Supercritical CO2 Extraction of Extracted Oil from Pistacia lentiscus L.: Mathematical Modeling, Economic Evaluation and Scale-Up.

In this study, the extracted oil of Pistacia lentiscus L. the Tunis region was extracted using supercritical carbon dioxide (SC-CO2) extraction containing different major components in the oil such as α-pinene (32%) and terpinene-4-ol (13%). The investigation of the effect of different variables on the extraction yield with 5% level of confidence interval showed that the CO2 pressure was the main significant variable to influence the oil yield. In order to better understand the phenomena, three parameters were considered to adjust all parameters of broken and intact cell (BIC) model: grinding efficiency (G), the internal mass transfer parameter ( k S a 0 ), and the external mass transfer parameter ( k f a 0 ), which were estimated by experimental extraction curves to calculate the diffusion coefficient. From an economic point of view, we found out that the high cost of production of the extracted oil was due to the low mass of extracted oil obtained from this type of plant.

Incorporation of ß-glucans in meat emulsions through an optimal mixture modeling systems.

The effects of ß-glucans (ßG) in beef emulsions with carrageenan and starch were evaluated using an optimal mixture modeling system. The best mathematical models to describe the cooking loss, color, and textural profile analysis (TPA) were selected and optimized. The cubic models were better to describe the cooking loss, color, and TPA parameters, with the exception of springiness. Emulsions with greater levels of ßG and starch had less cooking loss (<1%), intermediate L* (>54 and <62), and greater hardness, cohesiveness and springiness values. Subsequently, during the optimization phase, the use of carrageenan was eliminated. The optimized emulsion contained 3.13 ±â€¯0.11% ßG, which could cover the intake daily of ßG recommendations. However, the hardness of the optimized emulsion was greater (60,224 ±â€¯1025 N) than expected. The optimized emulsion had a homogeneous structure and normal thermal behavior by DSC and allowed for the manufacture of products with high amounts of ßG and desired functional attributes.

Effect of extrusion temperature and screw speed on properties of oat and rice flour extrudates.

BACKGROUND: Whole oat and rice flours were mixed to develop instant flours by a high pressure and low mechanical shear extrusion process. The screw profile was designed aiming to obtain an infant food with gelatinized starch and high hydration ability. Response surface methodology was selected to study the impact of operating parameters such as temperature and screw speed (73-186 °C; 109-391 rpm) on physicochemical and pasting properties of the final extruded product. The main challenge of this study was to process high oats content, since they are characterized by high lipid and fiber content, which impact on material processing. RESULTS: The optimal response was achieved at 170 °C and 350 rpm. The optimal expansion ratio, bulk density, water absorption index, and water solubility index were 2.24, 289.65 kg m-3 , 6.42 g g-1 , and 4.75 g g-1 respectively. Overall, both temperature and screw speed affected the responses studied, except for water absorption index (only screw speed affected this response). Although lipids from oats reduce the expansion ratio of extrudates compared with samples containing higher starch proportions, their lipids protect the starch granules from mechanical degradation when higher screw speed values are used. As a result, both ungelatinized and gelatinized starches may be found in extrudates, which was confirmed by pasting property analyses. CONCLUSION: High oat content may be efficiently processed by optimizing the extruder conditions (temperature, screw speed, and profile), improving the nutritional properties of the final product. © 2017 Society of Chemical Industry.

Physicochemical comparison of commercial VS. extracted ß-glucans and structural characterization after enzymatic purification / Comparación fisicoquímica entre ß-glucanos comerciales y extraídos, y caracterización estructural después de purificación enzimática

Background: ß-glucans (1-3: 1-4) are soluble fibers applied to foods due to their technological properties (water binding capacity, viscosity, emulsification and stabilization) and their beneficial effects on health. The functional properties of ß-glucans can be lost during the extraction and purification processes. The high viscosity of ß-glucans is related to a high molecular weight and its physiological properties in the intestine. Therefore, to characterize the fiber after its extraction and purification is fundamental to understand its possible applications in foods. Objectives: characterize ß-glucans extracted (EßG) and compare them with three commercial ß-glucans (CßG-A, CßG-B and CßG-C) to identify its possible applications in foods and to evaluate if enzymatic purification affects molecular and structurally the ß-glucans. Methods: barley ß-glucans were extracted (EßG), characterized by chemical analyzes, rheological behavior, and color, and compared to three commercial ß-glucans samples. Then, the extract was purified and its structural and molecular characteristics were calculated. Results: EßG contained 64.38 ± 3.54% of ß-glucans, high starch contamination (12.70 ± 1.73%), high content of calcium (8894 mg/kg), pseudoplastic behavior, and dark color (L* = 52.77 ± 0.7). All commercial samples showed low starch contamination, lighter color, and Newtonian behavior. After purification starch and protein contamination decreased (0.85 ± 0.46% and 5.50 ± 0.12% respectively), increased the content of ßG (69.45 ± 0.81%) and increased brightness (L* = 92.60 ± 1.70). Purified ß-glucans (PßG) showed a molar weight of 690 ± 1.6 kDa and species with degree polymerization 3 (DP3) to 11 (DP11) were identified on the structure. Conclusions: EßG extracts before the purification presented a high viscosity and contamination. The enzymatic purification process was effective and allowed to maintain a high molar mass of PßG and its distinctive molecular structures (species with DP3 and DP4). The commercial samples CßG-A and CßG-B showed a low content of ß-glucans. Finally, CßG-C presented the best physicochemical and rheological properties for its subsequent application in food.

Antecedentes: los ß-glucanos (1-3: 1-4) son fibras solubles aplicadas a los alimentos debido a sus propiedades tecnológicas (capacidad de retención de agua, viscosidad, emulsificación y estabilización) y a sus efectos beneficiosos en la salud. Las propiedades funcionales de los ß-glucanos pueden perderse durante los procesos de extracción y purificación. La alta viscosidad de los ß-glucanos está relacionada con un alto peso molecular y con sus propiedades fisiológicas en el intestino. Por lo tanto, caracterizar la fibra después de su extracción y purificación es fundamental para comprender sus posibles aplicaciones en alimentos. Objetivos: caracterizar ß-glucanos extraídos (EßG) y compararlos con tres marcas comerciales (CßG-A, CßG-B y CßG-C) para identificar su futura aplicación en alimentos y evaluar si la purificación enzimática afecta molecular y estructuralmente los ß-glucanos. Métodos: se extrajeron ß-glucanos de cebada (EßG), caracterizados por análisis químicos, comportamiento reológico y color, y se compararon con tres muestras comerciales. Posteriormente, el extracto (EßG) se purificó y se identificaron sus características estructurales y su peso molecular. Resultados: EßG contenía 64.38 ± 3.54% de ß-glucanos, alta contaminación con almidón (12.70 ± 1.73%), alto contenido de calcio (8894 mg / kg), comportamiento pseudoplástico y color oscuro (L* = 52.77 ± 0.7). Todas las muestras comerciales mostraron una baja contaminación con almidón, color más claro y comportamiento newtoniano. Después de la purificación de EßG, la contaminación con almidón y proteína disminuyó (0.85 ± 0.46% y 5.50 ± 0.12%, respectivamente), aumentó el contenido de ßG (69.45 ± 0.81%) y aumentó su luminosidad (L* = 92.60 ± 1.70). Los ß-glucanos purificados (PßG) mostraron un peso molar de 690 ± 1,6 kDa y se identificaron en la estructura especies con grado de polimerización desde 3 (GP3) hasta 11 (GP11). Conclusiones: los EßG antes de la purificación presentaron alta viscosidad y contaminación. El proceso de purificación enzimática fue efectivo y permitió mantener una alta masa molar de la fibra y sus estructuras moleculares características (especies con GP3 y GP4). Las muestras comerciales CßG-A y CßG-B mostraron un bajo contenido de ß-glucanos. Finalmente, la CßG-C presentó las mejores propiedades fisicoquímicas y reológicas para su posterior aplicación en alimentos.