Submitted by Sandra Pereira (srpereira@ufrrj.br) on 2016-10-13T11:27:52Z
No. of bitstreams: 1
2011 - Cristiany Oliveira Bernardo.pdf: 1740458 bytes, checksum: ae55b89b5f70448972ad5987c95450b1 (MD5) / Made available in DSpace on 2016-10-13T11:27:52Z (GMT). No. of bitstreams: 1
2011 - Cristiany Oliveira Bernardo.pdf: 1740458 bytes, checksum: ae55b89b5f70448972ad5987c95450b1 (MD5)
Previous issue date: 2016-02-26 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior - CAPES / Among the different possibilities of use in the food industry, ultrasound can be considered an alternative to substitute or reduce the use of chemicals in extraction processes or modification of starches. When used in the extraction, enables higher purity of the obtained starch. The starch-the-air yam has physical characteristics desirable for applications such as thickening agent or disintegrating tablet formulations, for example, however, this extraction is hindered by the presence starch mucilage this tubercle. The aim of this study was to review the effect of ultrasound on the extraction and modification of several starches, evaluate their use in starch extraction of yam and its impact on characteristics this starch. After evaluating the chemical composition of tubers, previously washed, peeled and crushed in a blender. Then the crushed sample subjected to ultrasound. Different times (3, 6 to 9 minutes) and amplitudes (12, 40 and 68%) were evaluated by the Box Benker experimental design, furthermore evaluated the control treatment (0% amplitude) and ?T6? (15 minutes, 70% amplitude), totaling 7 treatments (T1, T2, T3, T4, T5, T6 and control). After sonication, the suspension was filtered and the extraction continued by successive washings, centrifugation and drying in an oven. After evaluating the performance of the extraction, the different treatments were characterized by analysis of chemical composition, instrumental analysis of color, scanning electron microscopy, optical microscopy, particle size, pattern of crystallinity, swelling power and solubility, paste clarity, paste properties and thermal properties and absolute density. There was increase in yield of 29,85% (control) to 32,09%, when used longer time and amplitude (15 min and 70% amplitude). The ultrasound caused damage to the surface of starch and reduced starch crystallinity peak, characterized as type B. Additionally, increased swelling power and consequently the paste viscosity of some treatments. However, 15 minutes, 70% amplitude (T6), reduced the swelling power, the paste viscosity and paste clarity and increased the setback. Therefore, despite the small increase in yield, when used ultrasound during extraction, damage was caused in the structure of starch, as well as changes in its physical and chemical characteristics / Dentre as diferentes possibilidades de utiliza??o na ind?stria de alimentos, o ultrassom pode ser considerado uma alternativa para substituir ou reduzir a utiliza??o de subst?ncias qu?micas em processos de extra??o ou modifica??o de amidos. Quando utilizado na extra??o, possibilita maior pureza do amido obtido. O amido de car?-do-ar possui caracter?sticas f?sicas desej?veis para aplica??es como agente espessante ou desintegrante em formula??es de comprimidos, por exemplo. No entanto, a extra??o desse amido ? dificultada pela presen?a de mucilagem nesse tub?rculo. O objetivo do presente estudo foi revisar o efeito do ultrassom na extra??o e modifica??o de diversos amidos, como milho, arroz, mandioca, batata, entre outros, avaliar sua utiliza??o na extra??o do amido de car?-do-ar e seu impacto sobre as caracter?sticas desse amido. Ap?s avaliar a composi??o centesimal do car?-do-ar, o mesmo foi lavado, descascados e triturados em liquidificador. Em seguida a amostra triturada foi submetida ao ultrassom. Diferentes tempos (3, 6 e 9 minutos) e amplitudes (12, 40 e 68%) foram avaliados por meio do planejamento experimental Box Benker. Al?m desses foram avaliados os tratamentos controle (0% amplitude) e T6 (15 minutos, 70% amplitude), totalizando 7 tratamentos (T1, T2, T3, T4, T5, T6 e controle). A extra??o prosseguiu por meio de filtra??o, lavagens sucessivas, centrifuga??o e secagem em estufa. Ap?s avaliar o rendimento da extra??o, os diferentes tratamentos foram caracterizados por meio das an?lises de composi??o centesimal, an?lise instrumental de cor, poder de inchamento e solubilidade, claridade de pasta, determina??o das propriedades t?rmicas e propriedades de pasta, padr?o de cristalinidade, microscopia eletr?nica de varredura, microscopia ?ptica, determina??o do tamanho de part?cula e densidade absoluta do amido. Houve aumento do rendimento de 29,85% (controle) para 32,09%, quando utilizado o maior tempo e amplitude (15 min e 70% amplitude). O ultrassom provocou danos na superf?cie do amido e reduziu os picos de cristalinidade do amido, caracterizados como tipo B. Al?m disso, aumentou o poder de inchamento e consequentemente a viscosidade de pasta de alguns tratamentos. No entanto, 15 minutos e 70% de amplitude (T6), do tratamento com ultrassom, reduziu o poder de inchamento, a viscosidade de pasta e a claridade de pasta e aumentou a tend?ncia ? retrograda??o. Dessa forma, apesar do pequeno aumento do rendimento quando utilizado o ultrassom durante a extra??o, danos foram provocados na estrutura desse amido, assim como altera??es das suas caracter?sticas f?sico-qu?micas.
Identifer | oai:union.ndltd.org:IBICT/oai:localhost:jspui/1287 |
Date | 26 February 2016 |
Creators | Bernardo, Cristiany Oliveira |
Contributors | Ascheri, Jos? Luis Ram?res, Carvalho, Carlos Wanderlei Piler de, Nascimento, Maria Rosa Figueiredo, Torrezan, Renata |
Publisher | Universidade Federal Rural do Rio de Janeiro, Programa de P?s-Gradua??o em Ci?ncia e Tecnologia de Alimentos, UFRRJ, Brasil, Instituto de Tecnologia |
Source Sets | IBICT Brazilian ETDs |
Language | Portuguese |
Detected Language | English |
Type | info:eu-repo/semantics/publishedVersion, info:eu-repo/semantics/masterThesis |
Format | application/pdf |
Source | reponame:Biblioteca Digital de Teses e Dissertações da UFRRJ, instname:Universidade Federal Rural do Rio de Janeiro, instacron:UFRRJ |
Rights | info:eu-repo/semantics/openAccess |
Relation | REFER?NCIAS BIBLIOGR?FICAS ALVES, L. L. et al. O ultrassom no amaciamento de carnes. Ci?ncia Rural, v.43, n.8, p.1522-1528, 2013. AMINI A. M. et al. Morphological, physicochemical, and viscoelastic properties of sonicated corn starch. Carbohydrate Polymers, v.122, p.282?292, 2015. AOAC. Official methods of analysis of the Association Analytical Chemists. 18. ed. Gaithersburg, Maryland, 2005. AOCS. American Oil Chemists? Society. Official Method Am 5-04, rapid determination of oil/fat utilizing high temperature solvent extraction. Urbana: ?Official Methods and Recommended Pratices of the American Oil Chemists? Society, 2005. BILIADERIS, C. G. Physical characteristics, enzymatic digestibility, and structure of chemically modified smooth pea and waxy maize starches. Jornal of Agricultural and food Chemistry, v.30, p.925-930, 1982. BRASIL. Agencia nacional de vigil?ncia sanit?ria. Resolu??o RDC n? 360, de 23 de dezembro de 2003. Aprova regulamento t?cnico sobre rotulagem nutricional de alimentos embalados. D.O.U. ? Di?rio oficial da Uni?o; Poder executivo, de 26 de dezembro de 2003. CANEVAROLO JUNIOR, S. V. T?cnicas de caracteriza??o de pol?meros. S?o Paulo: Artliber, 2004. p. 17-361. CASTRO, A.P. et al. Etnobot?nica das variedades locais do car? (Dioscorea spp.) cultivados em comunidades no munic?pio de Caapiranga, estado do Amazonas. Acta Botanica Brasilica, v.26, n.3, p.658-667, 2012. CRAIG, S.A.S. et al. Starch Paste Clarity. Cereal Chemistry, v.66, n.3, p.173-182, 1989. CHUNG, K. M. et al. Physicochemical properties of sonicated mung bean, potato and rice starches. Cereal Chemistry, v.79, p.631-633, 2002. CHU, E. P.; RIBEIRO, R.C.L.F. Native and exotic species of Dioscorea used as food in Brazil. Economic Botany, v.45, n.4, p. 467-479, 1991. FRANCO, C.M.L.; DAIUTO,E.R.; DEMIATE,I.M.; CARVALHO,L.J.C.B.; LEONEL,M.; CEREDA, M.P.; VILPOUX, O.F.; SARMENTO, S.B.S. (2002). Culturas de Tuberosas amil?ceas latino americanas Propriedades gerais do amido. Funda??o Cargill, Campinas. FRANCO, C. M. L. et al. Structural and functional characteristics of selected soft wheat starches. Cereal Chemistry, v.79, p.243-248, 2002. FU, Y. C. et al. The influence of mucin and cellulose on the yield of yam starch. Journal of the Agricultural Association of China, v.3, p.216?227, 2002. FU,Y.; HUNG, C.; HUANG, P. Minimal processing of mucilage from the pulp of yam (Dioscorea pseudojaponica Yamamoto) using bubble separation and ultraviolet irradiation. Innovative Food Science and Emerging Technologies, v.26, p.214?219, 2014. GERNAT, C., RADOSTA, S., & DAMASCHUN, G. Supramolecular structure of legume starches revealed by X-ray scattering. Starch/St?rke, v.28, p.175?178, 1990. GOMES, A. M. M.; SILVA, C. E. M.; RICARDO, N. M. P. S. Effects of annealing on the physicochemical properties of fermented cassava starch (polvilho azedo). Carbohydrate Polymers, v.60, n.1, p.1-6, 2005. HAAJ, S. B. et al. Starch nanoparticles formation via high power ultrasonication. Carbohydrate Polymers, v.92, n.2, p.1625?1632, 2013. HASHIM, D.B. The effect of low levels of antioxidants on the sweeling and solubility of cassava starch. Starch/St?rke , v.44, n.3, p.471-475, 1992. HUANG, Q.; LI, L.; FU, X. Ultrasound effects on the structure and chemical reactivity of cornstarch granules. Starch/St?rke, v.59, p.371?378, 2007. 42 HU, A. et al. Ultrasonically aided enzymatical effects on the properties and structure of mung bean starch. Innovative Food Science and Emerging Technologies, v.20, p.146?151, 2013. HU, A. et al. Ultrasonic frequency effect on corn starch and its cavitation. LWT - Food Science and Technology, v.60, n.2, p.941-947, 2015. IZIDORO, D. R. Physical and chemical properties of ultrasonically, spray-dried green banana (Musa cavendish) starch. Journal of Food Engineering, v.104, p.639?648, 2011. JANE, J. Structural features of starch granules. In: BEMILLER, J.; WHISTLER, R. Starch: Chemistry and Technology. Burlington: Elsevier, 2009. Cap.6, p.193-227. JAMBRAK, A. R. et al. Ultrasound effect on physical properties of corn starch. Carbohydrate Polymers, v.79, n.1, p.91?100, 2010. JIANG, Q. et al. Characterizations of starches isolated from five different Dioscorea L. species. Food Hydrocolloids, v.29, n.1, p.35-41, 2012. LAKE, E.C.et al. Ecological host-range of Lilioceris cheni (Coleoptera: Chrysomelidae), a biological control agent of Dioscorea bulbifera. Biological Control, v.85, p.8?24, 2015. LIN, J. H. et al. Influence of molecular structural characteristics on pasting and thermal properties of acid-methanol-treated rice starches. Food Hydrocolloids, v.26, n.2, p.441-447, 2012. MANCHUN, S. et al. Effect of ultrasonic treatment on physical properties of tapioca starch Advanced Materials Research, v.506, p.294-297, 2012. MASON, T. J. 1990. A general introduction to sonochemistry. In: MASON, T. J., (Ed.), Sonochemistry: The Uses of Ultrasound in Chemistry, The Royal Society of Chemistry, Cambridge, UK, p. 1?8. MAJZOOBI, M.; HEDAYATI, S.; FARAHNAKY, A. Functional properties of microporous wheat starch produced by ?-amylase and sonication. Food Bioscience, v.11, p.79?84, 2015. NUNES, L.B.; SANTOS, W. de J.; CRUZ, R. S. Rendimento de extra??o e caracteriza??o qu?mica e funcional de f?culas de mandioca da regi?o do semi-?rido baiano. Alimentos e Nutri??o - Brazilian Journal of Food and Nutrition, v.20, n.1, p.129-134, 2009. OTEGBAYO, B.; OGUNIYAN, D.; AKINWUMI, O. Physicochemical and functional characterization of yam starch for potential industrial applications. Starch, v.66, n.3-4, p.235?250, 2014. PARK et al. Rapid isolation of sorghum and other cereal starches using sonication. Cereal Chemistry, v.83, n.6, p.611?616, 2006. PARK, D.; HAN, J. Quality controlling of brown rice by ultrasound treatment and its effect on isolated starch. Carbohydrate Polymers, v.137, p.30?38, 2016. PINTO, V.Z. et al. Effects of single and dual physical modifications on pinh?o starch. Food Chemistry, v.187, p.98-105, 2015. RAINA, C. S. et al. Some characteristics of acetylated, cross-linked and dual modified Indian rice starches. European Food Research and Technology, v.223, p.561?570, 2006. SILVA et al. Particle sizing measurements in pharmaceutical applications: Comparison of in-process methods versus off-line methods. European Journal of Pharmaceutics and Biopharmaceutics, n.85, p.1006?1018, 2013. SUJKA, M; JAMROZ, J. Ultrasound-treated starch: SEM and TEM imaging, and functional behavior. Food Hydrocolloids, v.31, p.413-419, 2013. SUSLICK, K.S., 1988. Ultrasound: its chemical, physical, and biological effects. In: SUSLICK, K.S., (Ed.), Ultrasound, VCH Press, New York. TESTER, R. F.; MORRISON, W. R. Swelling and gelatinization of cereal starches. ?. Effects of amylopectin, amylose, and lipids. Cereal Chemistry, v.67, n.6, p.551- 557, 1990. TSAI, M.L.; LI, C.F.; LII, C.Y. Effects of granular strutctures on the pasting behaviors of starches. Cereal Chemistry, v.74, n.6, p.750-757, 1997. WANG, L.; WANG, Y. Rice starch isolation by neutral protease and high-intensity ultrasound. Journal of Cereal Science, v.39, p.291?296, 2004. WHISTLER, R. L.; BEMILLER, J. N. Starch: Carbohydrate chemistry for food scientists. Saint Paul: AACC, Eagan Press, 1997. p. 117-151. ZHANG, Z. et al. Sonication Enhanced Cornstarch Separation. Starch, v.57, p.240?245, 2005. ZHANG, L. et al. Ultrasound effects on the acetylation of Dioscorea starch isolated from Dioscorea zingiberensis C.H. Wright. Chemical Engineering and Processing, v.54, p.29? 36, 2012. ZHU, J. et al. Study on supramolecular structural changes of ultrasonic treated potato starch granules. Food Hydrocolloids, v.29, n.1, p.116-122, 2012. ZOBEL, H. F. Molecules to granules ? a comprehensive starch review. Starch, v. 40, p. 44?50, 1988 |
Page generated in 0.0036 seconds