Classificação de biodiesel na região do visível

Véras, Germano; Brito, Anna Luiza Bizerra de; Silva, Adenilton Camilo da; Silva, Priscila da; Costa, Gabriela Maria Cavalcanti; Félix, Lorena Cristina Nóbrega; Fernandes, David; Fontes, Marcelo M. de

doi:10.1590/s0100-40422012000200015

Cited by 9 publications

(9 citation statements)

References 7 publications

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“…A Figura 5a mostra um exemplo típico encontrado (no caso para o envelhecimento a 60° C) indicando que realmente ocorrem alterações significativas das bandas de absorção nessas regiões, com 4 picos que podem ser visualizados nas regiões de absorção próximas aos comprimentos de onda de 205, 225, 268 e 278 nm. Os dois picos de comprimentos de absorções menores têm sido interpretados como transições eletrônicas do tipo ππ* que ocorrem em dienos e trienos com ligações duplas isoladas e conjugadas respectivamente (VOIGT, 2009;GOMES, 2013;VÉRAS et al, 2012). Quanto maiores forem os valores de absorbância próximo a 220 nm, mais elevado será o conteúdo em peróxidos, ou seja, dienos conjugados (produtos da oxidação primária), correspondente, portanto, ao processo de oxidação.…”

Section: (A) (B)unclassified

Influência Da Degradação Fototermoxidativa Nas Propriedades De Biocombustiveis De Sebo Bovino

Pinto

Souza

Santos

et al. 2015

HOLOS

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RESUMOPreparou-se ecodieseis B15 e B20 com biodiesel produzido a partir do sebo bovino. Fez-se a caracterização físico-química de ambos e monitorou-se sua qualidade em função do tempo de armazenamento. Estudou-se a estabilidade térmica através da degradação fototermoxidativa do biodiesel em diferentes temperaturas por absorção molecular na região do UVVis. Os resultados indicam alterações ao longo do tempo de armazenamento, provocadas pela degradação molecular, que é confirmada no UV-Vis. Conclui-se que a metodologia é adequada para o estudo fototermoxidativo destes materiais e que após 7 meses, as propriedades analisadas continuam dentro dos padrões da ANP, exceto a viscosidade cinemática. PALAVRAS-CHAVE:Sebo Bovino, ecodiesel, Estabilidade Termoxidativa. INFLUENCE OF PHOTOTERMOXIDATIVE DEGRADATION IN PROPERTIES OF BIOFUELS OF BEEF TALLOW ABSTRACTPrepared ecodieseis B15 and B20 with biodiesel produced from beef tallow. The physical and chemical characterization of both and their quality was monitored as a function of time of storage. Thermal stability was studied by phototermoxidative biodiesel degradation at different temperatures by molecular absorption in the UV-Vis. The results indicate changes over time, caused by storage molecular degradation, which is confirmed in the UV-vis. It is concluded that the methodology is appropriate to the phototermoxidative study of these materials and that after seven months, the properties analyzed remain within the standards of the ANP, except the kinematic viscosity.

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Section: (A) (B)unclassified

Influência Da Degradação Fototermoxidativa Nas Propriedades De Biocombustiveis De Sebo Bovino

Pinto

Souza

Santos

et al. 2015

HOLOS

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“…La ventaja de una herramienta óptica es por su versatilidad ya que en general no es necesario preparar la muestra. Entre las técnicas espectroscópicas ópticas empleadas comúnmente para analizar biocombustibles se encuentran la absorción UV-vis y de infrarrojo [24][25][26][27]. Particularmente, una técnica óptica no invasiva que ha venido ganando una posición importante en el análisis de sustancias líquidas o sólidas es la espectroscopia Raman [16][17][18][19][20][21][22][23][28][29][30].…”

Section: Introductionunclassified

Nanofotónica en el análisis de biocombustibles

Paez-Sierra

Cardona

2018

Ingeniare. Rev. chil. ing.

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RESUMENActualmente uno de los retos energéticos es la búsqueda de alternativas para suplir anticipadamente el futuro agotamiento del petróleo a nivel mundial, y que además sean favorables con el medio ambiente. En especial los biocombustibles se han convertido en una de las propuestas más favorables para cubrir las actuales demandas del petróleo. Los biocombustibles son producidos de organismos vivos o de subproductos metabólicos (orgánicos o de desechos alimentarios). En este artículo se presenta una aplicación particular de la nanofotónica en el marco de la interacción de la luz con la materia denominada espectroscopia Raman de señal magnificada. Como muestra de control se considera el biodiésel y su mezcla con diésel, la razón se debe a la necesidad de establecer métodos de análisis durante el proceso de producción que podrían servir como cuantificador del grado de integridad al ser mezclado con diesel.Palabras clave: Biocombustibles, biodiésel, SERS, espectroscopia Raman, nanofotónica, sensórica. ABSTRACT Currently one of the energetic challenges is to look for environmentally friendly alternatives that would fulfill in advance the future shortage of oil in the world. Especially, biofuels have turned into one of the most favorable proposals to overcome current demands of the oil. Biofuels are produced from living organisms or from metabolic by-products (organic or food waste products). In this paper a particular application of nanophotonics in the frame of the interaction between light and matter through SurfaceEnhanced Raman spectroscopy (SERS) is addressed. As a test prove aBiodiésel sample is considered, the reason relies on the necessity to establish analysis procedures either to be performed during the production or as a quantifying tool to probe integrity during the blending process with diesel.

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“…The importance of feedstock type for the quality of biodiesel has motivated the development of analytical methods to certify the base oil employed in the production process. Within this scope, several investigations have been concerned with the use of near-infrared (NIR) or UV-vis spectroscopy [12][13][14]. Balabin and Safieva [12], Veras et al [13], and Veras et al [14] employed biodiesel samples produced from nine (sunflower, coconut, palm, rapeseed, cottonseed, castor, jatropha, linseed, used frying oil), four (cotton, sunflower, soybean, canola), and three (cotton, soybean, sunflower) types of vegetable oil, respectively.…”

Section: Introductionmentioning

confidence: 99%

“…It is worth noting that none of these papers [12][13][14] was concerned with the use of corn oil, which is an important feedstock for biodiesel production. Indeed, according to Szulczyk and McCarl [15], corn oil is the primary feedstock for biodiesel in the United States, followed by soybean oil.…”

Section: Introductionmentioning

confidence: 99%

Screening analysis of biodiesel feedstock using UV–vis, NIR and synchronous fluorescence spectrometries and the successive projections algorithm

Insausti

Gomes

Cruz

et al. 2012

Talanta

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This paper investigates the use of UV-vis, near infrared (NIR) and synchronous fluorescence (SF) spectrometries coupled with multivariate classification methods to discriminate biodiesel samples with respect to the base oil employed in their production. More specifically, the present work extends previous studies by investigating the discrimination of corn-based biodiesel from two other biodiesel types (sunflower and soybean). Two classification methods are compared, namely full-spectrum SIMCA (soft independent modelling of class analogies) and SPA-LDA (linear discriminant analysis with variables selected by the successive projections algorithm). Regardless of the spectrometric technique employed, full-spectrum SIMCA did not provide an appropriate discrimination of the three biodiesel types. In contrast, all samples were correctly classified on the basis of a reduced number of wavelengths selected by SPA-LDA. It can be concluded that UV-vis, NIR and SF spectrometries can be successfully employed to discriminate corn-based biodiesel from the two other biodiesel types, but wavelength selection by SPA-LDA is key to the proper separation of the classes.

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Classificação de biodiesel na região do visível

Cited by 9 publications

References 7 publications

Influência Da Degradação Fototermoxidativa Nas Propriedades De Biocombustiveis De Sebo Bovino

Influência Da Degradação Fototermoxidativa Nas Propriedades De Biocombustiveis De Sebo Bovino

Nanofotónica en el análisis de biocombustibles

Screening analysis of biodiesel feedstock using UV–vis, NIR and synchronous fluorescence spectrometries and the successive projections algorithm

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