Replacing hexane by ethanol for soybean oil extraction
Jan 20, 2024· Within this context, the replacement of hexane by ethanol (either hydrous or anhydrous) as solvent for soybean oil extraction is assessed. Sugarcane bagasse was the fuel for cogeneration of energy. All processes were implemented and simulated in EMSO, Environment for Modeling, Simulation and Optimization, which is an equation-oriented process
Within this context, the replacement of hexane by ethanol (either hydrous or anhydrous) as solvent for soybean oil extraction is assessed. Sugarcane bagasse was the fuel for cogeneration of energy. All processes were implemented and simulated in EMSO, Environment for Modeling, Simulation and Optimization, which is an equation-oriented process
Replacing hexane by ethanol for soybean oil extraction
Request PDF Replacing hexane by ethanol for soybean oil extraction: Modeling, simulation, and techno-economic-environmental analysis During the transition to a low carbon economy, techno
Within this context, the replacement of hexane by ethanol (either hydrous or anhydrous) as solvent for soybean oil extraction is assessed. Sugarcane bagasse was the fuel for cogeneration of energy. All processes were implemented and simulated in EMSO, Environment for Modeling, Simulation and Optimization, which is an equation-oriented process
Study of technical feasibility of replacement of hexane by
The aim of this work was to evaluate the feasibility of replacing hexane by ethanol in the soybean oil extraction process. The use of ethanol has very attractive advantages such as: low toxicity, good operational security, as well as being obtained from a biorenewable source.
Replacing hexane by ethanol for soybean oil extraction: Modeling, simulation, and techno-economic-environmental analysis. Flotation of oil drops by centrifugation was easily done. Extraction of simmondsins from defatted jojoba meal using aqueous ethanol.
Kinetics of soybean oil extraction using ethanol as
Within this context, the replacement of hexane by ethanol (either hydrous or anhydrous) as solvent for soybean oil extraction is assessed. Sugarcane bagasse was the fuel for cogeneration of energy.
the substitution of hexane by ethanol (Rittner, 1992). The main goal of this work was to evaluate the ethanol performance on the extraction process of soybean oil. 2. Materials and Methods 2.1 Materials The solvents used in this work were absolute ethanol, from Merck (Germany), with
Comparison between ethanol and hexane for oil extraction
Comparison between ethanol and hexane for oil extrac tion from Quercus suber L. fruits. The aim of this study was to (i) evaluate the feasibility of replacing n -hexane with ethanol for the extraction of oil from Quercus suber fruits and (ii) optimize, at lab scale, sample preparation and extraction time for both solvents used ( n -hexane
At 25 °C, DBU/ ethanol extracted oil more slowly than ethanol or DBU alone, and much more slowly than the hexane control (at 60 °C). Only 45% of the oil was recovered after 60 min using the DBU/ ethanol solution. In fact, the addition of DBU to anhydrous ethanol reduces ethanol's extracting power by nearly half. Increasing the extraction temperature to 70 °C gave marked improvement of 20%