Theoretical estimation of silo design parameters for fractionated loblolly pine grinds – Moisture content and particle size effects

Theoretical estimation of silo design parameters for fractionated loblolly pine grinds – Moisture content and particle size effects

•Fraction size and moisture content affected the hopper half angle.•The hopper half angle decreased with increase in angle of wall friction.•The adjusted hopper outlet sizes varied between 1.20 and 28.56 mm.•Initial fill and flow induced pressures increased with increase in fraction size.•Initial fi...

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Bibliographic Details
Published in:Industrial crops and products Vol. 123; pp. 379 - 385
Main Authors: Oginni, Oluwatosin, Fasina, Oladiran
Format: Journal Article
Language:English
Published: Elsevier B.V 01-11-2018
Subjects:
Angle of wall friction
Critical applied stress
Flow function
Loblolly pine
Angle of wall friction
Loblolly pine
Critical applied stress
Flow function
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Summary:•Fraction size and moisture content affected the hopper half angle.•The hopper half angle decreased with increase in angle of wall friction.•The adjusted hopper outlet sizes varied between 1.20 and 28.56 mm.•Initial fill and flow induced pressures increased with increase in fraction size.•Initial fill and flow induced pressures increased with decrease in moisture content. Bulk material handling operations are key operations in process industries such as biorefineries, chemicals and pharmaceuticals. To ensure a successful production operation, a consistent and reliable flow of the materials from storage vessels without dust generation and flow obstruction are required. The objective of this study was to investigate the effect of particle size and moisture content on the theoretical estimation of silo design parameters for fractionated loblolly pine grinds. Loblolly pine grinds were fractionated into sizes using screen apertures: 1.40, 1.00, 0.71, 0.50, 0.25 mm and pan. The fractionated loblolly pine grinds were adjusted to the moisture level of 4.78%, 8.68%, 16.53%, 22.21% and 25.53% (w.b). There was a reduction in the hopper half angle with increase in moisture content and reduction in the fraction size. The hopper half angle also decreased with increase in angle of wall friction. The adjusted hopper outlet sizes varied between 1.20 and 28.56 mm. The wall normal and vertical pressure acting on the cylindrical section of the silo increased from 9.35 to 45.42 kPa and 15.34 to 48.91 kPa, respectively, with increase in fraction size and decrease in moisture content. The initial fill and flow induced pressures acting on the hopper section of the silo increased from 15.34 to 48.91 kPa and 24.71 to 78.79 kPa, respectively, with increase in fraction size and decrease in moisture content. Results of this study will be helpful in designing effective storage vessels and understanding the pressures exerted by stored biomass in the storage vessel.
ISSN:0926-6690
1872-633X
DOI:10.1016/j.indcrop.2018.07.005