drying in comparison with the milling as the crystallites produced by the former method have smaller sizes (&lt;10μm) without additional disintegration and contain much less inclusions of mother liquor. Obtaining solutions with high supersaturation degrees was achieved due to application of microwave irradiation at the evaporation stage that provided uniform gradientless heating of cocarboxylase aqueous solutions. The results of this work can be applied for producing other fine-crystalline substances and materials when particle sizes play a key role in the manufacture of products with the desired qualitative characteristics. Drying times of cocarboxylase hydrochloride powders have been shown to be strongly dependant on particle diversity. Both mechanical milling of the powders obtained via uncontrollable crystallization and precipitation from highly supersaturated aqueous solutions have resulted in fine powders and considerable drying time shortening, the latter technique, however, demonstrated much more striking effect. [Display omitted] ► Microwave-assisted evaporation resulted in highly supersaturated solutions. ► Precipitation from highly supersaturated solutions resulted in very fine powders. ► Obtaining very fine powders allowed drying acceleration by the factor of 7. ► Application of microwave technologies will increase processes efficiency.</abstract><cop>Amsterdam</cop><pub>Elsevier B.V</pub><doi>10.1016/j.powtec.2010.10.018</doi><tpages>6</tpages></addata></record>
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source Elsevier ScienceDirect Journals Complete
subjects Applied sciences
Chemical engineering
Crystallites
Drying
Evaporation
Exact sciences and technology
Hydrochlorides
Inclusion
Mechanical milling
Microwave irradiation
Microwaves
Milling
Miscellaneous
Precipitation
Solid-solid systems
Supersaturation
title Influence of microwave technology on cocarboxylase hydrochloride particle diversity and drying efficiency
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