Estudio teórico de algunas propiedades termodinámicas de los ácidos grasos obtenidos como destilados en la desodorización de aceites comestibles

Nowadays the feasibility of a change of technology in the deodorization stage of edible vegetable oil refining is being investigated. The proposed technology involves a modification in the composition of the distillates coming from the deodorization stage and their further treatment To design the apparatus which are required by the proposed technology it is necessary to study the physical properties of the distillates. The thermodynamic properties of the fatty acids: palmitic, stearic, oleic and linoleic, which are the principal components produced at the deodorization stage have been studied. The properties that have been studied were those corresponding to the critical point (critical temperature, pressure and volume), the vapour pressure-temperature relation and the latent heat of vaporisation. Different methods to estimate the above mentioned properties and some experimental published data have been compared.Estudio teórico de algunas propiedades termodinámicas de los ácidos grasos obtenidos como destilados en la desodorización de aceites comestibles Actualmente se investiga la viabilidad de un cambio en la tecnología de la desodorización de aceites comestibles que afecta a la composición de los destilados que se obtienen en el proceso y al tratamiento de los mismos. El diseño de los equipos que conlleva este cambio de tecnología requiere el estudio de propiedades físicas de los destilados. Se han estudiado algunas propiedades termodinámicas de los ácidos palmítico, esteárico, oleico y linoleico, componentes mayoritarios resultantes del proceso de desodorización. Las propiedades estudiadas han sido las correspondientes al punto crítico (temperatura, presión y volumen críticos), las curvas de presión de vapor en función de la temperatura y el calor latente de vaporización. Se han recogido distintos métodos de estimación de las mencionadas propiedades y algunos datos experimentales, y se han comparado los resultados obtenidos

Physical refining of edible oils using nitrogen as stripping gas. Process optimization

The use of nitrogen as a stripping gas in physical refining of edible oils represents a technological improvement with potential advantages such as the possibilities of recovering high quality deodorized distillates and eliminating pollution. <br /> The objectives of the present paper are to study, evaluate and optimize, as far as possible, independent variables involved in the process (nitrogen flow, operating temperature and the height of the oil layer inside the deodorizer) in reference to the quality of the obtained oils as well as the manufacturing requirements. <br /> All the experiments were carried out with sunflower oil in a discontinuous deodorizer with a 200 Kg capacity. A 4x4 latin square experimental design was used, consisting of three factors, each of which had four different levels. <br /> The results led to the establishment of charts that allow to determine the most suitable conditions in which to carry out the processing in accord with the desired quality of the finished oil and the functional objectives of the factory. These charts are presented in the paper. The results were checked by another set of experiments.<br><br>La utilización de nitrógeno como gas de arrastre en la refinación física de aceites comestibles representa un avance tecnológico con ventajas potenciales, como la posibilidad tanto de recoger destilados de desodorización de alta calidad como de eliminar polución.<br /> Los objetivos del presente trabajo son estudiar, evaluar y optimizar, tanto como sea posible, las variables que intervienen en el proceso (flujo de nitrógeno, temperatura de operación y altura de la capa de aceite en el desodorizador) en función de la calidad de los aceites obtenidos así como de los requerimientos de producción. <br /> Los ensayos se han realizado con aceite de girasol en un desodorizador discontinuo de 200 kg de capacidad. Se ha utilizado un diseño de experimento en cuadrado latino de 4x4, constituido por tres factores a cuatro niveles cada uno. <br /> Los resultados obtenidos han permitido establecer abacos adecuados para determinar las condiciones más interesantes en las que llevar a cabo el proceso, según la calidad de aceite final deseada y la función objetivo de la factoría. Dichos ábacos son presentados en el trabajo. Los resultados se han contrastado mediante una nueva serie de experiencias

Preservation of the microbiological and biochemical quality of raw milk by carbon dioxide addition A pilot-scale study

Carbon dioxide treatment of refrigerated raw milk was evaluated as a method for extending storage life by inhibiting growth of psychrotrophic bacteria and other bacterial groups in raw milk. The effect of CO2 acidification followed by degasification and pasteurization on biochemical and microbiological properties of cold stored milk was studied on a pilot scale. Two CO2 treatments (acidification to pH 6.2 and to pH 6.0) were compared with a control (untreated) milk during 4 days of storage at 4°C. Total bacterial counts in the categories of milk established in this study were mainly determined by the proteolytic psychrotroph levels. The inhibitory capability of CO2 was greater in the low-quality than in the high-quality milk category. Acidification at pH 6.0 was more inhibitory than that at pH 6.2, especially against proteolytic psychrotrophs. Neither caseins nor whey proteins were affected by CO2 treatment and pasteurization. Organic acid (orotic, citric, uric, formic, acetic, propionic, and hippuric) concentrations did not change after CO2 treatment, cold storage, or the pasteurization process the lactic acid content of CO2-treated milks remained constant during the refrigeration time but increased slightly in the control. In general, lower amounts of volatile compounds were produced in CO2-treated milks during refrigeration than in control milk. Ethanol and 2-propanol levels were most affected by desgasification and pasteurization. Sensory evaluation revealed no significant differences between CO2-treated milk after degasificalion and pasteurization and the untreated milk used as control. It was concluded that degasification and pasteurization on a pilot scale eliminated CO2 from milk with minimum detrimental effects on its biochemical and sensory properties, making this process acceptable for milk preservation