A shrinking core model for seeds oil extraction
A new shrinking core model is considered for oil extraction from seeds. • The presence of a kinetic process in oil dissolving gives the model novelty. • The
A shrinking core model for seeds oil extraction
A new shrinking core model is considered for oil extraction from seeds. ?The presence of a kinetic process in oil dissolving gives the model novelty. ?The sensitivity analysis shows that the models parameters can be identified. ?Batch oil extraction from Camelina seeds returns data for model parameters. ?/p>
A shrinking core model for seeds oil extraction
The shrinking core model parameters First important parameter is represented by the thickness of boundary layer around the particle. If it is assumed that the mass transfer coefficient from particle to the liquid media is given by the ratio Dl /螖, it can be obtain a thickness from mass transfer correlations.
A shrinking core model for seeds oil extraction
For Camelina seeds the oil hexane extraction has been characterized by particularization of the general modified shrinking core model. It has obtained that the
(PDF) A shrinking core model for seeds oil extraction
A shrinking core model for seeds oil extraction with particularization to Camelina oil separation Authors: Malina Desliu-Avram National Institute for Research and Development in...
(PDF) A shrinking core model for seeds oil extraction
PDF On May 1, 2015, Malina Desliu-Avram and others published A shrinking core model for seeds oil extraction with particularization to Camelina oil
Chemical Engineering Research and Design
For Camelina seeds the oil hexane extraction has been characterized by particularization of the general modi铿乪d shrinking core model. It has obtained that the particle dimensionless porosity is
Chemical Engineering Research and Design
For Camelina seeds the oil hexane extraction has been characterized by particularization of the general modified shrinking core model. It has obtained that the particle
Bidisperse Shrinking Core Model for Supercritical Fluid
Supercritical fluid extraction (SFE) is a novel process moreappropriate for extracting natural products from plant materialthan traditional methods. It is environmentally friendly, pro-vides selective extraction, and employs nonflammable and non-toxic solvents, usually CO2, without any solvent residues in thefinal product [1].
A Shrinking Core Model for Seeds Oil Extraction
The seed oil analysis showed the physical state of the oil to be liquid/yellow-greenish in colour, specific gravity 0.886 ± 0.026, viscosity (at 40ºC) 15.40
Supercritical Fluid Extraction of the Seed Fatty Oil
Successful development of an industrial-scale process for supercritical fluid extraction (SFE) of oil from ground plant material requires detailed analysis of the effects associated with the solute transport in porous media. In the present paper, a case of the raw material with high initial oil content is considered, and the influence of the axial flow dispersion on the extraction dynamics is