Method for converting food waste and other biological waste into invertebrate feed
First Claim
1. A method for converting a biological waste to a feed for black solider fly larvae, the method comprising:
- pre-treating the biological waste, wherein the pretreating comprises;
fragmenting the waste,reducing microbial contaminants in the waste,inoculating the waste with microorganisms, andmixing the waste;
providing a bioreactor;
performing fermentation of the waste under anaerobic conditions, wherein the fermentation comprises fermenting the waste in the bioreactor to produce a fermentation product comprising fermentation leachate and solid fermentate;
post-treating the fermentation product, wherein the post-treating comprises;
separating solid fermentate from fermentation leachate in the fermentation product,grinding the solid fermentate,dewatering the solid fermentate, and/ormilling the solid fermentate,thereby producing the feed for black solider fly larvae.
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Abstract
Biological waste such as food, organic or other biologically-derived waste is converted into shelf-stable and health-safe invertebrate feed. The method for converting includes pre-treating waste by fragmenting, reducing microbial contaminants, optionally amending with components that optimize fermentation, inoculating with microorganisms and mixing. Fermentation takes place in a bioreactor and produces fermentation leachate and solid fermentate. In the post-treatment steps, the solid fermentate is separated from the fermentation leachate. The solid fermentate is ground, dewatered and milled. The solid fermentate can be used as an invertebrate feed with or without further processing.
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Citations
21 Claims
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1. A method for converting a biological waste to a feed for black solider fly larvae, the method comprising:
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pre-treating the biological waste, wherein the pretreating comprises; fragmenting the waste, reducing microbial contaminants in the waste, inoculating the waste with microorganisms, and mixing the waste; providing a bioreactor; performing fermentation of the waste under anaerobic conditions, wherein the fermentation comprises fermenting the waste in the bioreactor to produce a fermentation product comprising fermentation leachate and solid fermentate; post-treating the fermentation product, wherein the post-treating comprises; separating solid fermentate from fermentation leachate in the fermentation product, grinding the solid fermentate, dewatering the solid fermentate, and/or milling the solid fermentate, thereby producing the feed for black solider fly larvae. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A method for converting a biological waste to shelf-stable invertebrate feed, the method comprising:
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pre-treating the biological waste, wherein the pretreating comprises; fragmenting the waste, reducing microbial contaminants in the waste, inoculating the waste with microorganisms, and mixing the waste; providing a bioreactor; performing fermentation of the waste under anaerobic conditions, wherein the fermentation comprises fermenting the waste in the bioreactor to produce a fermentation product comprising fermentation leachate and solid fermentate, wherein the pH of the fermentation leachate is less than or equal to approximately 4 in 3 to 7 days; post-treating the fermentation product, wherein the post-treating comprises; separating solid fermentate from fermentation leachate in the fermentation product, grinding the solid fermentate, dewatering the solid fermentate, and/or milling the solid fermentate, thereby producing the invertebrate feed wherein the invertebrate feed has a stable pH of approximately 3.4. - View Dependent Claims (16, 17)
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18. A method for converting a biological waste to an invertebrate feed, the method comprising:
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(a) pre-treating the biological waste, wherein the pretreating comprises; fragmenting the waste, reducing microbial contaminants in the waste, inoculating the waste with non-pathogenic mesophilic microorganisms at a density of 105-106 cells per ml, wherein the microorganisms are; chemo-organotrophs, aerotolerant anaerobes or facultative anaerobes, acidophilic or acid tolerant at pH >
3.2,cellulolithic, amylolytic, [or] homofermenters or heterofermenters individually and heterofermenters as a community; wherein the microorganisms have the capacity to; ferment pentoses and hexoses, thereby producing alcohols and organic acids, drive fermentation toward acidic conditions, produce low levels of soluble alkali, hydrolyze cellulose and starch to monosaccharides or disaccharides of hexoses or pentoses, and wherein the microorganisms comprise microorganisms from the genera Acetobacter, Lactobacillus, Saccharomyces, and Clostridium, and mixing the waste; (b) providing a bioreactor; (c) performing fermentation of the waste under anaerobic conditions in the bioreactor, thereby producing a fermentation product comprising fermentation leachate having a Brix % of 6-10 and solid fermentate, wherein performing fermentation comprises circulating fermentation leachate in the bioreactor during fermentation, (d) monitoring the fermentation, wherein monitoring comprises analyzing the fermentation leachate, wherein analyzing the fermentation leachate comprises determining pH, fermentable sugar content and nitrogen content of the fermentation leachate, (e) controlling progression of the fermentation, wherein controlling progression of the fermentation comprises maintaining; temperature at 20-45°
C.,pH <
5,Brix % at 9-10 Brix % during the first 24 hours of the fermentation, and Brix % at least 3 Brix % after 24 hours of the fermentation, (f) post-treating the fermentation product, wherein the post-treating comprises; separating solid fermentate from fermentation leachate in the fermentation product, grinding the solid fermentate, dewatering the solid fermentate, and/or milling the solid fermentate, thereby producing the invertebrate feed. - View Dependent Claims (19, 20, 21)
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Specification