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Recovery of Surface Active Material from Municipal Wastewater Activated SludgeGarcia Becerra, Flor Yunuen 17 February 2011 (has links)
Wastewater activated sludge is produced during the biological treatment of wastewater. After treating the sewage, the sludge is allowed to settle. Part of the settled material is returned to the treatment process as return activated sludge (RAS) and the excess is removed as waste activated sludge (WAS). The handling and disposal of the sludge are energy and capital-intensive treatments, with a significant environmental impact. This work studies the possibility to utilize RAS (an example of wastewater sludge) as a source of surface active agents. The results indicate that higly surface active materials can be extracted from RAS, and that the RAS extract has potential applications as a detergent and wood adhesive. The results also suggest that recovering a suite of products from RAS, a biological heterogenous source, can be technically feasible.
An effective alkaline treatment was developed (at pH>12) that can extract up to 75% of the sludge’s organic matter, a yield higher than previously reported. Increasing the extraction pH increased the extract surface activity, which is linked to increasing the amount of higher molecular weight molecules and the presence of phospholipids. Increasing the extraction pH beyond 11 was also related to extensive cell lysis, increasing significantly the amount of recovered material and the surface activity of the extract.
The alkaline extract has properties comparable to commercial detergents. Without further purification, the extract has a low surface tension (37 mN/m on average) and performs similarly to synthetic detergents. Further assessment of the RAS extract (insensitivity to pH, surface tension, interfacial tension) suggests that it may be suitable for commercial applications.
The RAS extract can also be formulated into wood adhesives using glutaraldehyde as a crosslinker. The extract fraction with 10-50 kDa constituents at pH 9 achieves high adhesive shear strengths (4.5 MPa on average, at 30% relative humidity and 25°C) with 40% of wood failure. The adhesive strength of RAS-based adhesives is strongly correlated to its protein content.
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Characterisation of Solubility and Aggregation of Alkaline Extracted Plant Cell Wall BiopolymersHagbjer, Elizabeth January 2012 (has links)
Up to 30% by mass of plant cell walls are comprised of hemicelluloses. The remainder is comprised of cellulose, lignin and extractives. Potential economic uses of hemicellulose include hydrogels, fibre additives in pulp mill paper-making and as a substrate for fermentation processes. Development of a fermentation process with sugars from hemicellulose has become of increasing interest due to their potential as a feedstock for fermentation-based liquid fuels and other bio-based chemicals. These can be incorporated into existing processes, in particular alkaline chemical pulping mills, where up to 50% of the hemicelluloses are today degraded and eventually combusted. The main objective of this project is to examine the solubility and aggregation properties of xylans (the predominant hemicellulose), as this will hopefully lead to better solubility-based separations for their recovery. This was done at Michigan State University by alkaline extraction at 85°C on milled birch wood, and at 130 and 170°C (both time-dependent) on birch chips, with 50 g/L sodium hydroxide. This was then followed by precipitation/aggregation experiments with ethanol, polyDADMAC (a polycationic flocculant) and by acidification. Characterisation was done by performing dynamic light scattering (DLS) and size exclusion chromatography (SEC) analysis on resolubilised recovered material from the different extraction conditions. From these, size distributions, molecular weights and degrees of polymerization (DP) could be estimated. The DP values for the extracted polymers were higher than the expected values for hardwood xylans, owing to the incoherent SEC chromatograms. This may be due to aggregate formation with other polymers or re-solubilisation issues of the hemicellulose precipitates. The estimated size range for model xylan was between 100 to 300 nm and the ethanol precipitates seemed to also lie around this region, as detected by DLS. One of the major factors contributing to the difficulty of analysing the results was the issue of re-solubilisation of the hemicellulose precipitates and flocculates. / <p>Validerat; 20120827 (anonymous); 2017-02-08 Nedladdad 414 gånger t.o.m. september 2016. Downloaded 414 times up until september 2016 (marisr)</p>
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Isolamento de xilanas do bagaço de cana-de-açúcar integrado à hidrólise enzimática da celulose residual / Isolation of xylan from sugarcane bagasse integrated with enzymatic hydrolysis of residual celluloseSilva, Daniele Sporck Gonçalves da 01 August 2016 (has links)
A intensa busca por fontes renováveis de energia traz como alternativa a utilização da biomassa lignocelulósica para produção de biocombustíveis e biopolímeros a partir de seus componentes, celulose, hemicelulose e lignina. Nesse estudo, a partir do bagaço de cana-de-açúcar obteve-se uma polpa enriquecida em glucana e xilana utilizando-se o pré-tratamento quimio-termomecânico em solução sulfito alcalino (10% Na2SO3 e 5% NaOH). O pré-tratamento removeu 43% de lignina e 8% de xilana do bagaço e após uma etapa de lavagem do material, ocorreu maior dissolução da lignina (53%), xilana (17,4%) e também uma pequena solubilização de glucana (5%). O objetivo foi isolar e caracterizar as xilanas do bagaço pré-tratado e aquelas solubilizadas no licor e também avaliar a degradabilidade enzimática da celulose residual. A extração de xilanas foi realizada em condição alcalina, assistida ou não por xilanases, a partir do bagaço pré-tratado lavado (BLA) e não lavado (BNL). A extração enzimática das xilanas foi feita com 8 UI de xilanase comercial (Luminase) por grama de material, em tampão fosfato 50 mM, 50º C, pH 8 por 24 horas. Os métodos químicos para a extração das xilanas empregaram 40% NaOH (m/m), com variações nas condições de incubação entre os métodos de Lopez (L) (60º C, 2h) e Hoije (H) (25º C, 16h). Os rendimentos de sólidos e de xilana obtidos por Hoije foram próximos a 60%, diferente do observado para as xilanas extraídas pelo método de Lopez e enzimático. No método de Hoije utilizou-se o bagaço pré-tratado com sulfito alcalino, parcialmente deslignificado com clorito de sódio em meio ácido, e obteve-se xilanas mais puras. O menor rendimento de xilanas foi obtido através do método enzimático (22 a 30%). Todas as xilanas apresentaram composição majoritária de xilose (60-80%), seguido de grupos arabinosil (7-12%), ácidos urônicos (4-13%), ácidos hidroxicinâmicos (0,3-1,2%) e lignina (3-10%). A relação xilose/arabinose das xilanas variou de 7 a 10, enquanto que a relação xilose/ácidos urônicos apresentou uma faixa mais ampla (9-28). Este grau de substituição refletiu na maior solubilidade das xilanas. As xilanas isoladas com xilanases apresentaram duas frações com massas molares ponderais médias (Mw) de 3.700 g/mol e 800 g/mol, inferiores às das xilanas isoladas pelo método de Hoije (24.300 g/mol) e de Lopez (24.450 g/mol). As xilanas recuperadas do licor sulfito apresentaram um rendimento de 34% e massa molar ponderal média de 28.660 g/mol. As xilanas isoladas pelos métodos químicos foram caracterizadas por FT-IR e mostraram absorções em números de ondas característicos, com perfil semelhante. A conversão enzimática de glucana dos resíduos, após extração de xilanas com o método de Hoije, foi maior que dos bagaços pré-tratados. Quando a extração de xilanas foi realizada através dos métodos de Lopez ou enzimático essa melhoria não foi observada. / The intensive search for renewable energy sources is often ssociated with the use of lignocellulosic biomass for biofuel production as well for the extraction of biopolymers from their components: cellulose, hemicellulose and lignin. In the present study, a pulp enriched in glucan and xylan was obtained from sugarcane bagasse using chemi-thermomechanical alkaline sulfite solution (10% Na2SO3 and 5% NaOH) pretreatment. The pretreatment removed 43% of lignin and 8% of xylan from the pulp, and a greater dissolution of lignin (53%) and xylan (17.4%) and also an additional dissolution of glucan (5%) was reached after a washing step of the material. The aim was to isolate and characterize xylans from the pretreated bagasse as well as those solubilized in the liquor, and also to evaluate the enzymatic degradability of the residual pulp. The xylan extraction was performed in alkaline conditions, being assisted or not by xylanases from the washed pretreated bagasse (WB) and unwashed pretreated bagasse (UWB). Enzymatic extraction of xylan was performed with 8 IU commercial xylanase (Luminase) per gram of material in 50 mM phosphate buffer, 50° C, pH 8, for 24 hours. The chemical methods for xylan extraction employed 40% NaOH (w/w), with varying in the incubation conditions using the Lopez (L) (60 ° C, 2h) and Hoije (H) (25 ° C, 16h) methods. The solids and xylan yields obtained through the Hoije method were near 60%, which were different from those observed for the xylan extracted by Lopez and enzymatic methods. In the Hoije method (H), sugarcane bagasse was pretreated with alkali sulfite and was partially delignificated with sodium chlorite in an acid medium, resulting in even more pure xylans. The lowest xylan yield was obtained by the enzymatic method (22 to 30%). All xylans presented xylose as major component (60-80%), followed by arabinosyl groups (7-12%), uronic acids (4-13%), hydroxycinnamic acids (0.3-1.2%), and lignin (3-10%). The xylose/arabinose ratio of xylan ranged from 7 to 10, while the xylose/uronic acids ratio showed a greater range (9-28). This degree of substitution reflected in an increasing in the xylan solubility. Xylans isolated by xylanases exhibited two fractions with an weight average molecular weight (Mw) of 3.700 g/mol and 800 g/mol, which were lower than those xylans isolated through the Hoije (24.300 g/mol) and Lopez (24.450 g/mol) methods. The xylan recovered from sulfite liquor had a yield of 34% and an weight average molar weight of 28.660 g/mol. The xylans isolated by chemical methods were characterized by FT-IR, and showed absorptions at characteristic wavenumbers with similar profile. After the extraction of xylans with Hoije method, the enzymatic conversion of glucan residues was higher than the one for the pretreated bagasse. When the xylan extraction was performed wiht the Lopez or enzymatic methods, such improvement was not observed.
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Isolamento de xilanas do bagaço de cana-de-açúcar integrado à hidrólise enzimática da celulose residual / Isolation of xylan from sugarcane bagasse integrated with enzymatic hydrolysis of residual celluloseDaniele Sporck Gonçalves da Silva 01 August 2016 (has links)
A intensa busca por fontes renováveis de energia traz como alternativa a utilização da biomassa lignocelulósica para produção de biocombustíveis e biopolímeros a partir de seus componentes, celulose, hemicelulose e lignina. Nesse estudo, a partir do bagaço de cana-de-açúcar obteve-se uma polpa enriquecida em glucana e xilana utilizando-se o pré-tratamento quimio-termomecânico em solução sulfito alcalino (10% Na2SO3 e 5% NaOH). O pré-tratamento removeu 43% de lignina e 8% de xilana do bagaço e após uma etapa de lavagem do material, ocorreu maior dissolução da lignina (53%), xilana (17,4%) e também uma pequena solubilização de glucana (5%). O objetivo foi isolar e caracterizar as xilanas do bagaço pré-tratado e aquelas solubilizadas no licor e também avaliar a degradabilidade enzimática da celulose residual. A extração de xilanas foi realizada em condição alcalina, assistida ou não por xilanases, a partir do bagaço pré-tratado lavado (BLA) e não lavado (BNL). A extração enzimática das xilanas foi feita com 8 UI de xilanase comercial (Luminase) por grama de material, em tampão fosfato 50 mM, 50º C, pH 8 por 24 horas. Os métodos químicos para a extração das xilanas empregaram 40% NaOH (m/m), com variações nas condições de incubação entre os métodos de Lopez (L) (60º C, 2h) e Hoije (H) (25º C, 16h). Os rendimentos de sólidos e de xilana obtidos por Hoije foram próximos a 60%, diferente do observado para as xilanas extraídas pelo método de Lopez e enzimático. No método de Hoije utilizou-se o bagaço pré-tratado com sulfito alcalino, parcialmente deslignificado com clorito de sódio em meio ácido, e obteve-se xilanas mais puras. O menor rendimento de xilanas foi obtido através do método enzimático (22 a 30%). Todas as xilanas apresentaram composição majoritária de xilose (60-80%), seguido de grupos arabinosil (7-12%), ácidos urônicos (4-13%), ácidos hidroxicinâmicos (0,3-1,2%) e lignina (3-10%). A relação xilose/arabinose das xilanas variou de 7 a 10, enquanto que a relação xilose/ácidos urônicos apresentou uma faixa mais ampla (9-28). Este grau de substituição refletiu na maior solubilidade das xilanas. As xilanas isoladas com xilanases apresentaram duas frações com massas molares ponderais médias (Mw) de 3.700 g/mol e 800 g/mol, inferiores às das xilanas isoladas pelo método de Hoije (24.300 g/mol) e de Lopez (24.450 g/mol). As xilanas recuperadas do licor sulfito apresentaram um rendimento de 34% e massa molar ponderal média de 28.660 g/mol. As xilanas isoladas pelos métodos químicos foram caracterizadas por FT-IR e mostraram absorções em números de ondas característicos, com perfil semelhante. A conversão enzimática de glucana dos resíduos, após extração de xilanas com o método de Hoije, foi maior que dos bagaços pré-tratados. Quando a extração de xilanas foi realizada através dos métodos de Lopez ou enzimático essa melhoria não foi observada. / The intensive search for renewable energy sources is often ssociated with the use of lignocellulosic biomass for biofuel production as well for the extraction of biopolymers from their components: cellulose, hemicellulose and lignin. In the present study, a pulp enriched in glucan and xylan was obtained from sugarcane bagasse using chemi-thermomechanical alkaline sulfite solution (10% Na2SO3 and 5% NaOH) pretreatment. The pretreatment removed 43% of lignin and 8% of xylan from the pulp, and a greater dissolution of lignin (53%) and xylan (17.4%) and also an additional dissolution of glucan (5%) was reached after a washing step of the material. The aim was to isolate and characterize xylans from the pretreated bagasse as well as those solubilized in the liquor, and also to evaluate the enzymatic degradability of the residual pulp. The xylan extraction was performed in alkaline conditions, being assisted or not by xylanases from the washed pretreated bagasse (WB) and unwashed pretreated bagasse (UWB). Enzymatic extraction of xylan was performed with 8 IU commercial xylanase (Luminase) per gram of material in 50 mM phosphate buffer, 50° C, pH 8, for 24 hours. The chemical methods for xylan extraction employed 40% NaOH (w/w), with varying in the incubation conditions using the Lopez (L) (60 ° C, 2h) and Hoije (H) (25 ° C, 16h) methods. The solids and xylan yields obtained through the Hoije method were near 60%, which were different from those observed for the xylan extracted by Lopez and enzymatic methods. In the Hoije method (H), sugarcane bagasse was pretreated with alkali sulfite and was partially delignificated with sodium chlorite in an acid medium, resulting in even more pure xylans. The lowest xylan yield was obtained by the enzymatic method (22 to 30%). All xylans presented xylose as major component (60-80%), followed by arabinosyl groups (7-12%), uronic acids (4-13%), hydroxycinnamic acids (0.3-1.2%), and lignin (3-10%). The xylose/arabinose ratio of xylan ranged from 7 to 10, while the xylose/uronic acids ratio showed a greater range (9-28). This degree of substitution reflected in an increasing in the xylan solubility. Xylans isolated by xylanases exhibited two fractions with an weight average molecular weight (Mw) of 3.700 g/mol and 800 g/mol, which were lower than those xylans isolated through the Hoije (24.300 g/mol) and Lopez (24.450 g/mol) methods. The xylan recovered from sulfite liquor had a yield of 34% and an weight average molar weight of 28.660 g/mol. The xylans isolated by chemical methods were characterized by FT-IR, and showed absorptions at characteristic wavenumbers with similar profile. After the extraction of xylans with Hoije method, the enzymatic conversion of glucan residues was higher than the one for the pretreated bagasse. When the xylan extraction was performed wiht the Lopez or enzymatic methods, such improvement was not observed.
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Recovery of Surface Active Material from Municipal Wastewater Activated SludgeGarcia Becerra, Flor Yunuen 17 February 2011 (has links)
Wastewater activated sludge is produced during the biological treatment of wastewater. After treating the sewage, the sludge is allowed to settle. Part of the settled material is returned to the treatment process as return activated sludge (RAS) and the excess is removed as waste activated sludge (WAS). The handling and disposal of the sludge are energy and capital-intensive treatments, with a significant environmental impact. This work studies the possibility to utilize RAS (an example of wastewater sludge) as a source of surface active agents. The results indicate that higly surface active materials can be extracted from RAS, and that the RAS extract has potential applications as a detergent and wood adhesive. The results also suggest that recovering a suite of products from RAS, a biological heterogenous source, can be technically feasible.
An effective alkaline treatment was developed (at pH>12) that can extract up to 75% of the sludge’s organic matter, a yield higher than previously reported. Increasing the extraction pH increased the extract surface activity, which is linked to increasing the amount of higher molecular weight molecules and the presence of phospholipids. Increasing the extraction pH beyond 11 was also related to extensive cell lysis, increasing significantly the amount of recovered material and the surface activity of the extract.
The alkaline extract has properties comparable to commercial detergents. Without further purification, the extract has a low surface tension (37 mN/m on average) and performs similarly to synthetic detergents. Further assessment of the RAS extract (insensitivity to pH, surface tension, interfacial tension) suggests that it may be suitable for commercial applications.
The RAS extract can also be formulated into wood adhesives using glutaraldehyde as a crosslinker. The extract fraction with 10-50 kDa constituents at pH 9 achieves high adhesive shear strengths (4.5 MPa on average, at 30% relative humidity and 25°C) with 40% of wood failure. The adhesive strength of RAS-based adhesives is strongly correlated to its protein content.
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Extrakce arabinoxylanů z pšeničných otrub / Extraction of arabinoxylans from wheat branKoblasová, Dana January 2021 (has links)
This diploma thesis is focused on the use of wheat bran as a raw material for extraction of arabinoxylans. Wheat bran is a waste product of mill processing of wheat into flour and is mainly used as a livestock feed. However, the amount of bran produced significantly exceeds its consumption as feed, which opens up space for research into their further use. Polysaccharides such as cellulose, hemicelluloses and lignin are mainly present in the bran. The most common type of hemicelluloses are arabinoxylans, which form the main structural component of wheat bran. Alkaline extraction disrupts hydrogen and covalent bonds and releases polysaccharides of various molar weights from the crosslinked cell wall structure. Hydrolysis is required to obtain arabinose and xylose. Trifluoroacetic acid was chosen for the hydrolysis. The acid breaks down glycosidic bonds of the poly- and oligosaccharides to give the corresponding monosaccharides. The experiments made during this thesis have shown that the yield of multi stage extraction is twice as high as the yield of single stage extraction. Hydrolysis of the solid fractions after alkaline extraction revealed that a relatively large amount of arabinoxylans and other carbohydrates still remain bound in the complex matrix of the bran cell wall. Thus, alkaline extraction alone may not be the best option for obtaining arabinoxylans on a larger scale, or process optimization must be considered. Extraction with the addition of hydrogen peroxide appears to be effective for large-scale extraction processes.
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Caracterização e avaliação de amido nativo e modificado de pinhão mediante provas funcionais e térmicasThys, Roberta Cruz Silveira January 2009 (has links)
O pinhão é a semente comestível da Araucaria angustifolia, sendo consumido no sul e sudeste do Brasil principalmente na sua forma in natura. A falta de diversidade em relação ao seu consumo acarreta a sobra da safra e a sua utilização como ração animal, o que diminui o valor de comercialização do produto, prejudicando os ganhos econômicos do produto. A semente do pinhão é composta de 34% de amido e um conteúdo muito baixo de proteínas e lipídios, o que a torna favorável para a obtenção de amido, aditivo amplamente utilizado pela indústria de alimentos. O objetivo deste trabalho foi caracterizar uma nova fonte de amido a partir de semente de Araucária angustifolia, através de um estudo detalhado da metodologia de extração do amido de pinhão, das características físico-químicas, funcionais e reológicas do grânulo e de sua modificação estrutural. Primeiramente foi determinado um protocolo para a extração do amido e realizado o estudo do efeito do tratamento alcalino (NaOH 0,05 mol.l-1 e NaOH 0,1 mol.l-1), em relação ao tratamento com água, na estrutura dos grânulos do amido extraídos. Para tanto foram feitas análises de fluorescência intrínseca, microscopia eletrônica de varredura e de força atômica e difractometria de raios X. A estrutura granular do amido de pinhão foi alterada significativamente quando as soluções alcalinas foram utilizadas durante a extração. O amido de pinhão apresentou estrutura do tipo C. Foram determinadas as características do grânulo de amido nativo, através de análises físico-químicas, MEV, microscopia ótica e sinerese, onde se verificou que o diâmetro médio dos grânulos de amido varia de 7 a 20 μm e as formas geométricas variam entre a oval, a elipsóide truncada e a hemisférica. O amido de pinhão mostrou-se menos propenso à retogradação, comparado ao amido de milho. Foram elaboradas as isotermas de adsorção do amido nativo às temperaturas de 10°, 20°, 30° e 40°C a partir do ajuste dos dados experimentais a diversos modelos de sorção, sendo os modelos de Peleg, seguidos pelos de Chung-Pfost e GAB os que tiveram os maiores coeficientes de correlação. A partir do modelo de GAB foram calculados os valores de umidade de monocamada, entalpia e entropia diferenciais de sorção. Foi realizado também um planejamento experimental a fim de estudar a reação de hidrólise do amido, através da influência das variáveis temperatura (30°a 44°C) e concentração de ácido clorídrico (1,2 a 3,2 mol.l-1) no valor de dextrose equivalente (DE) e na capacidade de formação do gel e de sua termorreversibilidade. Foi observado que sob os maiores valores de temperatura e concentração de ácido empregados, o valor de DE foi maior. No tratamento que resultou no maior valor de DE (3,2 mol.l-1 de HCl e 44°C) foi observada a formação de gel termorreversível, o que indicou a potencialidade do amido modificado como substituto de gordura e agente ligante, em alimentos. A funcionalidade do amido de pinhão foi verificada através das análises de formação, fusão e termorreversibilidade do gel, tendência à retrogradação, estabilidade ao congelamento e descongelamento, poder de inchamento, índice de solubilização, MEV, viscosidade de pasta e propriedades térmicas, como temperatura e entalpia de gelatinização. Os resultados indicaram que: somente os amidos modificados apresentam géis termorreversíveis; os amidos de pinhão nativo e modificados possuem menor tendência à retrogradação do que seus similares de milho; a modificação do amido reduziu a tendência à retrogradação das pastas de amido; o amido de pinhão mostrou menor sinerese sob armazenamento à 5°C e após ciclos de congelamento e descongelamento; a temperatura de armazenamento influi significativamente no poder de inchamento (PI) e no índice de solubilização dos amidos de pinhão e milho nativos; os amidos modificados apresentaram menor PI do que os nativos; a viscosidade máxima do amido de pinhão foi maior à encontrada para o amido de milho, sendo ele menos resistente à agitação mecânica à quente (maior breakdown); a hidrólise ácida reduziu drasticamente a viscosidade das pastas formadas; a temperatura de gelatinização do amido de pinhão é de 47,64°C e a entalpia de gelatinização de 15,23 J.g-1; a hidrólise ácida aumentou a temperatura de gelatinização das espécies testadas. / Pinhão is the edible seed of Araucaria angustifolia, being consumed in the south and southeastern Brazil mainly in the natural form. The lack of diversity in relation to its consumption results in plenty of crop and its use as animal feed, which reduces the value of product marketing and affect the economic gains of the product. The pinhão seed is composed of 34% starch and a very low content of proteins and lipids, making it favorable for obtaining starch that is widely used by the food industry. The objective of this study was to characterize a new source of starch from seeds of Araucaria angustifolia, through a detailed study of the method for starch extraction, the physical-chemical, functional and rheological properties of the granules and their structural modification. To do this, a protocol for the starch extraction and a study of the effect of alkaline treatment (NaOH 0.05 mol.l-1 NaOH and 0.1 mol.l-1) compared to water treatment, was first established. Therefore, intrinsic fluorescence analysis, scanning electron and atomic force microscopy and x-ray diffractometry were carried out. The granular structure of pinhão starch was changed significantly when the alkaline solutions were used during extraction. The pinhão starch had a type C structure. The characteristics of native starch granules, through physical and chemical analysis, SEM, optical microscopy and syneresis were determined which found that the average diameter of starch granules varies from 7 to 20 μm and geometric shapes range from oval, the ellipsoid truncated and hemispheric. The pinhão starch was less prone to retrogradation compared to maize starch. The adsorption isotherms of native starch at temperatures of 10 °, 20 °, 30 ° and 40 ° C were drafting from fitting the experimental data to various sorption models. The Peleg model, followed by Chung-Pfost and GAB model had the highest correlation coefficients. From the GAB model were calculated monolayer moisture, enthalpy and entropy differential sorption. It was also carried out an experimental design to study the reaction of starch hydrolysis, through the influence of temperature (30° to 44°C) and hydrochloric acid concentration (1.2 to 3.2 mol.l- 1) on the dextrose equivalent value (DE) and on the ability of the gel formation and its thermoreversibility. It was observed that under the highest values of temperature and concentration of acid, the value of DE was higher. In larger value of DE (3.2 mol l-1 HCl and 44°C) was observed the formation of thermoreversible gel, which indicated the potential of modified starch as a fat substitute and a binder in food. The functionality of the pinhão starch was verified by analyzing the gel formation and fusion, gel thermoreversibility, tendency to retrogradation, stability to freezing and thawing, swelling power, solubility index, SEM, pasting viscosity and thermal properties such as temperature and enthalpy of gelatinization. The results showed that: only the modified starches exhibit thermoreversible gels, the native and modified pinhão starch have less tendency to retrograde than their counterparts in maize, the modification of starch reduced the tendency to retrogradation of starch pastes, the pinhão starch showed lower syneresis under storage at 5°C and after freezing and thawing, storage temperature affects significantly the swelling power (SP) and the solubility index of pinhão and maize native starches, the modified starches had lower SP of the natives, the maximum viscosity of pinhão starch was higher than that found for maize starch, the pinhão starch is less resistant to hot mechanical stirring (greater breakdown) than for maize starch, the acid hydrolysis reduced the viscosity of the pulp formed, the gelatinization temperature of pinhão starch is 47.64°C and its gelatinization enthalpy is 15.23 Jg-1; acid hydrolysis increased the gelatinization temperature of the species tested.
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Caracterização e avaliação de amido nativo e modificado de pinhão mediante provas funcionais e térmicasThys, Roberta Cruz Silveira January 2009 (has links)
O pinhão é a semente comestível da Araucaria angustifolia, sendo consumido no sul e sudeste do Brasil principalmente na sua forma in natura. A falta de diversidade em relação ao seu consumo acarreta a sobra da safra e a sua utilização como ração animal, o que diminui o valor de comercialização do produto, prejudicando os ganhos econômicos do produto. A semente do pinhão é composta de 34% de amido e um conteúdo muito baixo de proteínas e lipídios, o que a torna favorável para a obtenção de amido, aditivo amplamente utilizado pela indústria de alimentos. O objetivo deste trabalho foi caracterizar uma nova fonte de amido a partir de semente de Araucária angustifolia, através de um estudo detalhado da metodologia de extração do amido de pinhão, das características físico-químicas, funcionais e reológicas do grânulo e de sua modificação estrutural. Primeiramente foi determinado um protocolo para a extração do amido e realizado o estudo do efeito do tratamento alcalino (NaOH 0,05 mol.l-1 e NaOH 0,1 mol.l-1), em relação ao tratamento com água, na estrutura dos grânulos do amido extraídos. Para tanto foram feitas análises de fluorescência intrínseca, microscopia eletrônica de varredura e de força atômica e difractometria de raios X. A estrutura granular do amido de pinhão foi alterada significativamente quando as soluções alcalinas foram utilizadas durante a extração. O amido de pinhão apresentou estrutura do tipo C. Foram determinadas as características do grânulo de amido nativo, através de análises físico-químicas, MEV, microscopia ótica e sinerese, onde se verificou que o diâmetro médio dos grânulos de amido varia de 7 a 20 μm e as formas geométricas variam entre a oval, a elipsóide truncada e a hemisférica. O amido de pinhão mostrou-se menos propenso à retogradação, comparado ao amido de milho. Foram elaboradas as isotermas de adsorção do amido nativo às temperaturas de 10°, 20°, 30° e 40°C a partir do ajuste dos dados experimentais a diversos modelos de sorção, sendo os modelos de Peleg, seguidos pelos de Chung-Pfost e GAB os que tiveram os maiores coeficientes de correlação. A partir do modelo de GAB foram calculados os valores de umidade de monocamada, entalpia e entropia diferenciais de sorção. Foi realizado também um planejamento experimental a fim de estudar a reação de hidrólise do amido, através da influência das variáveis temperatura (30°a 44°C) e concentração de ácido clorídrico (1,2 a 3,2 mol.l-1) no valor de dextrose equivalente (DE) e na capacidade de formação do gel e de sua termorreversibilidade. Foi observado que sob os maiores valores de temperatura e concentração de ácido empregados, o valor de DE foi maior. No tratamento que resultou no maior valor de DE (3,2 mol.l-1 de HCl e 44°C) foi observada a formação de gel termorreversível, o que indicou a potencialidade do amido modificado como substituto de gordura e agente ligante, em alimentos. A funcionalidade do amido de pinhão foi verificada através das análises de formação, fusão e termorreversibilidade do gel, tendência à retrogradação, estabilidade ao congelamento e descongelamento, poder de inchamento, índice de solubilização, MEV, viscosidade de pasta e propriedades térmicas, como temperatura e entalpia de gelatinização. Os resultados indicaram que: somente os amidos modificados apresentam géis termorreversíveis; os amidos de pinhão nativo e modificados possuem menor tendência à retrogradação do que seus similares de milho; a modificação do amido reduziu a tendência à retrogradação das pastas de amido; o amido de pinhão mostrou menor sinerese sob armazenamento à 5°C e após ciclos de congelamento e descongelamento; a temperatura de armazenamento influi significativamente no poder de inchamento (PI) e no índice de solubilização dos amidos de pinhão e milho nativos; os amidos modificados apresentaram menor PI do que os nativos; a viscosidade máxima do amido de pinhão foi maior à encontrada para o amido de milho, sendo ele menos resistente à agitação mecânica à quente (maior breakdown); a hidrólise ácida reduziu drasticamente a viscosidade das pastas formadas; a temperatura de gelatinização do amido de pinhão é de 47,64°C e a entalpia de gelatinização de 15,23 J.g-1; a hidrólise ácida aumentou a temperatura de gelatinização das espécies testadas. / Pinhão is the edible seed of Araucaria angustifolia, being consumed in the south and southeastern Brazil mainly in the natural form. The lack of diversity in relation to its consumption results in plenty of crop and its use as animal feed, which reduces the value of product marketing and affect the economic gains of the product. The pinhão seed is composed of 34% starch and a very low content of proteins and lipids, making it favorable for obtaining starch that is widely used by the food industry. The objective of this study was to characterize a new source of starch from seeds of Araucaria angustifolia, through a detailed study of the method for starch extraction, the physical-chemical, functional and rheological properties of the granules and their structural modification. To do this, a protocol for the starch extraction and a study of the effect of alkaline treatment (NaOH 0.05 mol.l-1 NaOH and 0.1 mol.l-1) compared to water treatment, was first established. Therefore, intrinsic fluorescence analysis, scanning electron and atomic force microscopy and x-ray diffractometry were carried out. The granular structure of pinhão starch was changed significantly when the alkaline solutions were used during extraction. The pinhão starch had a type C structure. The characteristics of native starch granules, through physical and chemical analysis, SEM, optical microscopy and syneresis were determined which found that the average diameter of starch granules varies from 7 to 20 μm and geometric shapes range from oval, the ellipsoid truncated and hemispheric. The pinhão starch was less prone to retrogradation compared to maize starch. The adsorption isotherms of native starch at temperatures of 10 °, 20 °, 30 ° and 40 ° C were drafting from fitting the experimental data to various sorption models. The Peleg model, followed by Chung-Pfost and GAB model had the highest correlation coefficients. From the GAB model were calculated monolayer moisture, enthalpy and entropy differential sorption. It was also carried out an experimental design to study the reaction of starch hydrolysis, through the influence of temperature (30° to 44°C) and hydrochloric acid concentration (1.2 to 3.2 mol.l- 1) on the dextrose equivalent value (DE) and on the ability of the gel formation and its thermoreversibility. It was observed that under the highest values of temperature and concentration of acid, the value of DE was higher. In larger value of DE (3.2 mol l-1 HCl and 44°C) was observed the formation of thermoreversible gel, which indicated the potential of modified starch as a fat substitute and a binder in food. The functionality of the pinhão starch was verified by analyzing the gel formation and fusion, gel thermoreversibility, tendency to retrogradation, stability to freezing and thawing, swelling power, solubility index, SEM, pasting viscosity and thermal properties such as temperature and enthalpy of gelatinization. The results showed that: only the modified starches exhibit thermoreversible gels, the native and modified pinhão starch have less tendency to retrograde than their counterparts in maize, the modification of starch reduced the tendency to retrogradation of starch pastes, the pinhão starch showed lower syneresis under storage at 5°C and after freezing and thawing, storage temperature affects significantly the swelling power (SP) and the solubility index of pinhão and maize native starches, the modified starches had lower SP of the natives, the maximum viscosity of pinhão starch was higher than that found for maize starch, the pinhão starch is less resistant to hot mechanical stirring (greater breakdown) than for maize starch, the acid hydrolysis reduced the viscosity of the pulp formed, the gelatinization temperature of pinhão starch is 47.64°C and its gelatinization enthalpy is 15.23 Jg-1; acid hydrolysis increased the gelatinization temperature of the species tested.
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Caracterização e avaliação de amido nativo e modificado de pinhão mediante provas funcionais e térmicasThys, Roberta Cruz Silveira January 2009 (has links)
O pinhão é a semente comestível da Araucaria angustifolia, sendo consumido no sul e sudeste do Brasil principalmente na sua forma in natura. A falta de diversidade em relação ao seu consumo acarreta a sobra da safra e a sua utilização como ração animal, o que diminui o valor de comercialização do produto, prejudicando os ganhos econômicos do produto. A semente do pinhão é composta de 34% de amido e um conteúdo muito baixo de proteínas e lipídios, o que a torna favorável para a obtenção de amido, aditivo amplamente utilizado pela indústria de alimentos. O objetivo deste trabalho foi caracterizar uma nova fonte de amido a partir de semente de Araucária angustifolia, através de um estudo detalhado da metodologia de extração do amido de pinhão, das características físico-químicas, funcionais e reológicas do grânulo e de sua modificação estrutural. Primeiramente foi determinado um protocolo para a extração do amido e realizado o estudo do efeito do tratamento alcalino (NaOH 0,05 mol.l-1 e NaOH 0,1 mol.l-1), em relação ao tratamento com água, na estrutura dos grânulos do amido extraídos. Para tanto foram feitas análises de fluorescência intrínseca, microscopia eletrônica de varredura e de força atômica e difractometria de raios X. A estrutura granular do amido de pinhão foi alterada significativamente quando as soluções alcalinas foram utilizadas durante a extração. O amido de pinhão apresentou estrutura do tipo C. Foram determinadas as características do grânulo de amido nativo, através de análises físico-químicas, MEV, microscopia ótica e sinerese, onde se verificou que o diâmetro médio dos grânulos de amido varia de 7 a 20 μm e as formas geométricas variam entre a oval, a elipsóide truncada e a hemisférica. O amido de pinhão mostrou-se menos propenso à retogradação, comparado ao amido de milho. Foram elaboradas as isotermas de adsorção do amido nativo às temperaturas de 10°, 20°, 30° e 40°C a partir do ajuste dos dados experimentais a diversos modelos de sorção, sendo os modelos de Peleg, seguidos pelos de Chung-Pfost e GAB os que tiveram os maiores coeficientes de correlação. A partir do modelo de GAB foram calculados os valores de umidade de monocamada, entalpia e entropia diferenciais de sorção. Foi realizado também um planejamento experimental a fim de estudar a reação de hidrólise do amido, através da influência das variáveis temperatura (30°a 44°C) e concentração de ácido clorídrico (1,2 a 3,2 mol.l-1) no valor de dextrose equivalente (DE) e na capacidade de formação do gel e de sua termorreversibilidade. Foi observado que sob os maiores valores de temperatura e concentração de ácido empregados, o valor de DE foi maior. No tratamento que resultou no maior valor de DE (3,2 mol.l-1 de HCl e 44°C) foi observada a formação de gel termorreversível, o que indicou a potencialidade do amido modificado como substituto de gordura e agente ligante, em alimentos. A funcionalidade do amido de pinhão foi verificada através das análises de formação, fusão e termorreversibilidade do gel, tendência à retrogradação, estabilidade ao congelamento e descongelamento, poder de inchamento, índice de solubilização, MEV, viscosidade de pasta e propriedades térmicas, como temperatura e entalpia de gelatinização. Os resultados indicaram que: somente os amidos modificados apresentam géis termorreversíveis; os amidos de pinhão nativo e modificados possuem menor tendência à retrogradação do que seus similares de milho; a modificação do amido reduziu a tendência à retrogradação das pastas de amido; o amido de pinhão mostrou menor sinerese sob armazenamento à 5°C e após ciclos de congelamento e descongelamento; a temperatura de armazenamento influi significativamente no poder de inchamento (PI) e no índice de solubilização dos amidos de pinhão e milho nativos; os amidos modificados apresentaram menor PI do que os nativos; a viscosidade máxima do amido de pinhão foi maior à encontrada para o amido de milho, sendo ele menos resistente à agitação mecânica à quente (maior breakdown); a hidrólise ácida reduziu drasticamente a viscosidade das pastas formadas; a temperatura de gelatinização do amido de pinhão é de 47,64°C e a entalpia de gelatinização de 15,23 J.g-1; a hidrólise ácida aumentou a temperatura de gelatinização das espécies testadas. / Pinhão is the edible seed of Araucaria angustifolia, being consumed in the south and southeastern Brazil mainly in the natural form. The lack of diversity in relation to its consumption results in plenty of crop and its use as animal feed, which reduces the value of product marketing and affect the economic gains of the product. The pinhão seed is composed of 34% starch and a very low content of proteins and lipids, making it favorable for obtaining starch that is widely used by the food industry. The objective of this study was to characterize a new source of starch from seeds of Araucaria angustifolia, through a detailed study of the method for starch extraction, the physical-chemical, functional and rheological properties of the granules and their structural modification. To do this, a protocol for the starch extraction and a study of the effect of alkaline treatment (NaOH 0.05 mol.l-1 NaOH and 0.1 mol.l-1) compared to water treatment, was first established. Therefore, intrinsic fluorescence analysis, scanning electron and atomic force microscopy and x-ray diffractometry were carried out. The granular structure of pinhão starch was changed significantly when the alkaline solutions were used during extraction. The pinhão starch had a type C structure. The characteristics of native starch granules, through physical and chemical analysis, SEM, optical microscopy and syneresis were determined which found that the average diameter of starch granules varies from 7 to 20 μm and geometric shapes range from oval, the ellipsoid truncated and hemispheric. The pinhão starch was less prone to retrogradation compared to maize starch. The adsorption isotherms of native starch at temperatures of 10 °, 20 °, 30 ° and 40 ° C were drafting from fitting the experimental data to various sorption models. The Peleg model, followed by Chung-Pfost and GAB model had the highest correlation coefficients. From the GAB model were calculated monolayer moisture, enthalpy and entropy differential sorption. It was also carried out an experimental design to study the reaction of starch hydrolysis, through the influence of temperature (30° to 44°C) and hydrochloric acid concentration (1.2 to 3.2 mol.l- 1) on the dextrose equivalent value (DE) and on the ability of the gel formation and its thermoreversibility. It was observed that under the highest values of temperature and concentration of acid, the value of DE was higher. In larger value of DE (3.2 mol l-1 HCl and 44°C) was observed the formation of thermoreversible gel, which indicated the potential of modified starch as a fat substitute and a binder in food. The functionality of the pinhão starch was verified by analyzing the gel formation and fusion, gel thermoreversibility, tendency to retrogradation, stability to freezing and thawing, swelling power, solubility index, SEM, pasting viscosity and thermal properties such as temperature and enthalpy of gelatinization. The results showed that: only the modified starches exhibit thermoreversible gels, the native and modified pinhão starch have less tendency to retrograde than their counterparts in maize, the modification of starch reduced the tendency to retrogradation of starch pastes, the pinhão starch showed lower syneresis under storage at 5°C and after freezing and thawing, storage temperature affects significantly the swelling power (SP) and the solubility index of pinhão and maize native starches, the modified starches had lower SP of the natives, the maximum viscosity of pinhão starch was higher than that found for maize starch, the pinhão starch is less resistant to hot mechanical stirring (greater breakdown) than for maize starch, the acid hydrolysis reduced the viscosity of the pulp formed, the gelatinization temperature of pinhão starch is 47.64°C and its gelatinization enthalpy is 15.23 Jg-1; acid hydrolysis increased the gelatinization temperature of the species tested.
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Produkce a charakterizace proteinových izolátu z různých druhů otrub / Production and characterization of protein isolates from different kinds of branVybíral, Lukáš January 2021 (has links)
This diploma thesis deals with the use of various types of bran as a by-product in the milling of cereals. Mills create a huge amount of this material per year. The most common way of processing bran is mostly incineration and to a lesser extent it is used as feed for livestock. Depending on the type of cereal, bran contains 10-20% of protein, which disappears from the food chain due to combustion. Within the framework of sustainability and valorisation of waste, which has recently been largely discussed, great emphasis is placed on waste minimization whether in the field of its production or further processing. Due to the relatively high protein content, bran appears to be a suitable starting material to produce protein supplements. Proteins can be extracted from bran based on their different solubility at different pH. In the alkaline method, the proteins are first dissolved in an alkaline pH and then precipitated in an acidic medium. Lyophilization is followed by characterization of the extract in terms of yield, protein content, moisture, amino acid profile and digestibility. The highest yield was obtained with the oat bran isolate (13,5 ± 0,6 g of isolate per 100 g of bran). In terms of protein content, the best protein isolate was also obtained from oat bran (95,2 ± 0,4% protein in the isolate). Another determination was the analysis of the amino acid profile, in which a high content of arginine was found in all analyzed protein isolates from bran. Determination of digestibility showed very good digestibility of all produced protein extracts from bran.
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