Abstract
ABSTRACT The commercial sector of starch extraction has fully automated plants with a minimum scale of 200 ton.day–1, which extracts starch from maize and cassava in Brazil. Although these starches are commodities, the market demands starches with special properties obtained without chemical modifications. A higher-priced starch can compensate for small-scale extraction, as in the case of arrowroot starch, which would correspond to an alternative income for the producer. As a small-scale equipment was not available in Brazil, it was necessary to adapt a hammer mill for arrowroot starch extraction, which should have a performance similar to that obtained from cassava roots using industrial grinders. The degree of disintegration and energy consumption were adopted as the efficiency indexes. The hammer mill was equipped with two perforated plates. The results showed that use of an adapted hammer mill provides an average diameter of 74.64 ± 0.09 μm for perforated plate 1 (TP1) and 76.62 ± 0.06 μm for TP2; these results were equivalent to those obtained with cassava in the respective perforations which, in turn, was comparable to the degree of grinding obtained with large industrial equipment. The specific energy consumption needs for arrowroot disintegration varied from 31.47 to 48.91 kJ.kg–1, which was considered close to that calculated for large-scale industrial cassava roots grinders, reported at 37.03 kJ.kg–1.
Highlights
Arrowroot (Maranta arundinacea) stands out among the potential raw materials for starch extraction; arrowroot has a Latin American origin and is native to some places between Panama and Ecuador (Granados et al, 2014)
To feed raw material to the hammer mill, the mass flow rate obtained in the tests ranged from 1.84 kg.min-1 (0.030 kg.s-1) to 2.86 kg.min-1 (0.047 kg.s-1), depending on the size of the rhizomes and roots, which represents a processing capacity of 8 hours per day, varying from 880 to 1400 kg of rhizomes or roots processed
The choice of the hammer mill proved to be adequate for the small scale due to the easy adaptation of small commercial mills by replacing only the rotor, reducing the maintenance of saw teeth compared to graters, and due to its equivalent performance compared to industrial equipment
Summary
Arrowroot (Maranta arundinacea) stands out among the potential raw materials for starch extraction; arrowroot has a Latin American origin and is native to some places between Panama and Ecuador (Granados et al, 2014). From South America, cassava is used in several Brazilian starch extraction industries, and both raw materials have 64 to 66% moisture and about 31% (w.b.) of starch (Da et al, 2013). Cassava roots have reached an average price of US$ 0.95.ton-1 in 2017, in Mato Grosso do Sul, a Brazilian state placed on the center-west region, that has starch industries with a total capacity of 185 thousand tons of starch per year (Groxko, 2016). These industries could have complement or replace cassava with arrowroot as the raw material
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