Results 181 to 190 of about 14,028 (227)
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Food Packaging and Shelf Life, 2019
Abstract The objectives of this work were to produce films based on cassava starch reinforced with soybean hulls (SH) or microcrystalline cellulose (MCC) obtained from SH by reactive extrusion. The SH and MCC were used at different concentrations (0, 2.5, and 5.0% w/w), and glycerol (25–30 % w/w) was used as a plasticizer to obtain films by extrusion.
Aline Merci +3 more
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Abstract The objectives of this work were to produce films based on cassava starch reinforced with soybean hulls (SH) or microcrystalline cellulose (MCC) obtained from SH by reactive extrusion. The SH and MCC were used at different concentrations (0, 2.5, and 5.0% w/w), and glycerol (25–30 % w/w) was used as a plasticizer to obtain films by extrusion.
Aline Merci +3 more
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Thermal Properties of Hydrated Soybean Hulls
Crop Science, 1991To successfully incorporate soybean [Glycine max (L.) Merr.] hulls (seed coats) into human foodstuff, thermal characterization of the hulls is needed. Our objective was to determine the density, heat capacity, thermal conductivity, and thermal diffusivity of finely (0.84 mm) and coarsely (2.36 mm) ground unprocessed and processed (lignin‐reduced ...
M. Muzilla +3 more
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Isolation and characterization of soybean hull hemicellulose B
Archives of Biochemistry and Biophysics, 1962Abstract By aqueous alkaline extraction of commercial soybean hull holocellulose, there is obtained a crude hemicellulose B fraction in 6% yield. The major polysaccharidc from this fraction is isolated by alcohol fractionation and is electrophoretically homogeneous; [α]D25 +57.3 ° with a number-average molecular weight of 40,800.
J L, SANNELLA, R L, WHISTLER
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Journal of Animal Science, 1987
An in situ trial (randomized complete block design) using cows, and a site and extent of digestion trial (Latin square design) using sheep were conducted to study the potential of corn fiber (CF), cottonseed hulls (CSH), oat hulls (OH) and soybean hulls (SH) as roughage sources for ruminants.
Hsu, J. T. +5 more
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An in situ trial (randomized complete block design) using cows, and a site and extent of digestion trial (Latin square design) using sheep were conducted to study the potential of corn fiber (CF), cottonseed hulls (CSH), oat hulls (OH) and soybean hulls (SH) as roughage sources for ruminants.
Hsu, J. T. +5 more
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An anion exchange resin from soybean hulls
Journal of Chemical Technology & Biotechnology, 2004AbstractAgricultural by‐products are generally poor adsorbents of anions in solution. Therefore, modification of the by‐product could enhance its anion exchange capabilities. The objective of this study was to increase the anion exchange properties of the agricultural by‐product, soybean hulls, by chemical modification.
Wayne E Marshall, Lynda H Wartelle
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Enzymatic Saccharification of Soybean Hull‐Based Materials
Biotechnology Progress, 1995AbstractThe feasibility of biodegradability of materials made from soy hulls is investigated in this study. A mixture of enzymes responsible for degradation of cellulose, hemicellulose, and starch, principal constituents of agrowastes, is employed for degradation of soy hulls and soy hull‐based materials.
Nader Enayati, Satish J. Parulekar
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Thermogravimetric characterization and pyrolysis of soybean hulls
Bioresource Technology Reports, 2019Abstract This study focuses on the evaluation of soybean hulls as an alternative to obtain biofuels and bioproducts through pyrolysis. The study was carried out in three stages: 1) The physicochemical characteristics of the raw material were determined, 2) Yields of different pyrolysis products were obtained at 350, 400 and 600 °C; 3) The different ...
Jose Luis Toro-Trochez +6 more
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Air Classification of Pin‐Milled Soybean Hulls
Cereal Chemistry, 2002ABSTRACTCommercial soybean hulls (14.6% crude protein) were pin milled and then air classified into five fractions to determine whether the hull structure can be disrupted and the protein constituents concentrated. The number of pin millings had only a small effect on the weight distribution of the five fractions.
Walter J. Wolf +3 more
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Biosorption of Mercury from Dilute Aqueous Solutions Using Soybean Hulls and Rice Hulls
Waste and Biomass Valorization, 2015This research investigated the mercury biosorption potential of soybean hulls and rice hulls from dilute aqueous solutions. Both hull types were mixed with mercury solutions. Samples were tested unaltered, and after being treated with 10 % HCL. Additional parameters tested include sample dose, contact time, particle size, mixing temperature, and the ...
A. M. Rizzuti, F. L. Ellis, L. W. Cosme
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Utilizing Soybean Hulls and Rice Hulls to Remove Textile Dyes from Contaminated Water
Waste and Biomass Valorization, 2012In this study we investigated the capacities of soybean hulls and rice hulls to remove various textile dyes [Safranin T (ST), Remazol Brilliant Blue R (BB), and Direct Violet 51 (DV)] from aqueous solutions. Both hull types were mixed with the dyes and analyzed for dye removal using ultraviolet–visible spectroscopy.
A. M. Rizzuti, D. J. Lancaster
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