Estudo da influencia da transição vitrea sobre a instantaneização de maltodextrinas por processo de aglomeração umida / Influence of the glass transition temperature on the maltodextrin agglomeration process

Takeiti, Cristina Yoshie

28 February 2007

Orientadores: Fernanda Paula Collares, Theo Guenter Kieckbusch / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia de Alimentos / Made available in DSpace on 2018-08-08T12:08:34Z (GMT). No. of bitstreams: 1 Takeiti_CristinaYoshie_D.pdf: 20201216 bytes, checksum: c1aa9903ccb493780afa2e5957c1db81 (MD5) Previous issue date: 2007 / Resumo: Maltodextrinas são oligossacarídeos solúveis em água, provenientes da hidrólise de amidos. As condições da hidrólise permitem definir a distribuição de massa molecular das maltodextrinas e, conseqüentemente, suas características funcionais podem ser ajustadas para aplicações distintas e específicas. Estes ingredientes são empregados em formulações de pós alimentícios prontos para o consumo e, portanto, o conhecimento de atributos que afetam sua reconstituição em água é determinante para o desenvolvimento desses produtos. Maltodextrinas comerciais com diferentes graus de dextrose-equivalente (DE) e provenientes de três fábricas nacionais distintas foram avaliadas quanto à: morfologia das partículas, teor de umidade, massa molecular, diâmetro médio, densidade aparente e real, porosidade, tempo de molhamento, tempo de dissolução, grau de cristalinidade, isotermas de sorção de umidade e temperatura de transição vítrea (Tg). Os pós comerciais apresentaram características morfológicas distintas, o que influenciou o seu desempenho quanto às propriedades de reconstituição em água. Os produtos que apresentaram características intermediárias de reconstituição foram submetidos a um processo de aglomeração por jato a vapor em mini-instantaneizador para melhorar suas qualidades tecnológicas. As condições de operação foram otimizadas por metodologia de superfície de resposta. O produto aglomerado de maltodextrina com DE igual a 10 apresentou o melhor rendimento e excelentes propriedades instantâneas, enquanto que, a maltodextrina com maior grau de DE, isto é, com menor Tg apresentou o menor rendimento de processo e um produto com piores características de reconstituição. A tendência geral indica que a morfologia e características instantâneas dos aglomerados obtidos foram influenciadas pela temperatura de transição vítrea. Um estudo complementar realizado em leito fluidizado com paredes de acrílico, utilizando soluções de maltodextrina como ligante entre partículas sólidas inertes, avaliou as condições de solidificação das pontes vítreas. A relação umidade vs temperatura obtida confirmou que o processo de aglomeração é influenciado pela massa molecular das amostras e, conseqüentemente, por suas Tgs. Esses parâmetros devem ser considerados no dimensionamento e/ou condições de operação de aglomeradores / Abstract: Maltodextrins are water soluble oligossacharides produced by starch hydrolysis. Their functional characteristics depend on their molecular mass distributions which can be taylormade for specific applications through the control of the process conditions during hydrolysis. Maltodextrin are widely used as ingredient in instant food powder mixes and the knowledge of their reconstitution attributes would assist the development of new formulations. Commercial maltodextrins produced by three different Brazilian manufacturers with dextrose-equivalent (DE) degrees ranging from 5 to 20 were evaluated with respect to morphology, moisture content, molecular mass distribution, average particle diameter, bulk and true densities, void fraction, wetting and dissolution times, crystallinity degree, equilibrium isotherms and glass transition temperature (Tg). The maltodextrin powder showed distinct morphological features, which influenced their water reconstitution abilities. The products with moderate instant properties were submitted to a steam jet agglomeration process in a pilot plant instantiser in order to improve their technological qualities. The operational conditions were optimized by surface response methodology. The general trend indicated that the agglomerates morphology as well as their instant properties are influenced by the glass transition temperature. The DE10 maltodextrin agglomerates showed the best process yield and superior instant properties. The agglomerates of maltodextrin with the highest DE, which has the lowest Tg , showed the lowest yield and poor reconstitution properties. A complementary study, conducted in an Plexiglassÿ fluidized bed equipment using maltodextrin solutions as ligand, evaluated the formation of vitreous bridges between inert particles. The moisture content/temperature relations obtained supported the assumption that the agglomeration process is influenced by the molecular mass of the samples and, consequently, by their Tgs. These parameters should be considered in the design and /or operational conditions of agglomerators / Doutorado / Tecnologia de Alimentos / Doutor em Tecnologia de Alimentos

Plastificação

Aglomeração

Maltodextrina

Dextrose equivalente

Temperatura de transição vítrea

Agglomeration

Maltodextrin

Dextrose-equivalent

Glass transition temperature

Plasticization

Uticaj molekularnih svojstava maltodekstrina na tehnološko ponašanje niskoenergetskih prehrambenih emulzija / Influence of molecular characteristics of maltodextrins on technological behaviour of low-energy food emulsions

Dokić-Baucal Ljubica

10 May 2002

<p>Apstrakt je obrađen tehnologijama za optičko prepoznavanje teksta (OCR).</p><p>Maltodekstini, hidrolizati skroba niskog stepena konverzije (dekstrozni ekvivalent manji od 20), imaju &scaron;iroku upotrebu u prehrambenoj, kozmetičkoj i farmaceutskoj industriji. U prehrambenoj industriji koriste se u niskoenergetskim prehrambenim emulzijama (majonez, salatni prelivi, namazi) kao zamena za masne materije da bi obezbedili viskozitet, poželjne senzorne osobine i smanjenje energetske vrednosti proizvoda.<br />Viskozitet razblaženih rastora maltodekstrina različitog dekstroznog ekvivalenta i botaničkog porekla meren je kapilarnim viskozimetrom i izračunate su vrednosti unutra&scaron;njeg viskoziteta za pojedine maltodekstrine. Vrednosti untra&scaron;njeg viskoziteta i molekulske mase pokoravaju se zavisnosti &Scaron;taudingerove jednačine, iako su molekuli maltodekstrina relativno kratki i ne spadaju u grupu polimera. Utvrđena je mogućnost odredivanja DE- vrednosti viskozimetrijskin putem i izvedene su jednačine za dva opsega DE (5-10 / 10-20).<br />Da bi se ispitalo pona&scaron;anje emulzija sa maltodekstrinima (emulgovanje) u procesnim uslovima, kao i osobine fmalnih proizvoda (tečljivost, mazivost) ispitivana je dinamika emulgovanja, veličina kapljica i reolo&scaron;ko pona&scaron;anje, tj. uticaj različitih faktora na disperzione karakteristike emulzija suncokretovog ulja u vodi stabilizovanih prehrambenim emulgatorom, sa dodatkom maltodekstrina u kontinualnoj fazi.<br />Utvrđeno je da osobine maltodekstina kao &scaron;to je stepen konverzije (DE-vrednost) tj. veličina molekula maltodekstrina, utiču na dispezione i reolo&scaron;ke osobine emulzija. Uticaj koncentracije ulja i maltodekstrina, kao i delimična zamena ulja maltodekstrinom, na osobine emulzija su takode ispitivane. Sa povećanjem koncentracije ulja, pri istoj koncentraciji maltodekstrina u kontinualnoj fazi, emulzije menjaju tip proticanja od pseudoplastičnog preko tiksotropnog do antitiksotrpnog. Atitiksotropija izazvana smicanjem rezultat je formiranja unutra&scaron;nje strukture emulzije usled povezivanja kapljica ulja preko molekula maltodekstrina kao i orijentacije i deformacije kapljica ulja i maltodekstrina.<br />Dodatkom maltodekstrina za pri istoj koncentraciju ulja i vremenu emulgovanja dobijene su se emulzije sitnijih kapi.<br />Emulzije sa niskom koncentracijom ulja (30%) sa maltodekstrinom u kontinualnoj fazi bile su nestabilne i pokazivale efekat isplivavanja na povr&scaron;inu (creaming), &scaron;to je posledica interakcija molekula maltodekstrina i molekula emulgatora Tween 80 u kontinualnoj fazi i na povr&scaron;ini kapi.</p> / <p>Abstract was processed by technology for Optical character recognition (OCR).</p><p>Maltodextrins, low converted products of starch hydrolysis (dextrose equivalent less than 20), have been subject of various investigations due to their wide application in food industry, cosmetics and pharmaceuticals. They are used in various low energy food emulsions (mayonnaise, salad dressing, spreads) as fat replacer to provide desirable viscosity, texture and sensory fat-like mouthfeel.<br />Viscosity of diluted maltodextrin solutions of different dextrose equivalent and botanical origin were determined by capillary visometer and intrinsic viscosity [q] of each tested maltodextrin was calculated. The values of [q] together with molecular mass M have shown applicability of Staudinger equation, regardless maltodextrin molecules are rather short. The possibility for the determination of DE-values of maltodextrins by viscometric method has been deduced and the equation was calculated for two ranges of DE (5-10/ 10-20).<br />In order to assess behavior of sunflower oil in water emulsions stabilized with food grade emulsifier with addition of maltodextrins in continuous phase in processing (emulsification), as well as end products in application (pouring, spreading) the emulsification dynamics, globule size changes and rheological behavior, as well as, the influence of different factors on dispersion characteristics of such emulsions were studied.<br />Dispersion and viscous properties of emulsions were influenced by certain specific maltodextrin characteristics such as degree of conversion (DE value) i.e. size of maltodextrin molecules. Influence of oil and maltodextrin concentration and partial substitution of oil with equivalent quantity of maltodextrin were investigated too. With increase of oil concentration at the same concentration of maltodextrin in continuous phase, emulsions undergo changes in flow type from shear-thinning to thixotropic and antithixotropic. Antithxotropy induced by shear, was result of formation of network due to two competing factors; linking of oil droplets through maltodextrin molecules as well as orientation of deformed oil droplets and maltodextrin molecules.<br />Addition of maltodextrin, at the same oil concentration and emulsification time, resulted in formation of emulsions with smaller oil droplets.<br />Emulsions with low oil concentration (30%) with maltodextrin in continuous phase were unstable, showing so called creaming effect. This was mainly due to interactions between maltodextrin and emulsifier Tween 80 molecules which took place in continuous phase and on droplet surfaces.</p>