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Twin-Screw Extrusion Processing of Feed Blends Containing Distillers Dried Grains with Solubles (DDGS)

September 2007 Volume 84 Number 5
Pages 428 — 436
Nehru Chevanan,1 Kurt A. Rosentrater,2,3 and Kasiviswanathan Muthukumarappan4

Graduate research assistant, South Dakota State University, Brookings, SD 57007. Bioprocess engineer, North Central Agricultural Research Laboratory, USDA – ARS Brookings, SD 57006. Corresponding author. Phone: (605) 693-3241. Fax: (605) 693-5240. E-mail address: krosentr@ngirl.ars.usda.gov Professor, South Dakota State University, Brookings, SD 57007.


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Accepted May 8, 2007.
ABSTRACT

Extrusion trials were conducted with varying levels of distillers dried grains with solubles (DDGS) along with soy flour, corn flour, fish meal, vitamin mix, mineral mix, and net protein content adjusted to 28% using a Wenger TX-52 twin-screw extruder. The properties of extrudates were studied in experiments conducted using a full-factorial design with three levels of DDGS content, two levels of moisture content, and two levels of screw speed. Increasing the DDGS content from 20 to 60% resulted in a 36.7% decrease in the radial expansion, leading to a 159 and 61.4% increase in the unit density and bulk density of the extrudates, respectively. Increasing the DDGS content resulted in a significant increase in the water absorption index (WAI) but a significant decrease in the water solubility index (WSI) of the extrudates. Changing the screw speed and moisture content had no significant effect on the radial expansion ratio but resulted in a significant difference in the bulk density of the extrudates, which may be due to the occurrence of longitudinal expansion. Even though changing the moisture content and screw speed had no significant effect on the WSI of the extrudates, significant differences in the WAI of the extrudates were observed. The ingredient components in the blend and moisture content had an influence on the color changes of the extrudates, as did the biochemical changes occurring inside the barrel during processing. Overall, it was determined that DDGS could be included at a rate of up to 60% using twin-screw extrusion, and that viable pelleted floating feeds can be produced.



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