Method of removing algae adhered inside a bioreactor through combined backwashing and lowering of pH level
First Claim
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1. A method of algae cultivation including the removal of adhered algae from a bioreactor comprising the steps of:
- (a) circulating an algae slurry through a bioreactor in a first mode;
wherein the bioreactor comprises a plurality of translucent bioreactor panels, vertically arranged, and a distribution system comprising connecting tubing for flowing the slurry;
wherein, in the first mode the slurry is pumped in a first flow direction, through the distribution system, into the bioreactor panels through openings in the bottoms, into flow channels located within the panels, upward through the channels, out of the panels through an opening at the top, and back into the distribution system;
(b) sensing a first light intensity sufficient to penetrate the translucent bioreactor panels using at least one sensor located within the flow channels and sensing a pH level of the slurry;
(c) maintaining the first mode while the light intensity is at or above the first intensity level, thereby allowing the algae to photosynthesize;
(d) adding gaseous carbon dioxide to the algae slurry to lower the pH level to a substantially optimum level for algae growth when the sensed pH level has increased above said optimum pH level, due to algae photosynthesis;
(e) continuing to circulate in the first mode, regulating the optimum pH level, until a second light intensity level is sensed;
wherein, the second intensity level is below the first intensity level and is insufficient to penetrate the translucent bioreactor panels to reach the algae slurry in order to allow the algae to photosynthesize;
(f) switching to a second circulation mode, having a flow direction opposite the first mode, upon sensing the second intensity level;
(g) adding gaseous carbon dioxide to the algae slurry to lower the pH level below the optimum level for algae growth;
(h) removing algae adhered to the interior surfaces of the bioreactor panels by maintaining the second mode;
wherein, the lowered pH and physical forces due to backwashing act to remove the adhered algae.
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Abstract
An algae bioreactor having a system and method for the efficient cultivation of algae in systems using in part or in full bioreactor chambers and other units wherein algae are grown in the presence of light and are then harvested for various uses including, but not limited to, for producing specific molecules, including recombinant molecules and other molecules produced from algae especially adapted to produce such molecules (including, but not limited to, nutraceuticals and industrial polymers and polymer subunits), as food products and components of food products, and as biofuel or components of biofuel. Further wherein the pH of the algae slurry is manipulated to allow for automated removal of algae adhered to the light permeable surfaces of the bioreactor.
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Citations
9 Claims
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1. A method of algae cultivation including the removal of adhered algae from a bioreactor comprising the steps of:
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(a) circulating an algae slurry through a bioreactor in a first mode; wherein the bioreactor comprises a plurality of translucent bioreactor panels, vertically arranged, and a distribution system comprising connecting tubing for flowing the slurry; wherein, in the first mode the slurry is pumped in a first flow direction, through the distribution system, into the bioreactor panels through openings in the bottoms, into flow channels located within the panels, upward through the channels, out of the panels through an opening at the top, and back into the distribution system; (b) sensing a first light intensity sufficient to penetrate the translucent bioreactor panels using at least one sensor located within the flow channels and sensing a pH level of the slurry; (c) maintaining the first mode while the light intensity is at or above the first intensity level, thereby allowing the algae to photosynthesize; (d) adding gaseous carbon dioxide to the algae slurry to lower the pH level to a substantially optimum level for algae growth when the sensed pH level has increased above said optimum pH level, due to algae photosynthesis; (e) continuing to circulate in the first mode, regulating the optimum pH level, until a second light intensity level is sensed; wherein, the second intensity level is below the first intensity level and is insufficient to penetrate the translucent bioreactor panels to reach the algae slurry in order to allow the algae to photosynthesize; (f) switching to a second circulation mode, having a flow direction opposite the first mode, upon sensing the second intensity level; (g) adding gaseous carbon dioxide to the algae slurry to lower the pH level below the optimum level for algae growth; (h) removing algae adhered to the interior surfaces of the bioreactor panels by maintaining the second mode; wherein, the lowered pH and physical forces due to backwashing act to remove the adhered algae. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification
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Current AssigneeRenewed World Energies, Inc. (Aventura Equities, Inc.)
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Original AssigneeRenewed World Energies, Inc. (Aventura Equities, Inc.)
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InventorsArmstrong, Richard L., Tompkins, Timothy G.
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Primary Examiner(s)Williams, Monica
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Assistant Examiner(s)Fabula, Michael A
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Application NumberUS12/896,588Time in Patent Office1,236 DaysField of Search47/14, 47/59.R, 47/62.AUS Class Current47/1.4CPC Class CodesA01G 33/00 Cultivation of seaweed or a...A01H 13/00 Algae unicellular algae C12...C12N 1/12 Unicellular algae; Culture ...Y02A 40/80 in fisheries management
