An inductive magnetoelectric biochemical reaction system includes a reaction unit which includes a reaction chamber, which includes a reactant container and is disposed in a rotatable perpendicular magnetic field; a primary coil, which is wound around one side of a closed-loop iron core and is connected to a control unit; a secondary coil, which is wound around the other side of the closed-loop iron core and includes an insulating tube which allows a reaction solution acting as a conductor, two ends of the insulating tube being communicated with the reactant container; a rotating magnetic field unit, which is configured to generate the rotatable perpendicular magnetic field; and a control unit, which is at least configured to adjust an excitation voltage and a signal type applied on the primary coil.

An inductive magnetoelectric biochemical reaction system includes a reaction unit which includes a reaction chamber, which includes a reactant container and is disposed in a rotatable perpendicular magnetic field; a primary coil, which is wound around one side of a closed-loop iron core and is connected to a control unit; a secondary coil, which is wound around the other side of the closed-loop iron core and includes an insulating tube which allows a reaction solution acting as a conductor, two ends of the insulating tube being communicated with the reactant container; a rotating magnetic field unit, which is configured to generate the rotatable perpendicular magnetic field; and a control unit, which is at least configured to adjust an excitation voltage and a signal type applied on the primary coil.

Briefly, the invention provides a method for magnetically assisting demulsification of extraction phases, the method having the steps of contacting a first solution of a first solvent and a solvated paramagnetic metal ion with a second solvent, where the second solvent is immiscible with the first solvent; mixing the first and second solutions to create an emulsion having a first phase of the first solvent and second phase comprising the second solvent where the phases of the emulsion contain different concentrations of the paramagnetic metal ion; and applying a magnetic field gradient to the first and second phases of the emulsion to accelerate separation of the first phase from the second phase. Also provided is a system for demulsifying phases used in the extraction of paramagnetic moieties from solution having a lumen with an interior region, an interior surface, and exterior surface; and a magnetic field gradient present within the interior region.

The present disclosure relates to the technical field of chemical engineering, and specifically discloses a method for removing oxygenated compounds from a Fischer-Tropsch oil having a high carbon number. A reaction-extraction combined process is used in this method for removing oxygenated compounds from a Fischer-Tropsch oil having a high carbon number, wherein the Fischer-Tropsch oil (C5-C20) is firstly subjected to alkaline washing with an alkaline aqueous solution to convert acidic substances into water-soluble salts. The Fischer-Tropsch oil is subjected to a primary extraction with a carbonate-based extractant to remove alcohols and esters therein, and subsequently subjected to a secondary extraction with propylene carbonate to remove ketones and aldehydes impurities therein, thereby removing oxygenated compounds in the Fischer-Tropsch oil. After extraction, the content of the oxygenated compounds in the Fischer-Tropsch oil may be down to 1-60 ppm, and the yield of oil product may be kept 90% or more.

Embodiments described herein provide a method, comprising routing a bio-oil to a mixing device; routing a wash material to the mixing device; using the mixing device to form a mixture from the bio-oil and the wash material; routing the mixture to an electrostatic separator; and applying an electric field to the mixture, in the electrostatic separator, to separate the wash material from the bio-oil.

A liquid-liquid-solid extraction process is disclosed for isolating natural products from a feedstock stream containing a biomass in an aqueous salt solution. The process includes forming a dispersion by contacting the feedstock stream with an extraction solvent in an extraction zone; passing the dispersion to a separation zone; separating the dispersion into multiple layers at a temperature of about 90 C. or less, the layers including: a solvent extract layer, a raffinate layer and a rag layer, and isolating at least part of the solvent extract layer, at least part of the raffinate layer and/or at least part of the rag layer.

A system may be configured to extract useful products from raw materials. Some systems include (1) a wet-grinding apparatus that includes (a) a conveyance for receiving and directing a slurry containing carrier liquids with suspended raw materials, (b) a high torque motor, (c) a motor drive operably coupled to be driven by the high torque motor (d) a set of flat grinding disks that include at least one rotor disk that is operably coupled to be driven by the motor drive, the set configured, when the at least one rotor disk is driven by the motor drive, to accept the slurry from the conveyance, to grind the suspended raw materials, and to discharge the slurry, and (2) a microwave with a microwave emitter configured to emit microwave radiation toward the slurry at least one of before, while, or after the slurry is ground by the wet-grinding apparatus.