Microfiltration of passion fruit juice using hollow fibre membranes and evaluation of fouling mechanisms

Domingues, Rui Carlos Castro; Ramos, Amanda Araújo; Cardoso, Vicelma Luiz; Reis, Miria Hespanhol Miranda

doi:10.1016/j.jfoodeng.2013.07.037

Cited by 61 publications

(36 citation statements)

References 28 publications

(42 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…There was a great reduction in the turbidity rate after the microfiltration process due to the removal of macromolecules from the raw pulp. Domingues et al (2014) also observed a decrease in turbidity after microfiltration of passion fruit juice. Decrease in turbidity enhances juice commercialization due to lower decantation of suspended solids.…”

Section: Methodsmentioning

confidence: 73%

“…Further, the microfiltration process eliminates microorganisms and compounds which cause juice turbidity (Coutinho et al, 2009;Girard & Fukumoto, 2000). Membrane technology has been largely applied for the processing of some juices, such as apple, tomato, pineapple and passion fruit juices (Domingues, Ramos, Cardoso, & Reis, 2014;Girard & Fukumoto, 2000). Machado, Haneda, Trevisan, and Fontes (2012) analyzed the influence of the microfiltration process on the antioxidant capacity of the obtained permeate of açaí juice and observed that this parameter was reduced by 36 and 27% for açaí juices with and without enzymatic pretreatment, respectively.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Stabilization of açaí (Euterpe oleracea Mart.) juice by the microfiltration process

et al. 2016

Self Cite

View full text Add to dashboard Cite

ABSTRACT. Açaí berry, a Brazilian palm fruit widely distributed in northern South America, is acknowledged for its functional properties such as high antioxidant capacity and anti-inflammatory activities. Although the açaí juice is highly appreciated in Brazil and even worldwide, its commercialization is still limited. Microfiltration process is largely applied in juice processing, eliminating many of the traditional processing steps and reducing time, energy and addition of clarifying agents. Furthermore, microfiltration process may eliminate microorganisms and compounds responsible for turbidity in the juice. Current assay applies a microfiltration process to obtain a stabilized açaí permeate pulp. Microfiltrations of açaí pulp were carried out in a dead end configuration with a flat membrane of 0.22 μm pore size. Permeate pulp was characterized according to its turbidity, lipid concentration and microbiological analysis. . The microfiltration process reduced the initial açaí pulp turbidity by 99.98% and lipids were not identified in the permeate. Microbiological analysis showed that the contamination by microorganism decreased in the permeate pulp when compared to that in raw açaí pulp.Keywords: açaí, stabilization, membrane process, microfiltration.Suco de açaí estabilizado utilizando processo de microfiltração RESUMO. O açaí é um fruto da Amazônia reconhecido por suas propriedades funcionais, devido à sua elevada capacidade antioxidante e anti-inflamatória. Apesar da apreciação do suco de açaí no Brasil e no mundo, sua comercialização ainda é limitada. O processo de microfiltração é largamente aplicado no processamento de sucos, eliminando etapas de processamento tradicionais, reduzindo tempo, energia e adição de agentes de clarificação. Ademais, a microfiltração pode eliminar micro-organismos e compostos responsáveis pela turbidez do suco. Este estudo visou à aplicação do processo de microfiltração para obtenção de permeado estabilizado de polpa de açaí. Microfiltrações da polpa foram realizadas em um módulo de filtração com membrana plana com tamanho de poro de 0,22 μm. O permeado foi caracterizado quanto à turbidez e concentração de lipídeos, além de análises microbiológicas. O fluxo de permeado inicial foi de 103 kg m . A microfiltração reduziu a turbidez inicial da polpa de açaí em 99,98%, e lipídeos não foram identificados no permeado. As análises microbiológicas mostraram que houve diminuição da contaminação por micro-organismos no permeado em relação à polpa de açaí.Palavras-chave: açaí, estabilização, processos de separação por membranas, microfiltração.

show abstract

Section: Methodsmentioning

confidence: 73%

Section: Introductionmentioning

confidence: 99%

Stabilization of açaí (Euterpe oleracea Mart.) juice by the microfiltration process

et al. 2016

Self Cite

View full text Add to dashboard Cite

show abstract

“…Thus, the fouling mechanism most probably occurred due to cake formation, since the molecule size plays a key role in molecule accumulation on the membrane surface (Domingues et al, 2014) The high pressures used in this experiment may have also contributed to the formation of a fouling layer on the membrane surface. According to Mirsaeedghazi et al (2009) and Razi et al (2012), fouling correlates positively with the increase in transmembrane pressure and temperature by increasing the macromolecule diffusion coefficient and favoring penetration and deposition in the membrane pores (Wang et al, 2012).…”

Section: Manufacturing Processmentioning

confidence: 96%

Sustainable alternative for the food industry: converting whey and orange juice into a micro-filtered beverage

Fagnani

Puppio

Zanon

2018

Sci. agric. (Piracicaba, Braz.)

View full text Add to dashboard Cite

Enhancing industrial sustainability by converting whey into alternative high valueadded products is a scientific trend in food science and technology. However, without other ingredients, rennet, or sour, whey has an unappetizing flavor. This sensory challenge can be overcome by blending it with citrus flavor from orange juice. This study assessed a micro-filtered beverage from whey and orange juice without enzymatic treatment. Four formulations (27:10,

show abstract

“…Osmotic evaporation (OE) is a variant of membrane distillation (MD), whose process uses hydrophobic membranes, wherein the pores are filled with the gas phase of the fluid to concentrate, thus preventing water penetration so that only volatile components are transported through the membrane [5]. The vapor partial pressure difference between liquids separated by the membrane is the process' driving force, and its value depends on the temperature and composition of layers adjacent to the membrane surface, whose effect may generate this partial pressure gradient [6,7].…”

Section: Introductionmentioning

confidence: 99%

Computational simulation of concentration by osmotic evaporation of passion fruit juice (Passiflora edullis)

2017

View full text Add to dashboard Cite

Simulación computacional de la concentración por evaporación osmótica del jugo de maracuyá (Passiflora edullis)Simulação computacional da concentração por evaporação osmótica do suco de maracujá (Passiflora edullis) AbstractThis study aimed at implementing a comprehensive strategy for the multiphysics simulation of the osmotic evaporation process applied in the concentration of passion fruit juice. The phenomena of mass and momentum transfer were analyzed in Comsol ® and Matlab ® , using a two-dimensional axial geometry as a simplification of the membrane module. Computer simulations were validated through comparisons with experimental data obtained from osmotic evaporation of passion fruit juice previously ultrafiltrated. The juice was concentrated to 52.25 ± 0.36 (°Brix) of soluble solids, reaching a final flux of 0.63 (kg/m 2 h) after 6 hours. The concentrate retained the organoleptic and physicochemical quality characteristics of the original juice when it was reconstituted in water. The models and simulations developed can be used to describe, analyze, and efficiently improve the osmotic evaporation process applied to the concentration of juices.Keywords: computational simulation; hydrophobic membrane; mass transfer; passion fruit. * Ph.D. Universidad de Antioquia (Medellín-Antioquia, Colombia). freddy.forero@udea.edu.co. ** Universidad del Valle (Cali-Valle, Colombia). adriana.pulido@correounivalle.edu.co. *** Corpoica (Espinal-Tolima, Colombia). kpedroza@corpoica.org.co. ResumenEl objetivo de este estudio fue aplicar una estrategia integral para la simulación multifísica del proceso de evaporación osmótica aplicada en la concentración del jugo de maracuyá. Los fenómenos de transferencia de masa y momento fueron implementados en Comsol ® y Matlab ® , usando una geometría axial en dos dimensiones como simplificación del módulo de membranas, y las simulaciones computacionales fueron validadas por comparación con datos experimentales obtenidos de la evaporación osmótica de jugo de maracuyá previamente ultrafiltrado. El jugo fue concentrado hasta 52.25 ± 0.36 (°Brix) de sólidos solubles, alcanzando un flux final de 0.63 (kg/m 2 h) después de 6 horas. El concentrado conservó las características de calidad organolépticas y fisicoquímicas del jugo original al ser reconstituido en agua. Se comprobó que los modelos y las simulaciones desarrollados pueden ser usados para describir, analizar y mejorar de forma más rápida y eficiente el proceso de evaporación osmótica aplicado a la concentración de jugos.Palabras clave: maracuyá; membrana hidrófoba; simulación computacional; transferencia de masa. ResumoO objetivo deste estudo foi aplicar uma estratégia integral para a simulação multifísica do processo de evaporação osmótica aplicada na concentração do suco de maracujá. Os fenômenos de transferência de massa e momento foram implementados em Comsol® e Matlab®, usando uma geometria axial em duas dimensões como simplificação do módulo de membranas, e as simulações computacionais foram validadas por comparação com dado...

show abstract

Microfiltration of passion fruit juice using hollow fibre membranes and evaluation of fouling mechanisms

Cited by 61 publications

References 28 publications

<b>Stabilization of açaí (<i>Euterpe oleracea</i> Mart.) juice by the microfiltration process

<b>Stabilization of açaí (<i>Euterpe oleracea</i> Mart.) juice by the microfiltration process

Sustainable alternative for the food industry: converting whey and orange juice into a micro-filtered beverage

Computational simulation of concentration by osmotic evaporation of passion fruit juice (Passiflora edullis)

Contact Info

Product

Resources

About