Global ETD Search

51	O óleo de abacate (Persea americana Mill) como matéria-prima para a indústria alimentícia / The avocado oil (Persea americana Mill) as raw material for food industry Flávia Danieli 01 September 2006 (has links) Hábitos de vida saudáveis e uma dieta balanceada aliados ao alto consumo de frutas e vegetais, estão associados a redução do risco de doenças e à manutenção da saúde. O óleo de abacate possui em sua composição substâncias bioativas capazes de prevenir e controlar as dislipidemias. Como existem poucas pesquisas científicas avaliando o potencial deste óleo para consumo humano, o presente trabalho estudou os processos de extração e refino do óleo de abacate, bem como suas propriedades funcionais. Os resultados mostraram que os processos de extração e refino do óleo a partir da variedade Margarida são tecnicamente viáveis, o que o torna excelente matéria-prima para a indústria alimentícia. Além disso, possui um perfil de ácidos graxos muito semelhantes ao azeite de oliva, predominando em ambos o ácido oléico, que em conjunto com os esteróis vegetais e a vitamina E presentes, é capaz de influenciar positivamente o controle metabólico do colesterol, prevenindo ou retardando as doenças cardiovasculares. / Healthy life habits and an equilibrate diet, associated with a high fruit and vegetable intake, are joined with the prevention of diseases and health maintenance. The avocado oil has in these composition bioactives substances that can help in the prevention and control of hyperlipidemia. As there are a few scientific researches evaluating the oil potential for human consumption, the present proposal studied the extraction and refining process of avocado oil and its functional properties. The results have been showed that extraction and refining process of Margarida's variety are technically possible, became it an excellent raw material for food industry. Besides, the fatty acid composition of avocado oil are similar to olive oil, predominating in both, the oleic acid, that together of sterols and vitamin E presents, can to influence to metabolic control of cholesterol, preventing or delaying the cardiovascular disease. abacate colesterol esteróis indústria de alimentos óleo comestível vitamina E avocado oil cholesterol oleic acid sterols vitamin E
52	Développement d'un procédé pour l'époxydation et la carbonatation des huiles végétales : application à l'huile de coton / Development of a process for the epoxidation and carbonation vegetable oils : application to cottonseed oil Zheng, Jun Liu 27 June 2016 (has links) Ce travail de thèse porte sur l'étude d'un procédé d'époxydation et de carbonatation par CO₂ des huiles végétales ce qui permet de valoriser à la fois les huiles et le CO₂ .Un modèle cinétique passant par la formation in situ de l'acide performique est construit pour l'époxydation de l'acide oléique et de l'huile de coton, en couplant les bilans de matière et d'énergie. Une stratégie permettant de réduire le nombre de paramètre à estimer est adoptée. Ce modèle est potentiellement transposable aux autres huiles ayant une structure similaire, car la réactivité de chaque type d'acide gras est déterminée. Pour la réaction de carbonatation, une étude cinétique est réalisée, et la solubilité et le coefficient de transfert de matière du CO₂ dans la phase liquide sont mesurés en tenant compte de la non idéalité des conditions à l'aide de l'équation d'état de Peng-Robinson. L'utilisation du carbonate obtenu est enfin examinée dans la synthèse de polyuréthanes sans isocyanates (NIPUs). / This thesis focuses on the process aspect of the first two steps in the synthesis of non-isocyanates polyurethanes (NIPUs) from vegetable oils, i.e. epoxidation and carbonation reaction. This process adds value to both vegetable oil and CO₂. A kinetic model by using performic acid formed in-situ is built for epoxidation of oleic acid and cottonseed oil, by coupling the mass balance and energy balance. This model is potentially transferable to other oils with similar structure as the reactivity of each type of fatty acid is determined. For the carbonation reaction, a kinetic study is carried out, and the solubility and the CO₂ mass transfer coefficient in the liquid phase is measured under non-ideal condition using the Peng-Robinson equation of state. Equation Peng-Robinson Acide oléique Acide performique Carbonatation NIPUs Oleic acid Cottonseed oil Carbonatation reaction Epoxidation
53	Development of Real-Time Electro-Organic Reaction Screening Platform Based on Nano-Electrospray Ionization Mass Spectrometry Chintalapudi, Kavyasree 27 August 2018 (has links) No description available. Analytical Chemistry
54	Modifying Fatty Acid Composition of Bovine Milk by Abomasal Infusion or Dietary Supplementation of Seed Oils or Fish Oil Bandara, Aloka B. 26 January 1998 (has links) The potential for enhancing oleic acid (cis-18:1) and linoleic acid (18:2) content and lowering medium chain fatty acid (MCFA) content of bovine milk was investigated by abomasal infusion or dietary supplementation of oils. In experiment 1, olive oil, sesame oil, sunflower oil, or fish oil was abomasally infused (155 to 219 g/d) into Jersey cows during the last 6 d of each of four 14-d periods. In experiment 2, canola oil, olive oil, high-oleic sunflower oil, or distilled water (control) was abomasally infused (342 to 371 g/d) into three Holsteins and three Jerseys during the last 5 d of each of four 10-d periods. The intestinal digestibility and concentration of cis-18:1 and 18:2 in milk were proportional to flow of these fatty acids to the duodenum. Also, greater concentration of cis-18:1 in milk was associated with lowered yield of MCFA. During olive oil or sesame oil infusion in experiment 1, for each 100 g of cis-18:1 infused into the abomasum, milk cis-18:1 yield was increased by an average of 47 g, and MCFA yield was reduced by 42 g. The yield of 18:2 in milk was increased by approximately 46 g for each 100 g of infused 18:2 during olive oil or sesame oil infusion. Milk produced during sesame oil infusion, however, had an off-flavor when evaluated by a taste panel. In experiment 2, each 100 g of cis-18:1 infused daily increased milk cis-18:1 yield in Holsteins and Jerseys by 41 and 39 g/d, respectively, whereas recovery of infused 18:2 was 34 g/d for Jerseys and 42 g/d for Holsteins. In experiment 3, 22 Jersey cows were fed a basal diet, or the basal diet supplemented with 3.5% high-oleic canola oil, 3.5% soybean oil, or 1.75% high-oleic canola oil plus 1.75% soybean oil for 5 wk. Dietary canola oil supplementation increased conjugated linoleic acid (CLA) percentage in milk to a moderate level without raising trans-18:1 percentage, whereas feeding either supplement containing soybean oil raised both CLA and trans-18:1 percentages. Concentrations of trans-18:1 and CLA in milk apparently reflected the extent of unsaturated fatty acid biohydrogenation in the rumen. Dietary supplementation with canola oil increased yield of cis-18:1 in milk by 21 g for each 100 g of supplemental cis-18:1 intake. Yield of 18:2 in milk was raised by 3 g for each 100 g of supplemental 18:2 intake by cows fed soybean oil. Using abomasal infusion as an indicator of the maximum potential for apparent recovery of cis-18:1 in milk (39 to 49%), cis-18:1 recovery in response to supplemental cis-18:1 in the diet was approximately half of the potential response due to partial biohydrogenation in the rumen. The apparent recovery of dietary 18:2 in milk was reduced to only one-tenth of the potential yield (31 to 47%) indicated by abomasal infusion of seed oils. Results indicated that the fatty acid profile of bovine milk was altered in a manner that would be beneficial to human health when cows were fed supplemental oleic acid, but further research should focus on safe and economical methods to protect dietary unsaturated fatty acids from biohydrogenation. / Ph. D. oleic acid linoleic acid medium chain fatty acids abomasal infusion milk flavor
55	Effect of oleic acid esters on the microencapsulation of 5-fluorouracil by poly(ortho esters) polymer Mudholkar, Seema 01 January 1998 (has links) (PDF) The investigation focussed on the effects of oleic acid esters on the microencapsulation characteristics of the poly( ortho esters) polymer and their role as potential latentiated acid catalysts for the hydrolysis of the polymer backbone thereby influencing release of 5-fluorouracil. Four oleic acid esters, viz., ethyl oleate, propyl oleate, butyl oleate and lauryl oleate were studied. The microspheres were prepared by the emulsion solvent evaporation technique using sorbitan sesquioleate (6.44%w/w) as the surfactant. The microspheres were prepared with a theoretical drug loading of between 13 and 14% by weight and ester loading of 2.46% by weight with respect to the non-volatile components of the system. All the oleic acid esters (2.46% by weight) were found to retard the release of 5-fluorouracil from the microspheres. The maximum control over drug release was offered by ethyl oleate. Ethyl oleate was also found to give the highest percent entrapment of the drug in the microspheres. The release of 5-FU from the microspheres was inversely related to the concentration of ethyl oleate over the concentration range of 0.72% to 2.46% by weight. Gel permeation chromatography, scanning electron microscopy and the in vitro release data suggested that release of 5-FU from the microspheres occurred by a combination of diffusion and polymer erosion. The polymer erosion was further complicated by the by products of ester hydrolysis. Steady state drug release after the lag phase was zero-order. This suggested that polymer degradation in the steady state region erosion process initiated by oleic acid produced as a result of hydrolysis of the oleic acid ester during the release process. Oleic acid Esters Medicinal and Pharmaceutical Chemistry Medicine and Health Sciences Pharmacy and Pharmaceutical Sciences
56	Accelerated Shelf Life Determination of Antioxidant Stabilized High Oleic Sunflower and Canola Oils in Plastic Bottles Shearer, Christine Nicole 11 November 2010 (has links) (PDF) Vegetable oil is an important commodity; however, the majority of commercially available vegetable oils have a fairly short shelf life, which limits their usefulness for long term food storage, disaster relief, space travel, food aid programs, and military rations. Vegetable oils with high oleic acid and reduced linolenic acid contents, especially with added antioxidant combinations, were previously found to have significantly longer oil stability index (OSI) values than traditional vegetable oils. This study used accelerated shelf life testing to estimate the ambient shelf life of high oleic sunflower oil (HOSUN) and high oleic canola oil (HOCAN), each containing 1,000 ppm ascorbyl palmitate, 200 ppm tertiary butyl hydroquinone, and 200 ppm mixed tocopherols. Oils were stored in the dark in low density polyethylene (LDPE), or polyethylene terephthalate (PET) bottles at 30, 40, 50, and 60°C. Control samples were stored in the dark in glass bottles at -50°C. Testing included peroxide values, qualitative headspace volatile analysis, descriptive sensory analysis, and consumer sensory acceptance. The estimated shelf life was calculated from the change in overall acceptance score over time using the Q10 method. The stabilized HOCAN in PET bottles was estimated to have a shelf life at ambient temperature of 6.8 years, while oil stored in LDPE bottles had an estimated shelf life of only 2.7 years. The estimated shelf life of HOSUN at room temperature in PET is 2.6 years and in LDPE is 0.88 years. Accelerated shelf life testing oleic acid vegetable oil storage descriptive analysis Food Science Nutrition
57	Microalgae Fractionation and Production of High Value Nylon Precursors Abel, Godwin Ameh January 2017 (has links) No description available. Chemical Engineering Organic Chemistry Sustainability Polymers
58	Oxidation and Textural Characteristics of Butter and Ice Cream with Modified Fatty Acid Profiles Gonzalez, Sonia 16 August 2001 (has links) Milk fat composition determines specific rheological, sensory and physicochemical properties of dairy products such as texture, melting point, flavor, color, oxidation rates, and viscosity. Previous studies have shown that milkfats containing higher levels of long chain polyunsaturated fatty acids have lower melting points and decreased solid fat contents which leads to softer-textured products. An increased risk of higher oxidation rates can be a disadvantage of high levels of polyunsaturated fatty acids. Three different milkfat compositions were obtained through dietary manipulation of cows: high oleic content, high linoleic content and control milkfat. Ice cream and butter were processed from the treated and control milks. Butter and ice cream samples then were analyzed to measure differences in fatty acid profiles and firmness. High-oleic and high-linoleic milkfat had lower concentrations of saturated fatty acids, such as C 16:0. Conjugated linoleic acid content was increased in the high-linoleic milkfat. High-oleic milkfat resulted in a softer butter. Ice cream samples were analyzed to measure differences in viscosity, melting point, oxidation rate and sensory perception. Significant differences (P<0.05) were found in the fatty acid profiles of milkfat, ice cream mix viscosity, peroxide values of ice cream after 3 to 5 months of storage, butter color, and butter firmness. Sensory analyses included a scooping test at -18°C to detect differences in texture. A difference test was conducted to determine oxidation flavor differences between the three ice cream treatments at extended storage times. No significant differences were found in the scooping test or the oxidation flavor difference. Manipulation of the cow's diet increased the total amount of unsaturated fatty acids. It also influenced firmness of butter and behavior of peroxide values during extended storage of high-linoleic ice cream. / Master of Science butter conjugated linoleic acid ice cream oxidation rate peroxides oleic acid firmness linoleic acid
59	Characterization of Hydrophobically Modified Titanium Dioxide Polylactic Acid Nanocomposite Films for Food Packaging Applications Baek, Naerin 12 August 2016 (has links) Titanium dioxide (TiO2) polymer nanocomposites improve barrier properties to gas and moisture and mechanical strength as well as providing active packaging functions. However, low compatibility between hydrophilic TiO2 nanoparticles and hydrophobic polymers such as polylactic acid (PLA) causes problems due to the tendency of TiO2 nanoparticles (TiO2) to agglomerate and form large clusters. A surface modification of TiO2 with long chain fatty acid may improve the compatibility between PLA and TiO2. The goal of this study was to enhance barrier properties of oxygen and water vapor, mechanical strength and add light protecting function to PLA composites by incorporation of oleic acid modified TiO2 nanoparticles (OA_TiO2). The objectives of this study were: 1) synthesize TiO2 and modify surface of TiO2 with oleic acid, 2) investigate dispersion stability of TiO2 and OA_TiO2 in hydrophobic media, 3) incorporate TiO2 and OA_TiO2 into a PLA matrix and to characterize properties of TiO2PLA (T-PLA) and OA_TiO2 PLA nanocomposite films (OT-PLA), and 4) to determine stability of green tea infusion in T-PLA and OT-PLA packaging model systems during refrigerated storage at 4 °C under florescent lightening. TiO2 was synthesized by using a sol-gel method and the surface of TiO2 was modified by oleic acid using a one-step method. T-PLA and OT-PLA were prepared by solvent casting. TiO2 and OA_TiO2 were analyzed by X-ray diffraction, Fourier transform infrared spectroscopy, thermal analysis and dynamic light scattering. The barrier properties to oxygen and water vapor, morphology, mechanical properties, thermal stability and light absorption properties of T-PLA and OT-PLA were characterized. Dispersion of TiO2 was improved in PLA matrix by the surface modification method with oleic acid. OT-PLA had more effective improvements in the barrier properties and flexibility than T-PLA and PLA, but toughness of the films based on Young's modules of OT-PLA was lower than the T-PLA and the PLA. The OT-PLA may have a potential to be used as transparent, functional and sustainable packaging films, but limited use for complete visible and UV-light protection for photosensitized foods. / Ph. D. titanium dioxide surface modification oleic acid bioplastics polylactic acid nanocomposites food packaging active packaging
60	Development of standardized dry roasting procedures for Virginia type peanuts Khan, Jasim 08 October 2021 (has links) Peanuts are grown around the world and in United States where most peanuts are consumed after roasting. Peanuts are roasted to a specified color on Lab* scale as it is correlated with quality and acceptability. Two batches of Virginia type peanuts were acquired, one normal and other a high oleic variety. A surface response model using the Box-Behnken design was developed for Behmor 2000AB and GeneCafe coffee roasters, for normal and high oleic peanuts respectively with sample size, roast time and power/temperature as dependent variables and L* as a response variable. The model for Behmor was not significant (p>0.05 and R2 =0.87) but with effect contribution of roast time while the GeneCafe model was significant (p<0.05 and R2=0.98) with multiple first and second order effect contributions from temperature and roast time. Each model was validated and Behmor was found to be more consistent and predictable compared to GeneCafe. Both varieties of peanuts were roasted on each roaster and tested for volatile analysis using SPME GC/MS with high variation observed within samples which may be caused by uneven roasting. The volatile results showed similar trends for seventeen compounds between normal and high oleic samples. The Behmor roaster was more effective at predictable roasting for 50 to 100 g sample and more validation is needed on GeneCafe to improve its model. The results can help with quality testing of new varieties of Virginia type peanuts quickly without relying on large sample size typically used in other lab scale studies. / Master of Science in Life Sciences / Peanuts are grown around the world and in United States where most of it is consumed as a confection. They are roasted to a specified color on scale as it is correlated with quality and optimization. We wanted to develop a method of small-scale peanut roasting that allows peanut breeders to roast and evaluate quality of small samples of peanuts. We used an optimization method to test two different coffee roasters for peanut roasting (Behmor and GeneCafe roasters), with normal and high oleic peanuts. Behmor was more sensitive to changes in roast time while GeneCafe was more sensitive to temperature, roast time and combined effects. The models were validated on each machine and Behmor was found to be more consistent and predictable compared to GeneCafe. Peanuts were roasted on each roaster and tested for aroma compounds. The aroma compounds were similar between normal and high oleic samples. The Behmor roaster was more effective at predictable roasting of peanuts with sample size ranging from 50 to 100 g. Our results allow us to predictably roast very small lots of peanuts to support determination of flavor quality for peanut breeding research. Peanuts high oleic roasting surface-response Box-Behnken Optimization fatty acid volatile analysis colorimetry

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