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Pretreatment Of Peanut Shells For Co-production Of Glucose And Concrete AdmixtureTatli, Emre 01 February 2013 (has links) (PDF)
This thesis work aims the ionic liquid pretreatment of peanut shells for co-production of
glucose as fermentable sugar and lignin, considering a multi product perspective. The
effects of ionic liquid type and pretreatment time period on the sugar and lignin yields
were investigated, as the particle size and temperature parameters were determined in the
preliminary studies. Peanut shells were pretreated at constant temperature, 150 oC, for 5,
15 and 30 minutes with 1-ethyl-3-methylimidazolium acetate and for 15, 30 and 60
minutes with 1-ethyl-3-methylimidazolium chloride. The pretreated peanut shells were
then subjected to enzymatic hydrolysis in order to produce fermentable sugars, mostly,
glucose. The solid residue obtained upon enzymatic hydrolysis was analyzed in terms of
lignin quantity. 1-ethyl-3-methylimidazolium acetate pretreatment for 15 minutes resulted
in the maximum reducing sugar and lignin yields / 28 g of reducing sugar and 20 g of solid
residue with 70% lignin were obtained per 100 g of peanut shells. Higher pretreatment
time resulted in lower yields. Moreover, no optimal time period for 1-ethyl-3-
methylimidazolium chloride pretreatment was obtained, since reducing sugar and lignin
yields increased as the time period increased. Also all reducing sugar and lignin yields
were lower than that obtained with 1-ethyl-3-methylimidazolium acetate. Lignin obtained
upon enzymatic hydrolysis of 1-ethyl-3-methylimidazolium acetate pretreated peanut
shells were characterized by SEM, FTIR, TGA and XRD analyses, which also showed the
morphological and structural effects of pretreatment and enzymatic hydrolysis on peanut
shells / and used as concrete admixture, which increased the flow of the concrete by 6%.
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High-Density Polyethylene/Peanut Shell BiocompositesLondoño Ceballos, Mauricio 05 1900 (has links)
A recent trend in the development of renewable and biodegradable materials has led to the development of composites from renewal sources such as natural fibers. This agricultural activity generates a large amount of waste in the form of peanut shells. The motivation for this research is based on the utilization of peanut shells as a viable source for the manufacture of biocomposites. High-density polyethylene (HDPE) is a plastic largely used in the industry due to its durability, high strength to density ratio, and thermal stability. This research focuses in the mechanical and thermal properties of HDPE/peanut shell composites of different qualities and compositions. The samples obtained were subjected to dynamic mechanical analysis (DMA), differential scanning calorimetry (DSC), and mechanical tensile strength tests. TO prepare the samples for analysis, the peanut shells were separated into different mesh sizes and then mixed with HDPE at different concentrations. The results showed that samples with fiber size number 10 exhibited superior strength modulus of 1.65 GPa versus results for HDPE alone at 1.32 GPa. The analysis from the previous experiments helped to determine that the fiber size number 10 at 5%wt. ratio in HDPE provides the most optimal mechanical and thermal results. From tensile tests the highest modulus of elasticity of 1.33 GPa was achieved from the samples of peanut shells size number 10 in HDPE at 20%wt. ratio, while the results for HDPE alone were only of 0.8 GPa. The results proved the hypothesis that the addition of peanut shells to HDPE enhances both the thermal and mechanical properties of the composite.
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Caracterização química e estabilidade oxidativa de produto reestruturado de frango sob ação de embalagem ativa adicionada de extratos de resíduos agroindustriais / Chemical and oxidative stability of restructured chicken product stored under active packaging with addition of agro-industrial residues extractsLeon, Juan Sebastian Serrano 13 July 2015 (has links)
A qualidade, aceitabilidade e a vida útil da carne de frango e principalmente seus produtos industrializados, dependem de vários fatores, sendo a oxidação lipídica um dos principais problemas de estabilidade do produto. O crescimento da tendência de consumo de compostos naturais por parte da população mundial e a demanda das indústrias de alimentos para controle da oxidação lipídica, surge como alternativa muito promissora a utilização de antioxidantes naturais. O Brasil, com uma grande produção de produtos vegetais e a economia fortemente baseada na agroindústria gera grandes quantidades de resíduos vegetais, sendo os resíduos de película de amendoim e pimenta-rosa potenciais fontes de antioxidantes. Estes resultados confirmados conforme ensaios preliminares in vitro, uma vez que são ricos em compostos bioativos, como compostos fenólicos. Além disto, a quitosana apresenta-se como uma boa matriz para incorporação de extratos contendo compostos bioativos, além de ter capacidade de formar filmes. Assim, o objetivo do estudo foi desenvolver filmes de quitosana com incorporação de antioxidantes naturais a partir dos extratos de resíduos de película de amendoim e pimenta rosa, e avaliar seu efeito sobre a oxidação lipídica em produto reestruturado de frango. O estudo foi dividido em três etapas: a primeira foi utilização da metodologia de superfície de resposta para determinação de uma concentração ótima de extrato de resíduo agroindustrial que incorporado ao filme de quitosana promova inibição da oxidação lipídica (valor de sustâncias reativas ao ácido tiobarbitúrico, TBARS). Na segunda etapa, foi avaliada a incorporação da concentração ótima dos extratos diretamente na carne e nos filmes ativos de quitosana, sobre as características físico-químicas (pH, cor instrumental, índice de peróxidos, e valor de TBARS) e microbiológicas dos tratamentos. Na terceira etapa foram avaliadas as características sensoriais e de aceitabilidade dos tratamentos que apresentaram menor oxidação lipídica. Os resultados revelaram que, na primeira etapa foram otimizadas as concentrações dos extratos de resíduos nos filmes ativos de quitosana. Os teores otimizados foram 80 mg de compostos fenólicos totais (CFT) / kg de carne para os resíduos de película de amendoim e de 90 mg CFT / kg de carne para pimenta rosa. Na segunda etapa, ao final do tempo de armazenamento, pode-se observar que não houve diferença significativa (p > 0,05) para os parâmetros de cor, pH e contagem de mesófilos totais. Para oxidação lipídica, todos os tratamentos apresentaram diferença significativa (p < 0,05), quando comparados com o controle. Para contagem de micro-organismos psicrotróficos totais houve diferença significativa para os tratamentos com filme ativo + extratos, quando comparados com os demais tratamentos. Na terceira etapa, os resultados mostraram que não houve diferença significativa na aceitabilidade entre os tratamentos. Adicionalmente também foi realizada uma caracterização sensorial com consumidores usando a metodologia Check-all-that-apply (CATA). Assim pode-se concluir que foram desenvolvidos filmes ativos de quitosana com adição de extratos de resíduos agroindustriais, com exelente potencial na atividade antioxidante e antimicrobiana em produtos carneos, sem influenciar na aceitabilidade sensorial. / Quality, accessibility, shelf life of chicken meat and mainly of its processed products depends on several factors, wherein lipid oxidation is a major stability product problem. The growth of the consumption trend of natural compounds by the world\'s population, and the demand from the food industry to control lipid oxidation appear as a very promising alternative to the use of natural antioxidants. Brazil, with a large production plant products and a strong economy based on agro-industry generates large amounts of crop residues where peanut shells and pink pepper residues are potential sources of antioxidants. According to preliminary in-vitro tests of these residues, these are rich in bioactive substances such as phenolic compounds. Moreover, chitosan presents itself as a good matrix for incorporation of extracts containing bioactive compounds, in addition to having the ability to form films. The aim of this study was to develop chitosan films incorporating natural antioxidants from peanut shells and pink pepper residues extracts, as well as to evaluate their effect on the lipid oxidation of a chicken restructured product. The study was divided into three stages: first was the use of response surface methodology to determine an optimal concentration of agro-industrial waste extract, which was incorporated into the chitosan film to promote inhibition of lipid oxidation (as an amount of reactive substances to thiobarbituric acid, TBARS). The second stage evaluated the incorporation of this optimal concentration of extracts applied directly in both the meat and the chitosan active films, in relation to the physicalchemical (pH parameters, instrumental color, peroxide value, and TBARS value) and microbiological characteristics of the treatments. The third stage evaluated the sensory characteristics and acceptability of treatments that had a lower lipid oxidation. The results revealed that the first stage optimized the concentrations of extracts from residues into the active chitosan films. The optimized concentration was 80 mg of total phenolic content (TPC) / kg of meat for peanut shells residue extract, and 90 TPC mg / kg of meat for the pink pepper extract. On the second stage, at the end of the storage time, it can be seen that there was no significant difference (p > 0.05) in parameters like color, pH and total mesophylls counts. For the lipid oxidation parameters, all treatments showed significant differences (p < 0.05) when compared with the control treatment. The microbial count of total psychrotrophic microorganisms showed significant differences for treatments with active films + residues extracts when compared with the other treatments. In the third stage, the results showed no significant difference in acceptability between treatments. Additionally, a sensory characterization with consumers using the Check-all-thatapply (CATA) methodology was also performed. Thus, it was concluded that the development of active chitosan films incorporated with extracts of agro-industrial waste was possible, which possess an antioxidant and antimicrobial potential activity without altering the sensory acceptability of the final product.
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Caracterização química e estabilidade oxidativa de produto reestruturado de frango sob ação de embalagem ativa adicionada de extratos de resíduos agroindustriais / Chemical and oxidative stability of restructured chicken product stored under active packaging with addition of agro-industrial residues extractsJuan Sebastian Serrano Leon 13 July 2015 (has links)
A qualidade, aceitabilidade e a vida útil da carne de frango e principalmente seus produtos industrializados, dependem de vários fatores, sendo a oxidação lipídica um dos principais problemas de estabilidade do produto. O crescimento da tendência de consumo de compostos naturais por parte da população mundial e a demanda das indústrias de alimentos para controle da oxidação lipídica, surge como alternativa muito promissora a utilização de antioxidantes naturais. O Brasil, com uma grande produção de produtos vegetais e a economia fortemente baseada na agroindústria gera grandes quantidades de resíduos vegetais, sendo os resíduos de película de amendoim e pimenta-rosa potenciais fontes de antioxidantes. Estes resultados confirmados conforme ensaios preliminares in vitro, uma vez que são ricos em compostos bioativos, como compostos fenólicos. Além disto, a quitosana apresenta-se como uma boa matriz para incorporação de extratos contendo compostos bioativos, além de ter capacidade de formar filmes. Assim, o objetivo do estudo foi desenvolver filmes de quitosana com incorporação de antioxidantes naturais a partir dos extratos de resíduos de película de amendoim e pimenta rosa, e avaliar seu efeito sobre a oxidação lipídica em produto reestruturado de frango. O estudo foi dividido em três etapas: a primeira foi utilização da metodologia de superfície de resposta para determinação de uma concentração ótima de extrato de resíduo agroindustrial que incorporado ao filme de quitosana promova inibição da oxidação lipídica (valor de sustâncias reativas ao ácido tiobarbitúrico, TBARS). Na segunda etapa, foi avaliada a incorporação da concentração ótima dos extratos diretamente na carne e nos filmes ativos de quitosana, sobre as características físico-químicas (pH, cor instrumental, índice de peróxidos, e valor de TBARS) e microbiológicas dos tratamentos. Na terceira etapa foram avaliadas as características sensoriais e de aceitabilidade dos tratamentos que apresentaram menor oxidação lipídica. Os resultados revelaram que, na primeira etapa foram otimizadas as concentrações dos extratos de resíduos nos filmes ativos de quitosana. Os teores otimizados foram 80 mg de compostos fenólicos totais (CFT) / kg de carne para os resíduos de película de amendoim e de 90 mg CFT / kg de carne para pimenta rosa. Na segunda etapa, ao final do tempo de armazenamento, pode-se observar que não houve diferença significativa (p > 0,05) para os parâmetros de cor, pH e contagem de mesófilos totais. Para oxidação lipídica, todos os tratamentos apresentaram diferença significativa (p < 0,05), quando comparados com o controle. Para contagem de micro-organismos psicrotróficos totais houve diferença significativa para os tratamentos com filme ativo + extratos, quando comparados com os demais tratamentos. Na terceira etapa, os resultados mostraram que não houve diferença significativa na aceitabilidade entre os tratamentos. Adicionalmente também foi realizada uma caracterização sensorial com consumidores usando a metodologia Check-all-that-apply (CATA). Assim pode-se concluir que foram desenvolvidos filmes ativos de quitosana com adição de extratos de resíduos agroindustriais, com exelente potencial na atividade antioxidante e antimicrobiana em produtos carneos, sem influenciar na aceitabilidade sensorial. / Quality, accessibility, shelf life of chicken meat and mainly of its processed products depends on several factors, wherein lipid oxidation is a major stability product problem. The growth of the consumption trend of natural compounds by the world\'s population, and the demand from the food industry to control lipid oxidation appear as a very promising alternative to the use of natural antioxidants. Brazil, with a large production plant products and a strong economy based on agro-industry generates large amounts of crop residues where peanut shells and pink pepper residues are potential sources of antioxidants. According to preliminary in-vitro tests of these residues, these are rich in bioactive substances such as phenolic compounds. Moreover, chitosan presents itself as a good matrix for incorporation of extracts containing bioactive compounds, in addition to having the ability to form films. The aim of this study was to develop chitosan films incorporating natural antioxidants from peanut shells and pink pepper residues extracts, as well as to evaluate their effect on the lipid oxidation of a chicken restructured product. The study was divided into three stages: first was the use of response surface methodology to determine an optimal concentration of agro-industrial waste extract, which was incorporated into the chitosan film to promote inhibition of lipid oxidation (as an amount of reactive substances to thiobarbituric acid, TBARS). The second stage evaluated the incorporation of this optimal concentration of extracts applied directly in both the meat and the chitosan active films, in relation to the physicalchemical (pH parameters, instrumental color, peroxide value, and TBARS value) and microbiological characteristics of the treatments. The third stage evaluated the sensory characteristics and acceptability of treatments that had a lower lipid oxidation. The results revealed that the first stage optimized the concentrations of extracts from residues into the active chitosan films. The optimized concentration was 80 mg of total phenolic content (TPC) / kg of meat for peanut shells residue extract, and 90 TPC mg / kg of meat for the pink pepper extract. On the second stage, at the end of the storage time, it can be seen that there was no significant difference (p > 0.05) in parameters like color, pH and total mesophylls counts. For the lipid oxidation parameters, all treatments showed significant differences (p < 0.05) when compared with the control treatment. The microbial count of total psychrotrophic microorganisms showed significant differences for treatments with active films + residues extracts when compared with the other treatments. In the third stage, the results showed no significant difference in acceptability between treatments. Additionally, a sensory characterization with consumers using the Check-all-thatapply (CATA) methodology was also performed. Thus, it was concluded that the development of active chitosan films incorporated with extracts of agro-industrial waste was possible, which possess an antioxidant and antimicrobial potential activity without altering the sensory acceptability of the final product.
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