Mathematical modelling of heat and moisture transfer of wheat stored in plastic bags (silobags)
A. Gastón, R. Abalone, R.E. Bartosik and J.C. Rodríguez
Biosystems Engineering, Volume 104, Issue 1, September 2009, Pages 72-85
2009
บทคัดย่อ
A bidimensional finite element model that predicts temperature distribution and moisture migration of wheat stored in silobags due to seasonal variation of climatic conditions is described. The model includes grain respiration and calculates carbon dioxide and oxygen concentrations during storage as well as the associated dry matter loss. The model validation was carried out by comparing predicted with measured temperature and moisture content (MC) data. The temperature standard errors of the model validation were 1.94 °C at the bottom, 1.35 °C in the middle and 1.20 °C at the top layer. The model predicted moisture increase in the top grain layer during storage ranging from 1.0 to 1.5% w.b., while the measured increase ranged from 0.4 to 0.8% w.b. Predicted average CO2 and O2 concentrations were compared with measured data. For dry wheat (12.5% w.b.), after 100 days of storage, differences in concentrations were 1.8 and 0.6% points for CO2 and O2, respectively. For wet wheat (16.4% w.b.), the model predicted the total consumption of O2 after five days while the observed O2 data never dropped below 5%. The difference between the measured and predicted CO2 concentration for the fifth day was 1.1%. For the range of MCs considered in this work, the change in CO2 concentration during storage was satisfactorily predicted by use of