Journal of Food Engineering 103 (2011) 464472

 

Particle size of milled barley and sorghum and physico-chemical properties of grain following extrusion

 

Ghaid J. Al-Rabadi a, Peter J. Torley b, Barbara A. Williams a, Wayne L. Bryden a,c, Michael J. Gidley a,

a The University of Queensland, Centre for Nutrition and Food Sciences, School of Land Crop and Food Sciences, St. Lucia, Brisbane, Qld 4072, Australia

b National Wine and Grape Industry Centre, School of Agricultural and Wine Sciences, Charles Sturt University, Wagga Wagga NSW 2678, Australia

c The University of Queensland, School of Animal Studies, Gatton, Qld 4343, Australia

 

Milled barley and sorghum grains were separated into three size fractions (fine, 1.0 mm) and extruded at two maximum temperatures (100 _C; 140 _C). Mechanical resistance and specific mechanical energy during extrusion was significantly higher for fine fractions, and extrusion at high temperature resulted in higher mechanical resistance. Pressure generated during extrusion was higher for the fine fraction in sorghum but lower in barley. Expansion index was highest for the fine fraction for barley, but did not differ significantly between sorghum fractions or with extrusion temperature. For all samples, extrusion at low temperature resulted in a higher final paste consistency and lower water absorption index, but there was no significant effect on water solubility index (WSI). Fraction size showed a significant effect on WSI in sorghum but not in barley. The results are rationalised in terms of differences in grain composition between sorghum and barley.