期刊
BIOSYSTEMS ENGINEERING
卷 228, 期 -, 页码 67-79出版社
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.biosystemseng.2023.03.002
关键词
Terminal Velocity; Drag Coefficient; Perennial Ryegrass; Particles; Forage; Vertical Wind Tunnel
The aerodynamic properties of chopped ryegrass particles were investigated, and it was found that these properties are influenced by the mass, projected area, and moisture content of the particles. The terminal velocity of leaf blades was found to be lower (1.75 m/s) compared to stems (4.44 m/s). Additionally, it was observed that leaf blades had higher drag coefficients compared to stems. Moisture content did not significantly affect the drag coefficient of the grass particles.
Fibrous forage and biomass crops such as grass and maize are used at large scale as feed for ruminants and feedstock for biogas production. These crops are typically harvested by chopping them in small particles which are light and suitable for partial pneumatic conveying, where the particle trajectory is determined by their aerodynamic properties. While the aerodynamic properties of many grains have been studied, no reports were found for perennial ryegrass. Chopped ryegrass samples of leaf blades and stems were collected in the fields. After imaging the fresh harvested particles to quantify their size and surface area, their terminal velocity was measured with the fluidised-bed method. The relationship between the mass, projected area and moisture content of the stems and blades with their terminal velocities were modelled. In line with theory, mass and moisture content was positively correlated with terminal velocity, while projected area was nega-tively correlated with it. Smaller terminal velocities were observed for the blades (1.75 m s-1) compared to the stems (4.44 m s-1). The drag coefficients of grass particles were calculated, and for blades it was negatively correlated with the particle Reynold's number lying within Newton's regime (103 < Re < 3 x 105), whilst no significant correlation was found for stems. The average drag coefficient of blades (0.75) was larger than stems (0.54). No significant effect (p-value<0.01) of moisture content on the drag coefficient of grass particles was observed. This confirms that the drag coefficient is a shape parameter, related to formation of airstreams around the particle.(c) 2023 IAgrE. Published by Elsevier Ltd. All rights reserved.
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