Avalia??o termoanal?tica da efici?ncia de antioxidantes na estabilidade oxidativa do biodiesel de mamona

Galv?o, Luzia Patr?cia Fernandes de Carvalho

19 November 2007

Made available in DSpace on 2014-12-17T15:41:43Z (GMT). No. of bitstreams: 1 LuziaPFCG.pdf: 2749949 bytes, checksum: 3f79f78a7f602972e60d8e39c6c0e5d4 (MD5) Previous issue date: 2007-11-19 / The biodiesel is defined as the mono-alkyl ester derived from long-chain fatty acids, from renewable sources such as vegetable oils or animal fat, whose use is associated with the replacement of fossil fuels in diesel engine cycle. The biodiesel is susceptible to oxidation when exposed to air and this process of oxidation affects the quality of fuel, mainly due to long periods of storage. Because of this, the oxidation stability has been the focus of numerous researches since it directly affects the producers, distributors and users of fuel. One of the possibilities to increase the resistance of biodiesel is the autoxidation treatment with inhibitors of oxidation. The antioxidants can be used as potential inhibitors of the effects of oxidation on the kinematic viscosity and the index of acidity of biodiesel, thereby increasing oxidative stability. This work aims to examine the efficiency of antioxidants, α-tocopherol and butylated hydroxy-toluene (BHT), added the biodiesel content of remembrance through Pressurized-Differential Scanning Calorimetry (P-DSC), Thermogravimetry (TG) and Petrology. The results showed that the use of antioxidant BHT, at the concentration of 2000ppm, increased resistance to oxidation of the biodiesel and oxidative induction time (OIT), which is a better result as antioxidant than the α-tocopherol. With the thermogravimetric analysis, it was observed that the biodiesel presented an initial decomposition temperature of lower tendency than that of oil, demonstrating to be more volatile, bearing great similarity to the diesel and being characterized as an alternative fuel. The rheological analysis indicated that each sample of biodiesel behaved as a Newtonian fluid / O biodiesel ? definido como o derivado mono-alquil ?ster de ?cidos graxos de cadeia longa, proveniente de fontes renov?veis como ?leos vegetais ou gordura animal, cuja utiliza??o est? associada ? substitui??o de combust?veis f?sseis em motores ciclo diesel. O biodiesel ? suscept?vel ? oxida??o quando exposto ao ar e este processo de oxida??o afeta a qualidade do combust?vel, principalmente em decorr?ncia de longos per?odos de armazenamento. Em fun??o disso, a estabilidade ? oxida??o tem sido foco de in?meras pesquisas, pois afeta diretamente os produtores de combust?veis, distribuidores e usu?rios. Um das possibilidades de aumentar a resist?ncia do biodiesel ? autoxida??o ? o tratamento com inibidores de oxida??o. Os antioxidantes podem ser utilizados como poss?veis inibidores dos efeitos da oxida??o sobre a viscosidade cinem?tica e o ?ndice de acidez do biodiesel, aumentando assim estabilidade oxidativa. Este trabalho teve objetivo de examinar a efici?ncia dos antioxidantes, α-tocoferol e o hidr?xi-tolueno butilado (BHT), adicionado no biodiesel met?lico de mamona, atrav?s da Calorimetria Explorat?ria Diferencial sob Press?o (P-DSC), Termogravimetria (TG) e PetroOXY. Os resultados obtidos mostraram que o uso do antioxidante BHT, na concentra??o de 2000ppm, aumentou a resist?ncia ? oxida??o do biodiesel e tempo de indu??o oxidativa (OIT), revelando-se um melhor resultado como antioxidante do que o α-tocoferol. Na analise termogravim?trica, observou-se que o biodiesel apresentou uma temperatura de decomposi??o inicial menor que a do ?leo, demonstrando ser mais vol?til, aproximando-se do diesel e se caracterizando com combust?vel alternativo. As an?lises reol?gicas indicaram que cada amostra do biodiesel comportou-se como fluido newtoniano

Biodiesel

Estabilidade oxidativa

Antioxidantes

Tempo de indu??o oxidativa

Termogravimetria

PetroOXY

Biodiesel

Oxidative stability

Antioxidants

Oxidative induction time

Thermogravimetry

PetroOXY.

Hidr?xidos duplos lamelares aplicados ? obten??o de biodiesel

Alves, Aline Ara?jo

14 August 2009

Made available in DSpace on 2014-12-17T15:41:45Z (GMT). No. of bitstreams: 1 AlineAApdf.pdf: 2403213 bytes, checksum: dfc50c5f35575298ed9005c5d3fb4f7b (MD5) Previous issue date: 2009-08-14 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / In this paper, the Layered Double Hydroxides (LDH s) type hydrotalcite were synthesized, characterized and tested as basic heterogeneous catalysts for the production of biodiesel by transesterification of sunflower oil with methanol. The synthesis of materials Layered Double Hydroxides (LDH s) by co-precipitation method from nitrates of magnesium and aluminum, and sodium carbonate. The materials were submitted to the variation in chemical composition, which is the amount of Mg2+ ions replaced by Al3+. This variation affects the characteristic physico-chemical and reaction the solid. The molar ratio varied in the range of 1:1 and 3:1 magnesium / aluminum, and their values between 0.2 and 0.33. This study aims to evaluate the influence of variation of molar ratio of mixed oxides derived from LDH s and the influence of impregnation of a material with catalytic activity, the KI, the rate of conversion of sunflower oil into methyl esters (biodiesel) through transesterification by heterogeneous catalysis. .The catalysts were calcined at 550 ? C and characterized by X-ray diffraction (XRD), scanning electron microscopy and energy dispersive spectroscopy of X-ray (SEM / EDS), thermogravimetric analysis (TG) and test basicity. The transesterification reaction was performed for reflux is a mixture of sunflower oil and methanol with a molar ratio of 15:1, a reaction time of 4h and a catalyst concentration of 2% by weight. The physical-chemical characterization of sunflower oil and biodiesel obtained by the route methyl submitted according NBR, EN, ASTM. Subsequently, it was with the chromatographic and thermogravimetric characterizations of oils. The results of chromatographic analysis showed that the catalysts were effective in converting vegetable oil into biodiesel, in particular the type hydrotalcite KI-HDL-R1, with a conversion of 99.2%, indicating the strong influence of the chemical composition of the material, in special due to presence of potassium in the structure of the catalyst / Neste trabalho, hidr?xidos duplos lamelares tipo hidrotalcita foram sintetizados, caracterizados e testados como catalisadores heterog?neos b?sicos para a produ??o de biodiesel por transesterifica??o de ?leo de girassol com metanol. A s?ntese dos materiais de hidr?xidos duplos lamelares (HDLs) procedeu-se pelo m?todo de co-precipita??o, a partir de nitratos de magn?sio e de alum?nio, carbonato de s?dio e hidr?xido de s?dio. Os materiais foram submetidos ? varia??o na propor??o qu?mica, que equivale ? quantidade de ?ons Mg2+ substitu?dos por Al3+. Essa varia??o afeta as propriedades f?sico-qu?micas do material. A raz?o molar variou na propor??o de 1:1 e 3:1 de magn?sio/alum?nio, estando seus valores entre 0,2 e 0,33. Realizou-se um estudo de impregna??o de iodeto de pot?ssio na estrutura dos HDLs, a fim de verificar se ocorre um aumento da basicidade nesses materiais. Os catalisadores obtidos foram calcinados ? 550 ?C e caracterizados por difra??o de raios X (DRX), microscopia eletr?nica de varredura e espectroscopia por energia dispersiva de raios X (MEV/EDS), an?lise termogravim?trica (TG) e teste de basicidade. A rea??o de transesterifica??o foi realizada refluxando-se uma mistura de metanol e ?leo de girassol com uma raz?o molar de 15:1, tempo de rea??o de 4h e uma concentra??o de 2% em massa de catalisador. A caracteriza??o f?sico-qu?mica do ?leo de girassol e dos biodieseis obtidos atrav?s da rota met?lica apresentou-se de acordo com as normas da NBR, EN, ASTM. Realizaram-se tamb?m as caracteriza??es cromatogr?ficas e termogravim?tricas dos biocombust?veis obtidos. Os resultados das an?lises cromatogr?ficas mostraram que os catalisadores foram eficientes na convers?o de ?leo vegetal em biodiesel, em especial o tipo hidrotalcita KI-HDL-R1, com uma convers?o de 99,2%, indicando a forte influ?ncia da composi??o qu?mica do material, particularmente com a presen?a do iodeto de pot?ssio na estrutura do catalisador

Catalisador

Hidr?xidos duplos lamelares

Biodiesel

Transesterifica??o

Termogravimetria

Cromatografia

Catalysts

Hydroxides doubles layered

Biodiesel

Transesterification

Thermogravimetry

Chromatography

Estudo cin?tico da degrada??o t?rmica e catal?tica de petr?leo pesado usando Al-MCM-41

Oliveira, Aline Ara?jo Alves de

09 August 2013

Made available in DSpace on 2014-12-17T15:42:27Z (GMT). No. of bitstreams: 1 AlineAAO_TESE.pdf: 3075922 bytes, checksum: bd3bdc6aafacdcbe05784c0fbe751097 (MD5) Previous issue date: 2013-08-09 / The mesoporous nanostructured materials have been studied for application in the oil industry, in particular Al-MCM-41, due to the surface area around 800 to 1.000 m2 g-1 and, pore diameters ranging from 2 to 10 nm, suitable for catalysis to large molecules such as heavy oil. The MCM-41 has been synthesized by hydrothermal method, on which aluminum was added, in the ratio Si/Al equal to 50, to increase the generation of active acid sites in the nanotubes. The catalyst was characterized by X-ray diffraction (XRD), surface area by the BET method and, the average pore volume BJH method using the N2 adsorption, absorption spectroscopy in the infrared Fourier Transform (FT-IR) and determination of surface acidity with application of a probe molecule - n-butylamine. The catalyst showed well-defined structural properties and consistent with the literature. The overall objective was to test the Al-MCM-41 as catalyst and thermogravimetric perform tests, using two samples of heavy oil with API ? equal to 14.0 and 18.5. Assays were performed using a temperature range of 30-900 ? C and heating ratios (β) ranging from 5, 10 and 20 ?C min-1.The aim was to verify the thermogravimetric profiles of these oils when subjected to the action of the catalyst Al- MCM-41. Therefore, the percentage ranged catalyst applied 1, 3, 5, 10 and 20 wt%, and from the TG data were applied two different kinetic models: Ozawa-Flynn-Wall (OFW) and Kissinger-Akahrira-Sunose (KAS).The apparent activation energies found for both models had similar values and were lower for the second event of mass loss known as cracking zone, indicating a more effective performance of Al-MCM-41 in that area. Furthermore, there was a more pronounced reduction in the value of activation energy for between 10 and 20% by weight of the oil-catalyst mixture. It was concluded that the Al-MCM-41 catalyst has applicability in heavy oils to reduce the apparent activation energy of a catalyst-oil system, and the best result with 20% by weight of Al-MCM-41 / Os materiais mesoporosos nanoestruturados vem sendo estudados para aplica??o na ind?stria do petr?leo, em especial o Al-MCM-41, devido ? ?rea superficial em torno de 800-1000 m2g-1 e di?metro de poros variando de 2 a 10 nm, adequado para cat?lise de mol?culas grandes como petr?leos pesados. O MCM-41 foi sintetizado pelo m?todo hidrot?rmico, o qual foi adicionado Alum?nio numa propor??o Si/Al igual ? 50, a fim de aumentar a gera??o de s?tios ?cidos ativos nos nanotubos. O catalisador foi caracterizado por difra??o de Raios-X (DRX), ?rea superficial pelo m?todo BET e volume m?dio de poros pelo m?todo BJH atrav?s da adsor??o de N2, espectroscopia de absor??o na regi?o do infravermelho por Transformada de Fourier (FT-IR) e determina??o da acidez superficial com aplica??o de uma mol?cula sonda nbutilamina. O catalisador apresentou propriedades estruturais bem definidas e coerentes com a literatura. O objetivo geral foi testar o Al-MCM-41 como catalisador e realizar ensaios termogravim?tricos, utilizando duas amostras de petr?leo pesado com ?API iguais ? 14,0 e 18,5. Os ensaios foram realizados usando uma faixa de temperatura de 30 900?C, e raz?es de aquecimento (β) variando de 5, 10 e 20 ?Cmin-1. O intuito era verificar os perfis termogravim?tricos destes petr?leos quando submetidos ? a??o do catalisador Al-MCM-41. Para tanto, variou-se o percentual de catalisador aplicado in situ: 1, 3, 5, 10 e 20% em massa e, a partir dos dados termogravim?tricos foram aplicados dois modelos cin?ticos diferentes: Ozawa-Flynn-Wall (OFW) e Kissinger- Akahrira-Sunose (KAS). As energias de ativa??o aparente encontradas para ambos os modelos tinham valores semelhantes e eram menores para o segundo evento de perda de massa conhecido como zona de craqueamento, indicando uma atua??o mais efetiva do Al-MCM-41 nessa zona. Al?m disso, constatou-se uma diminui??o mais acentuada no valor das energias de ativa??o para valores entre 10 e 20% em massa da mistura catalisador-?leo. Concluiu-se que o Al-MCM-41 possui aplicabilidade catal?tica em petr?leos pesados diminuindo a energia de ativa??o aparente de um sistema catalisador?leo, sendo o melhor resultado com 20% em massa de Al-MCM-41

Caracterização vibracional e térmica de compósitos de LLDPES modificados e sílica (OU) Caracterização vibracional e térmica de compósitos de lldpe\'s funcionallzados e sílica de superfície modificada / Vibrational and thermal characterization of functionalized LLDPE composites and surface-modified silica

Ednardo Moreira Santos

27 April 2006

Compósitos de polímeros de polietileno linear de baixa densidade (LLDPE) possuem baixo desempenho mecânico devido principalmente à sua fraca interação, intermolecular, entre a cadeia polimérica e a carga. Uma maneira de minimizar esse baixo desempenho mecânico se faz com a mudança da estrutura química da poliolefina com a inserção de um grupo polar a sua cadeia, ou seja, faz-se a funcionalização das poliolefinas. O sistema de funcionalização adotado foi o processamento reativo, no qual foi utilizado para este sistema de processamento o misturador de dupla rosca acoplado a um reâmetro de torque. Neste trabalho, os grupos polares inseridos à cadeia dos polímeros de LLDPE\'s de copolímeros 1-buteno e 1-octeno (LLDPE-but e LLDPE-oct) foram o anidrido maléico (AM) e o anidrido tetrahidroftálico (ATF). Para a confecção dos compósitos foram utilizadas as cargas de microesferas de sílica modificada, no qual foi inserido compostos silanados em sua superfície (3-aminopropilsilano - APS - e trimetoxiclorosilano TMCISi) para estudo de interação com as poliolefinas funcionalizadas. Neste trabalho foram realizados ensaios de caracterização térmica, vibracional além de análises de torque do polímero fundido, análises do grau de reticulação e ensaios mecânicos de tração por elongação. Na caracterização térmica foram utilizadas as técnicas: termogravimetria (TG) e calorimetria exploratória diferencial (DSC). Na caracterização vibracional utilizou-se a espectroscopia fotoacústica no infravermelho (PAS-IR) e a espectroscopia de espalhamento Raman. Pela técnica PAS-IR foi possível comprovar a inserção dos anidridos à cadeia das poliolefinas assim como foi possível verificar a interação entre o polímero funcionalizado e a carga. Pelas técnicas térmicas de DSC e TG foi possível verificar mudanças das propriedades do compósito frente aos polímeros originais ou funcionalizados. Os ensaios mecânicos comprovaram que os compósitos de polímeros funcionalizados possuem maior elongação e tensão à ruptura comparada aos compósitos dos LLDPE\'s não funcionalizados / Linear low density composites have a weak mechanical behavior due mainly to the weak interactions - intermolecular - between the polymeric back bone and the charge. The anchoring a polar group in polymeric back bone is a strategy to increase the interactions between the polymer and the charge, as mean, the polyolefin is functionalized. The functionalization process used is the reactive process by a Mixer coupled with torque rheometer. In this work the polar groups used to functionalize the LLDPE\'s with comonomer 1-buten and 1-octen are maleic anhydride and tetrahydrophtalic anhydride. The composites were maked adding in to graft LLDPE\'s the charge of modified surface silicate micro-spheres whith 3aminepropylsilane or trimethoxyclorinesilane. This work to composites characterization was used thermal and vibrational characterization, and torque, crystalinity degree and mechanical tests. In thermal characterizations were used: termogravimetry (TG) and differential scanning calorimetry (DSC). In the vibrational characterization, the photoacoustic spectroscopy (PAS-IR) and Raman spectroscopy were used. Using the PAS-IR technique it was possible to prove the anhydride bonding in the polyolefin back bones, and also was possible verify the interactions between the functionalized polymer and the charge. With DSC and TG techniques was possible verify changes in composites properties in comparison to originais or functionalized polymers. The mechanical tests show that the functionalized polymer composites have bigger values of elongation and tensile strength in comparison to non functionalized LLDPE composites.

Anidrido maleico e tetrahidroftálico

Compositos

Espectroscopia eletrônica

Funcionalização

Polietileno

Raman

Termogravimetria

Termoquímica

Composites

Functionalization

Maleic anhydride and tetrahydrophthalic

Polyethylene

Raman

Spectroscopy electronics

Termochemistry

Thermogravimetry

Tomografia por coerência óptica (OCT), reologia, análise térmica e tamanho de partículas aplicados na caracterização de sistemas emulsionados de orientação de uso cosmético / Optical coherence tomography (OCT), rheology, thermal analysis and particle size determination applied for the characterization of cosmetic use emulsified systems

Paula Souza Prestes

17 February 2012

Os atributos físicos, físico-químicos e químicos dos sistemas emulsionados são influenciados pelas características das gotículas da fase interna destes, como: concentração, tamanho e morfologia. Dessa forma, os objetivos envolveram a caracterização física e físico-química de sistemas emulsionados obtidos a partir dos tensoativos álcool estearílico 21 OE (óxidos de etileno) (steareth-21) e álcool oleílico 20 OE (oleth-20), bem como, a introdução da tomografia por coerência óptica (OCT) como técnica analítica para determinação do tamanho de partículas e caracterização morfológica das emulsões. Prepararam-se três formulações, diferindo-se no tensoativo utilizado, sendo o sistema emulsionado SE-1 composto por 8,0% (p/p) de oleth-20; o SE-2 por 4,0% (p/p) de oleth-20 e 4,0% (p/p) steareth-21; e o SE-3 por 8,0% (p/p) steareth-21. Avaliaram-se a estabilidade preliminar, o valor de pH, os perfis reológico e termogravimétrico. A presença de fase gel cristalina foi determinada por meio da microscopia com luz polarizada e, o tamanho das gotículas, por meio da microscopia óptica comum, difração a laser e OCT. As amostras não apresentaram sinais de instabilidade por meio dos testes da centrifugação e do estresse térmico. O valor de pH foi considerado compatível com o da pele humana (4,6 a 5,8). Os sistemas apresentaram comportamento reológico não-Newtoniano pseudoplástico. SE-1 apresentou viscosidade aparente inferior (223,53 mPa.s) e área de histerese (2238,38 Pa/s) estatisticamente igual ao SE-2 (2911,19 Pa/s); SE-2 apresentou valor intermediário de viscosidade aparente (332,20 mPa.s) e, SE-3, valores superiores para ambos os parâmetros (636,40 mPa.s e 4248,97 Pa/s). Os testes oscilatórios constataram a predominância do caráter elástico para os três sistemas. Por meio da termogravimetria, o perfil das três amostras foi semelhante, independentemente do tipo e concentração do tensoativo não-iônico. Observou-se a presença de fase gel cristalina para os três sistemas, sendo aparentemente mais pronunciado para o SE-2. Tanto na análise microscópica quanto na difração a laser foram obtidos tamanho médio de partículas menor que 6,0 µm. De acordo com os resultados da OCT, as partículas menores que 6,0 µm não foram possíveis de serem conclusivamente observadas e aquelas maiores sugeriram ser a fase interna dos sistemas. / The physical, physicochemical and chemical attributes of the emulsified systems are influenced by the characteristics of their internal phase droplets, such as: concentration, size and morphology. Thus, the aims involved the physical and physicochemical characterization of emulsions obtained from the stearyl alcohol condensed with 21 mols ethylene oxide (EO) (steareth-21) and oleyl alcohol with 20 mols EO (oleth-20), as well as, the introduction of the optical coherence tomography (OCT) as the analytical technique tool to the determination of the particle size and morphological characterization of the emulsified systems. Three formulations were prepared, differing at the surfactant used, being the emulsified system SE-1 composed by 8.0% (p/p) of oleth-20, the SE-2 by 4.0% (p/p) of oleth-20 and 4.0% (p/p) steareth-21; and the SE-3 by 8.0% (p/p) steareth-21. The preliminary stability was evaluated, such as the ph value and the rheological and thermogravimetric profiles. The presence of the crystalline gel phase was determined from microscopy with polarized light and the droplet size through regular optical microscopy, laser diffraction and OCT. The samples did not present signs of instability throughout the centrifugation and thermal stress tests. The ph value was considered compatible to human skin (4.6 to 5.8). Systems represent the non-Newtonian pseudoplastic rheological behaviour. The SE-1 presented inferior apparent viscosity (223.53 mPa.s) and the hysteresis area (2238.38 Pa/s) statistically equal to SE-2 (2911.19 Pa/s); the SE-2 presented an average value of apparent viscosity (332.20 mPa.s) and, the SE-3, superior values to both parameters (636.40 mPa.s and 4248.97 Pa/s). The oscillating tests verified the elastic character predomination to the three systems. Throughout the thermogravimetry, the profile of the three samples was similar, independent from the kind and concentration of the non-ionic surfactant. The presence of the crystalline gel phase was identified at the three systems, being apparently more pronounced to the SE-2. Either at the microscopic analysis as well as at the laser diffraction were obtained an average size of the particles minor than 6.0 µm. According to OCT results, the particles below 6.0 µm were not possible to be identified and the major particles were suggested be the internal phase of the systems, however new studies should be performed.

Emulsões cosméticas O/A

Gotículas fase interna

Tensoativos não-iônicos

Termogravimetria

Viscoelasticidade

Cosmetic emulsions O/A

Internal phase droplets

Non-ionic surfactant

Termoelasticity

Thermogravimetry

Estudo da adição de produtos vegetais no biodiesel de canola e de girassol visando à estabilidade térmica e oxidativa / A study of the addition of plant products to canola and sunflower biodiesel aiming thermal and oxidative stability

Nícolas Siktar Suveges

06 June 2014

A utilização de antioxidantes sintéticos nas indústrias de biocombustíveis visando prolongar a vida útil destes materiais é comum, porém com a finalidade de se utilizar o maior número de matérias-primas renováveis na produção do biodiesel é que surgiu a ideia de se estudar a adição de produtos vegetais aos biodieseis, pois eles são ricos em compostos fenólicos (os principais responsáveis pela ação antioxidante). O trabalho foi executado em duas etapas, na qual a primeira consistiu em estudar, por meio da termogravimetria (TGA) a influência da adição das folhas de alecrim e da erva mate imersos nos biodieseis de canola e de girassol (ambos produzidos no laboratório) durante o período de 90 dias e na ausência de fatores pró-oxidantes. A segunda etapa consistiu na extração dos extratos vegetais das cascas de laranja, das folhas de alecrim e erva mate, por extração Soxhlet com a utilização do solvente orgânico diclorometano. Os extratos obtidos nesta etapa foram adicionados em diferentes proporções (1.000 mg/L e 2.000 mg/L) aos biodieseis de canola e girassol e expostos a duas diferentes condições. A condição I consistiu em expor os biodieseis aditivados ao ar atmosférico, luz e temperatura ambiente durante 60 dias e a condição II consistiu na exposição dos biodieseis ao aquecimento durante o mesmo período em uma estufa a 60°C. O estudo da influência dessas adições foi acompanhado por TGA e análise do índice de acidez. Ao final, constatou-se que as folhas de alecrim e erva mate diretamente adicionadas aos biodieseis e isolados de fatores pró-oxidação não apresentaram alterações significativas, uma vez que os biodieseis aditivados apresentaram valores de temperatura inicial de degradação (Ti) semelhantes. Por este motivo definiu-se outra etapa do trabalho, na qual os biodieseis aditivados foram expostos a fatores pró-oxidação, podendo-se dessa forma avaliar a eficiência das adições. Em paralelo, fez-se estudo semelhante com o produto sintético butil-hidroxitolueno (BHT), observando-se que nenhum dos extratos vegetais estudados superou sua ação antioxidante. Porém todos os extratos vegetais adicionados nos biodieseis apresentaram ação antioxidante no decorrer dos 60 dias, pois o B100 puro apresentou índice de acidez superior e Ti inferior ao das amostras aditivadas. As amostras aditivadas expostas à condição I apresentaram resultados próximos ao do B100 enquanto que na condição II foi possível observar a ação antioxidante dos extratos naturais e do produto sintético. Observou-se que dentre os biodieseis com extratos vegetais estudados, o B100 de canola com 2.000 mg/L do extrato de casca de laranja e o B100 de girassol com 2.000 mg/L do extrato de erva mate apresentaram melhor estabilidade termooxidativa. / The use of synthetic antioxidants at biofuel factories with the objective of extending the useful life of these fuels is common. However, it was bearing in mind the intent of using the greatest number of renewable resources in the production of biodiesel that the idea of studying the addition of plant products in biodiesel came up. This is because they are rich in phenolic compounds, which are responsible for the antioxidant activity. The study consisted of two stages. The first stage was to study, using thermogravimetry (TGA), the influence of rosemary leaves and yerba mate immersed in canola and sunflower biodiesel (both produced in labs) for a period of 90 days without any pro-oxidant factors. The second stage encompassed the extraction of plant extracts from orange peels, rosemary leaves, and yerba mate by Soxhlet extraction with the use of organic dichloromethane solvents. The extracts obtained at this point were added in different proportions (1,000 mg/L and 2,000 mg/L) in canola and sunflower biodiesel and exposed to two different conditions. The first condition was exposing the modified biodiesel to atmospheric air, light and room temperature during 60 days; the second condition consisted of exposing the biodiesel to heat during the same period in a greenhouse at 60 ºC. The influence of these additions and biodiesel exposures were tracked using TGA and acidity index analyses. At the end, it was clear that adding rosemary leaves and yerba mate directly into biodiesels and isolating them from pro-oxidant factors resulted in no significant contributions coming from these products since both the unmodified biodiesels and the modified biodiesels showed similar Ti values (initial degradation temperature). For this reason, it was necessary to start another work phase, where all biodiesels were exposed to pro-oxidant factors, making possible the analysis of the efficiency of the additions. No plant extract exceeded the antioxidant action of the BHT (butylated hydroxytoluene), however they all showed antioxidant activity during the 60-day period since pure B100 showed higher acidity index levels and lower Ti levels compared to the modified samples. The biodiesels exposed to the first condition showed similar results in the pure B100 and the modified B100, unlike what happened with the samples exposed to heat. When the biodiesels were exposed to heat, the activity of the additives became clearer. It was possible to conclude that among the biodiesels with added plant extracts, the canola B100 added with 2,000 mg/L of orange peel extract and sunflower B100 added with 2,000 mg/L of yerba mate extract showed higher thermal-oxidative stability.

Alecrim

Antioxidantes

Biodiesel

Casca de laranja

Erva mate

Estabilidade oxidativa

Estabilidade térmica

Extrato vegetal

Termogravimetria

Antioxidants

Biodiesel

Orange peel

Oxidative stability

Plant extract

Rosemary

Thermal stability

Thermogravimetry

Yerba mate

Aproveitamento do resíduo do coco verde para produção de compósitos destinados à construção rural / Use of green coconut residue for composites production for rural construction

Camila Lúcio Pereira

09 April 2012

A presente tese apresenta a utilização da fibra da casca do coco verde como reforço de matriz cimentícia para produção de fibrocimentos. Embora orgânico, o resíduo do coco verde apresenta difícil degradação e diminuí da vida útil de aterros sanitários e lixões. Para viabilizar o uso do resíduo do coco verde (fibra), como reforço de compósitos, optou-se por realizar tratamentos físico-químicos nas fibras e, substituir parcialmente o cimento Portland por material pozolânico de alta reatividade (cinza da casca de arroz (CCA)) para diminuir o ataque alcalino da matriz sobre a fibra vegetal. O experimento foi dividido em duas etapas, a primeira avaliou a fibra de coco verde com e sem tratamentos e os compósitos produzidos com elas. A segunda etapa analisou a influência de diferentes níveis de substituição do cimento Portland pela cinza da casca de arroz (CCA). Para preparação dos compósitos foi utilizada a técnica de dispersão das matérias-primas em solução aquosa, seguida de drenagem e prensagem, como uma simulação simplificada do processo Hatschek de fabricação industrial. Os compósitos foram analisados aos 28 dias (período de cura úmida) e após os processos de envelhecimento, 100 ciclos de imersão-secagem e 28 dias em banho térmico (65°C). Ensaios físicos e mecânicos avaliaram o desempenho, a resistência e a ductilidade dos compósitos. A termogravimetria permitiu observar o consumo da portlandita e a queda da alcalinidade da matriz com 50% de substituição do cimento Portland pela CCA, sem afetar a resistência do material. Os resultados obtidos indicam que a fibra do coco verde tem grande potencial para ser utilizada como reforço de fibrocimentos, desde que seja incorporada a uma matriz de alcalinidade reduzida. / This thesis studies the use of green coconut fiber as a reinforcer in the matrix cement for the production of fibre-cement. Besides being an organic material, the green coconut residues are not easily degradable, but can reduce the landfills lifespan. To evaluate the possibility of use of coconut residue fiber, as reinforcer in composites, physical-chemical treatments were carried out on the fibers, and partially replacing Portland cement with pozzolanic materials for high reactivity (rice husk ash (RHA)) was also added to decrease the alkaline attack matrix on the plant fiber. The experiment was divided into two stages: the first assessed the green coconut fiber with and without treatment and the composites produced with them. The second stage examined the influence reinforcer high reactivity to allow the use of coconut fiber as reinforcement in cementitious matrix. In the preparation of the composites, the technique of dispersing the materials in aqueous solution was used, followed by draining and pressing, as a simplified simulation Hatschek process of industrial manufacture. The composites were analyzed after 28 days and after an aging process, with 100 cycles of immersion-drying or heating in water for 28 days at 65°C). Physical and mechanical tests were used to e valuated the performance, traction resistance and ductility of the composites. A thermogravimetry test allowed the observation of the use of portlandita and the alkalinity reduction of the matrix with the addition of RHA, without affecting the resistance of the material. The results obtained indicate that the green coconut fiber has great potential to be used as a fibre-cement reinforcer, as long it is included in a matrix with reduced alkalinity.

Cinza da casca de arroz

Compósito cimentício

Fibra vegetal

Polpa Celulósica

Termogravimetria

Cellulosic pulp

Cement based composite

Rice husk ash

Thermogravimetry

Vegetable fiber

Additives on the Curing of Phenolic Novolak Composites

Lele, Stephen, slele@bigpond.net.au

January 2006

The research programme studied the cure reaction of a phenolic novolak resin and the effects of various additives and fillers on the reaction. The programme utilised the recently developed thermal analysis technique of temperature-modulated differential scanning calorimetry (TMDSC) performed in conjunction with other available thermal analysis techniques. TMDSC enables the signal for the heat of reaction to be separated from the underlying specific heat change in the resin. This meant that the reaction could be studied without interference from any physical changes in the resin. The manufacture of composite brake materials required the use of numerous additives and fillers to produce the desired properties. The influence of such additives on the cure rate and final properties of the resin was known to occur but had not previously been measured due to the difficulties presented by the presence of opaque additives. Some additives also underwent thermally induced physical changes in the temperature range of the cure. The final properties and the processing of new brake materials undergoing development often required trial and error adjustments to compensate for changes in cure rate. An understanding of the influence of additives would enable more rapid commercial development of brake materials through an improvement in the ability to predict both the properties of the product and the optimal processing parameters. Processing efficiency could also be improved through detailed knowledge of the kinetics. Moulding cycle times and post-baking times and temperatures were longer than necessary in order to ensure adequate cure at the end of each stage because of the lack of kinetic data. The cure of phenolic resin has been shown to be highly complicated with numerous alternate and competing reactions. For the manufacture of composite materials, knowledge of the kinetic parameters of individual reactions is not considered to be important; rather the overall kinetic parameters are required for prediction. Therefore the kinetic model parameters that best described the observed behaviour were chosen even though the model had no basis in the molecular interaction theory of reaction. Rather it served as a convenient tool for predictions. Characterisation of the resin proved to be difficult due to the presence of overlapping peaks, and volatile reaction products. TMDSC was successfully used to determine the reaction kinetics of the pure resin and the influence of certain additives on the reaction kinetics. The determination of the kinetic parameters using TMDSC agreed well with the traditional Differential Scanning Calorimetry isothermal and non-isothermal techniques. Both the Perkin-Elmer and TA Instruments were utilised for the research and were found to provide reasonably good agreement with each other. The capabilities and limitations of the individual instruments were critically examined, frequently beyond the manufacturers' specifications. TMDSC suffers from a limitation in the heating rate of the sample compared to DSC. However, it was observed that valuable information could still be obtained from TMDSC despite using heating rates that were higher than specified by manufacturers. Hot Stage Microscopy and thermogravimetry were additional experimental techniques used to aid in the characterisation of the resin. Some inhomogeneity of the resin was identified as well as differences in the behaviour of the cure between open (constant pressure) and closed (constant volume) environments were observed. A novel method of determining the orders of the cure reactions and their kinetic parameters was utilised. Reaction models for the overall cure reactions were postulated and tested by fitment to sections of experimental data in temperature regions which appeared to be free of interference from overlapping peaks. Once an individual peak was reasonably well modelled, adjacent overlapping peaks were able to be modelled both individually and in combinations by fitment to experimental data. The Solver function in Microsoft Excel was utilised to find the best fitting model parameters for the experimental data. The model parameters were able to be refined as overlapping peaks were progressively incorporated into the calculations. This method produced results that agreed well with the traditional method of analysing reaction peak temperatures at multiple scanning rates. Model fitment was shown to be of benefit where overlapping reactions occur. Various model scenarios could be tested and optimised to particular sections of experimental data. This enabled the researcher to easily identify areas of possible anomalies and postulate alternative scenarios. The accuracy of the postulated model was able to be determined by its successful fitment to experimental data from experiments run under different conditions.

MDSC

Hot Stage Optical Microscopy

thermogravimetry

phanolic

novolak

kinetic

model

composite

cure

brake

thermal analysis

characterisation

activation energy

prediction

Etude des mécanismes d'oxydation et de frittage de poudres de silicium en vue d'applications photovoltaïques / Sintering mechanisms and optimisation of Silicon densification for photovoltaic applications

Lebrun, Jean-Marie

24 October 2012

La conversion photovoltaïque présente de nombreux avantages. Actuellement, les technologiesbasées sur l’élaboration de wafers de silicium cristallins dominent le marché, mais sont responsablesde pertes de matières importantes, très néfastes au coût de production des cellules. Le défi à releverest donc la réalisation de matériaux bas coûts en silicium par un procédé de métallurgie des poudres.Cependant, le frittage du silicium est dominé par des mécanismes de grossissement de grains quirendent la densification difficile par frittage naturel. Dans la littérature, l’identification de cesmécanismes est sujette à controverse. En particulier, le rôle de la couche d’oxyde natif (SiO2) à lasurface des particules de silicium reste inexploré. Dans ce manuscrit, l’influence de l’atmosphère surla réduction de cette couche de silice au cours du frittage est étudiée par analysethermogravimétrique. Les cinétiques de réduction sont en accord avec un modèle thermochimiqueprenant en compte, les quantités d’oxygène initialement présentes dans poudre, la pression partielleen espèces oxydantes autour de l’échantillon et l’évolution de la porosité du fritté. Pour la premièrefois, des données expérimentales permettent de montrer que la couche de silice inhibe legrossissement de grain. Des nouveaux procédés, basés sur un contrôle de l’atmosphère enmonoxyde de silicium (SiO(g)) autour de l’échantillon, sont alors proposés afin de maitriser la stabilitéde cette couche. Bien que la couche d’oxyde retarde les cinétiques de diffusion en volume, sonmaintien à des températures de 1300 – 1400 °C permet d’améliorer significativement la densification.Dans ces conditions, le comportement au frittage du silicium peut être séparé en deux étapes,clairement mises en évidences par la présence de deux pics de retrait sur les courbes de dilatométrie.Ce résultat est inhabituel compte tenu de l’aspect monophasé du matériau étudié. Cependant, il peutêtre expliqué à l’aide d’un modèle cinétique de frittage, basé sur des simplifications géométriques enaccord avec l’évolution microstructurale du matériau. / Photovoltaic conversion is a promising energy resource. Bulk crystalline silicon technologies currentlydominate the market but suffer from high material losses that are highly detrimental to solar cellproduction costs. The challenge is then the elaboration of low cost silicon materials through a powdermetallurgy route. However, silicon sintering is dominated by grain coarsening mechanisms thatpreclude densification. Identification of these mechanisms is controversial in the literature. Especially,the role of the native oxide layer (SiO2) at the powder particle surfaces has remained unexplored yet.In this manuscript, the influence of the atmosphere on the reduction of this silica layer is studied usingthermogravimetric analysis. Reduction kinetics is consistent with a thermochemical model taking intoaccount the powder oxygen content, the partial pressure of oxidizing species and the pore morphologyof the sintered material. For the first time, experimental evidences support the idea that the silica layerinhibits grain coarsening. New sintering processes, involving a control of the silicon monoxideatmosphere (SiO(g)) surrounding the sample are then proposed and investigated in order to monitorthe stability of this layer. Stabilization of the silica layer at temperatures as high as 1300 – 1400 °C isshown to enhance densification although it retards lattice diffusion kinetics. In these conditions, thesintering behavior can be divided into two sequential stages marked by two shrinkage peaks on thedilatometric curves. This result is unusual for the sintering of single-phase materials. However, it canbe explained with help of a kinetic model using appropriate geometrical simplifications andobservations of the sample microstructures.

Photovoltaïque

Silicium

Silice

Frittage

Oxydation

Microstructure

Cinétiques

Diagrammes TPS

Procédés

Thermogravimétrie

Dilatométrie

Photovoltaic

Silicon

Silica

Sintering

Oxidation

Microstructure

Kinetics

TPS Diagrams

Processes

Thermogravimetry

Dilatometry

Desenvolvimento de nanocompósitos formados por polianilina, nanotubos de carbono e dióxido de titânio visando a fotodegradação de fármaco

Vargas, Vanessa Mendonça Mendes

12 March 2015

Dentre as tecnologias para tratamento de efluentes, este trabalho abordou processos de oxidação avançada fundamentados no uso de catalisadores heterogêneos, sendo este processo também conhecido por fotocatálise heterogênea. A eficiência desse tipo de processo já é bastante conhecida e reportada na literatura, no entanto, sua aplicação conta com gastos de energia artificial para ativação do catalisador responsável pela degradação de contaminantes. Neste sentido, novos materiais têm sido desenvolvidos para promoverem a fotossensibilização de catalisadores como TiO2, o que viabiliza ativação pela luz visível e aplicações com energia renovável solar. No desenvolvimento de novos catalisadores, os materiais nanoestruturados compósitos, formados por duas ou mais substâncias em contato íntimo, destacam-se pelo sinergismo que confere propriedades singulares ao material. Este trabalho teve como objetivo a síntese, caracterização e aplicação de nanocompósitos formados por polianilina (PANI), TiO2-P25 e NTCs como catalisadores na degradação do fármaco sulfametoxazol sob luz solar simulada. A síntese do catalisador consistiu na polimerização interfacial (água/tolueno) da anilina, contento fase orgânica com NTCs e anilina, e dióxido de titânio na fase aquosa. Diferentes associações dos materiais e concentrações de TiO2 foram testadas e resultaram nos seguintes catalisadores PANI:TiO2, PANI:TiO2-conc, NTC:PANI:TiO2 e NTC:PANI:TiO2-conc. Os materiais foram caracterizados por espectroscopia Raman, difração de raios X, microscopias eletrônicas de varredura e transmissão e análise termogravimétrica. O potencial desses materiais em fotocatálise de sulfametoxazol foi avaliado por um sistema de luz solar simulada. A síntese interfacial resultou em compósitos verdes, cor característica da polianilina. As técnicas de caracterização indicaram a formação de polianilina como uma massa polimérica contendo NTCs e/ou TiO2. O polímero nos compósitos mostrou, por espectroscopia Raman, ser mais polariônico, planar e menos reticulado. Análises termogravimétricas revelaram que os compósitos foram constituídos por cerca de ~ 85 % de TiO2 nas amostras com NTCs e ~ 95 % de óxido nas amostras formadas apenas por polianilina e óxido de titânio. Foi discutido condições fundamentais sobre a determinação da fotossensibilização do TiO 2-P25 por polianilina e NTCs, através de um sistema solar simulado. O catalisador PANI:TiO2-conc mostrou maior capacidade de fotodegradação de sulfametoxazol sob luz solar simulada em relação ao TiO2-P25. Diante disso, o compósito formado por polianilina e TiO2 com baixo percentual de polímero, resultou em um material com maior potencial para aplicações em sistemas solares. / Among the technologies for wastewater treatment, this work addressed advanced oxidation processes based on the use of heterogeneous catalysts, this process is also known as heterogeneous photocatalysis. The efficiency of this type of process is already well known and reported in the literature, however, its application has artificial energy costs for activation of the catalyst responsible for the degradation of contaminants. In this sense, new materials have been developed to promote the photosensitizing catalysts such as TiO2, which enables activation by visible light and solar renewable energy applications. In the development of new catalysts the nanostructured composite materials formed of two or more substances in close contact, stand out due to synergism which confers unique properties to the material. This study aimed to the synthesis, characterization and application of nanocomposites formed by polyaniline (PANI), TiO2-P25 and CNTs as catalysts in the degradation of the drug sulfamethoxazole under simulated sunlight. The catalyst synthesis was the interfacial polymerization (water / toluene) of aniline, containing organic phase with CNTs and aniline, and titanium dioxide in the aqueous phase. Different associations of materials and TiO2 concentrations were tested and resulted in the following catalysts PANI:TiO2, PANI:TiO2-conc, NTC:PANI:TiO2 and NTC:PANI:TiO2-conc. The materials were characterized by Raman spectroscopy, X- ray diffraction, electronic microscopy of scanning and transmission, and thermogravimetric. The potential for these materials in photocatalysis of sulfamethoxazole was evaluated by a simulated solar light system. The interfacial synthesis resulted in a green composite color, characteristic of polyaniline. The characterization techniques indicated the formation of polyaniline as a polymeric mass containing CNTs and / or TiO2. The polymer in the composite showed by Raman spectroscopy, to be more polaronic form, planar, an less reticulation. Thermogravimetric analysis showed that the composite consisted of approximately ~ 85 % TiO2 on samples with CNTs and ~ 95 % oxide in the samples formed only polyaniline and titanium oxide. Was discussed fundamental conditions on determining the photosensitivity of TiO2-P25 by polyaniline and CNTs, through a simulated solar system. The catalyst PANI:TiO2-conc showed higher photodegradation ability to sulfamethoxazole under simulated sunlight compared to TiO2-P25. Thus, the composite formed by polyaniline and TiO 2 with low percentage of polymer, resulted in a material with the greatest potential for applications in solar systems.

Dióxido de titânio

Termogravimetria

Raman, Espectroscopia de

Química ambiental

Tecnologia ambiental

Titanium dioxide

Sewage - Purification - Oxidation

Thermogravimetry

Raman spectroscopy

Environmental chemistry

Green technology