TY - JOUR
T1 - BULK COMPRESSIBILITY BEHAVIOR FOR SELECT CROPS
AU - Turner, Aaron P.
AU - McNeill, Samuel G.
AU - Montross, Michael
AU - Casada, Mark E.
AU - Thompson, Sidney A.
AU - Maghirang, Ronaldo G.
AU - Petingco, Marvin Carpena
N1 - The authors would like to thank Leslie Mathis for her assistance in collecting compressibility data. Additionally, we would also like to thank Kurt Hildebrand and the numerous other cooperators who provided samples. This work was funded in part by the Anderson Research Grant Program and USDA (CRIS No. 5430-43440-010-00D).
PY - 2023
Y1 - 2023
N2 - Knowledge of the pressure-dependent bulk density increase observed in stored grains and oil seeds, commonly referred to as packing or compressibility, is important for maintaining accurate grain inventory, evaluating wall loads, and other applications that require estimating density at specific depths in a bin. This study presents compressibility equation parameters determined utilizing a compilation of the best data available, including previously published and new datasets. In all, confined uniaxial compression tests for nine crops (barley, canola, corn, oats, rice, sorghum, soybeans, hard red winter wheat, and soft red winter wheat) were included. The data was fit using two candidate compressibility equations, both of which generally fit well and resulted in root mean squared errors ranging from 1.7 to 7.1 kg m-3, depending on the model and crop. For crops with full scale bin data available from previous research, the resulting equations were applied to estimate inventory and were compared with the measured mass of grain in the bin. Results from both equations were similar, and apart from oats, median errors were less than 2.5%.
AB - Knowledge of the pressure-dependent bulk density increase observed in stored grains and oil seeds, commonly referred to as packing or compressibility, is important for maintaining accurate grain inventory, evaluating wall loads, and other applications that require estimating density at specific depths in a bin. This study presents compressibility equation parameters determined utilizing a compilation of the best data available, including previously published and new datasets. In all, confined uniaxial compression tests for nine crops (barley, canola, corn, oats, rice, sorghum, soybeans, hard red winter wheat, and soft red winter wheat) were included. The data was fit using two candidate compressibility equations, both of which generally fit well and resulted in root mean squared errors ranging from 1.7 to 7.1 kg m-3, depending on the model and crop. For crops with full scale bin data available from previous research, the resulting equations were applied to estimate inventory and were compared with the measured mass of grain in the bin. Results from both equations were similar, and apart from oats, median errors were less than 2.5%.
KW - Bulk density
KW - Compressibility
KW - Grain storage
KW - Pack factor
KW - Stored grain inventory
KW - Test weight
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U2 - 10.13031/aea.15593
DO - 10.13031/aea.15593
M3 - Article
AN - SCOPUS:85178002449
SN - 0883-8542
VL - 39
SP - 509
EP - 518
JO - Applied Engineering in Agriculture
JF - Applied Engineering in Agriculture
IS - 5
ER -