Extraction of neutral lipids by a two solvent method
First Claim
1. A method of separating neutral lipids from intact algal cells, comprising:
- providing a wet algal biomass comprising intact algal cells which comprise proteins that are soluble in an amphipathic solvent, polar lipids and neutral lipids;
dewatering the wet algal biomass by removing extracellular water to increase the solid content of the wet algal biomass to between 5% and 50% to generate a partially dewatered wet algal biomass;
mixing the partially dewatered wet algal biomass with a first amphipathic solvent set in a ratio of about one part first amphipathic solvent set to about one part wet algal biomass by weight, and a first hydrophobic solvent set to generate a first extraction mixture comprising a first heavier phase and a first lighter phase, wherein the first heavier phase comprises the first amphipathic solvent set, neutral lipids, proteins that are soluble in an amphipathic solvent, and partially dewatered wet algal biomass and the first lighter phase comprises the first hydrophobic solvent set and polar lipids;
separating the first lighter phase of the extraction mixture from the first heavier phase of the extraction mixture;
separating the partially dewatered wet algal biomass from the first amphipathic solvent set in the first heavier phase of the extraction mixture to generate a separated partially dewatered wet algal biomass comprising neutral lipids; and
a protein mixture comprising proteins that are soluble in an amphipathic solvent, water and the first amphipathic solvent set;
mixing the separated partially dewatered algal biomass with a second amphipathic solvent set in a ratio of about one part second amphipathic solvent set to about one part separated partially dewatered wet algal biomass by weight, and a second hydrophobic solvent set to generate a second extraction mixture comprising a second heavier phase and a second lighter phase, wherein the second heavier phase comprises the second amphipathic solvent set and separated partially dewatered wet algal biomass and the second lighter phase comprises the second hydrophobic solvent set and the neutral lipids;
separating the second heavier phase from the second lighter phase;
recycling at least a portion of the second heavier phase for further mixing with a third amphipathic solvent set in a ratio of about one part third amphipathic solvent set to about one part separated partially dewatered wet algal biomass by weight, and a third hydrophobic solvent set to generate a third extraction mixture comprising a third heavier phase and a third lighter phase, wherein the third heavier phase comprises the third amphipathic solvent set and separated partially dewatered wet algal biomass and the third lighter phase comprises the third hydrophobic solvent set and the neutral lipids;
separating the third heavier phase from the third lighter phase; and
separating the neutral lipids from the second lighter phase and the third lighter phase, wherein the first lighter phase has a higher concentration of polar lipids than the second and third lighter phases, and the second and third lighter phases have a higher concentration of neutral lipids than the first lighter phase.
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Abstract
A method for separating neutral lipids from plant material, in particular, intact algal cells, using an amphipathic solvent set and a hydrophobic solvent set. Some embodiments include dewatering intact algal cells and then extracting neutral lipids from the algal cells. The methods provide for single and multistep extraction processes which allow for efficient separation of algal neutral lipids from a wet algal biomass while avoiding emulsification of extraction mixtures. The neutral lipids are removed after first removing a polar lipid fraction and a protein fraction. These neutral lipids can be used to generate renewable fuels as well as food products and supplements.
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Citations
20 Claims
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1. A method of separating neutral lipids from intact algal cells, comprising:
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providing a wet algal biomass comprising intact algal cells which comprise proteins that are soluble in an amphipathic solvent, polar lipids and neutral lipids; dewatering the wet algal biomass by removing extracellular water to increase the solid content of the wet algal biomass to between 5% and 50% to generate a partially dewatered wet algal biomass; mixing the partially dewatered wet algal biomass with a first amphipathic solvent set in a ratio of about one part first amphipathic solvent set to about one part wet algal biomass by weight, and a first hydrophobic solvent set to generate a first extraction mixture comprising a first heavier phase and a first lighter phase, wherein the first heavier phase comprises the first amphipathic solvent set, neutral lipids, proteins that are soluble in an amphipathic solvent, and partially dewatered wet algal biomass and the first lighter phase comprises the first hydrophobic solvent set and polar lipids; separating the first lighter phase of the extraction mixture from the first heavier phase of the extraction mixture; separating the partially dewatered wet algal biomass from the first amphipathic solvent set in the first heavier phase of the extraction mixture to generate a separated partially dewatered wet algal biomass comprising neutral lipids; and
a protein mixture comprising proteins that are soluble in an amphipathic solvent, water and the first amphipathic solvent set;mixing the separated partially dewatered algal biomass with a second amphipathic solvent set in a ratio of about one part second amphipathic solvent set to about one part separated partially dewatered wet algal biomass by weight, and a second hydrophobic solvent set to generate a second extraction mixture comprising a second heavier phase and a second lighter phase, wherein the second heavier phase comprises the second amphipathic solvent set and separated partially dewatered wet algal biomass and the second lighter phase comprises the second hydrophobic solvent set and the neutral lipids; separating the second heavier phase from the second lighter phase; recycling at least a portion of the second heavier phase for further mixing with a third amphipathic solvent set in a ratio of about one part third amphipathic solvent set to about one part separated partially dewatered wet algal biomass by weight, and a third hydrophobic solvent set to generate a third extraction mixture comprising a third heavier phase and a third lighter phase, wherein the third heavier phase comprises the third amphipathic solvent set and separated partially dewatered wet algal biomass and the third lighter phase comprises the third hydrophobic solvent set and the neutral lipids; separating the third heavier phase from the third lighter phase; and separating the neutral lipids from the second lighter phase and the third lighter phase, wherein the first lighter phase has a higher concentration of polar lipids than the second and third lighter phases, and the second and third lighter phases have a higher concentration of neutral lipids than the first lighter phase. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
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19. A method of separating neutral lipids from intact algal cells, comprising:
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providing a wet algal biomass comprising intact algal cells which comprise proteins that are soluble in an amphipathic solvent, polar lipids and neutral lipids; mixing the wet algal biomass with a first amphipathic solvent set in a ratio of about one part first amphipathic solvent set to about one part wet algal biomass by weight, and a first hydrophobic solvent set to generate a first extraction mixture comprising a first heavier phase and a first lighter phase, wherein the first heavier phase comprises the first amphipathic solvent set, neutral lipids, proteins that are soluble in an amphipathic solvent, and wet algal biomass and the first lighter phase comprises the first hydrophobic solvent set and the polar lipids; separating the first lighter phase of the extraction mixture from the first heavier phase of the extraction mixture; separating the wet algal biomass from the first heavier phase of the extraction mixture to generate a separated wet algal biomass comprising neutral lipids; and
a protein mixture comprising proteins that are soluble in an amphipathic solvent, water and the first amphipathic solvent set;mixing the separated algal biomass with a second amphipathic solvent set and a second hydrophobic solvent set in a ratio of about one part amphipathic solvent set to about one part separated wet algal biomass to generate a second extraction mixture comprising a second heavier phase and a second lighter phase, wherein the second heavier phase comprises the second amphipathic solvent set and separated wet algal biomass and the second lighter phase comprises the second hydrophobic solvent set and the neutral lipids; separating the second heavier phase from the second lighter phase; recycling at least a portion of the second heavier phase for further mixing with a third amphipathic solvent set in a ratio of about one part third amphipathic solvent set to about one part separated partially dewatered wet algal biomass by weight, and a third hydrophobic solvent set to generate a third extraction mixture comprising a third heavier phase and a third lighter phase, wherein the third heavier phase comprises the third amphipathic solvent set and separated partially dewatered wet algal biomass and the third lighter phase comprises the third hydrophobic solvent set and the neutral lipids, separating the third heavier phase from the third lighter phase; and separating the neutral lipids from the second lighter phase and the third lighter phase to generate a neutral lipids fraction, wherein the first lighter phase has a higher concentration of polar lipids than the second and third lighter phases, and the second and third lighter phases have a higher concentration of neutral lipids than the first lighter phase. - View Dependent Claims (20)
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Specification