Abstract: A process for treating brewers spent grains for producing a high value protein product and a cellulosic residue, both from brewers spent grains that have not gone through fermentation. The high value protein product is useful as a protein supplement, or feed for livestock and poultry, and the cellulosic residue has value as a feedstock for a thermochemical process unit, such as for the production of a biofuel.

Abstract: Provided is a nutritionally enhanced derivative (isolate) from Stabilized Rice Bran (SRB) with improved antioxidant, fat and protein levels enhancing both the nutritional and yield values over existing techniques. Also provided is an improved method that utilizes certain enzyme combinations under various time and temperature conditions for extracting these nutritionally enhanced isolates from SRB.

Abstract: The method of pH controlling during electrolytic fermentation processes of the organic substrates includes placing the biological and chemical reagents in a fermentation tank, placing the electrodes powered by the direct current in the fermentation tank chambers, switching on the constant voltage initiating electrolytic processes with a value from 0.1 to 50 V, generating H+ or OH? ions around the electrodes, reading the data from the glass electrode, changing the power parameters of electrodes, depending on the set pH value of the reaction medium, and starting a pump metering the liquid from the auxiliary chamber into the fermentation tank chamber through a dispensing connector. The object of the invention is also the reactor for carrying out this method.

Abstract: An integrated bioethanol production and evaporation process and system produce reduces high quality ethanol and concentrated stillage. The process and system provide a significant energy savings over conventional bioethanol production and evaporation systems by using the energy (“vapor”) that drives the distillation process to also drive a multiple effect evaporator, preferably a multiple effect TASTE™ evaporator to “flash” or vaporize alcohol from the distillate. Additional energy savings are provided by passing fermented material through one or more pre-heaters of the multiple effect evaporator to increase the temperature of the fermented material prior to its distillation. The system preferably includes a pre-flash evaporator upstream of an alcohol recovery assembly in the direction of vapor flow and a multi-effect post-flash evaporator downstream of the alcohol recovery assembly.

Abstract: The present disclosure includes a method for processing a beer stream for the recovery of oil. The method include a step of extracting oil from a beer stream into an organic phase comprising an organic solvent to provide in the organic phase at least a portion of the oil. In general, a beer stream refers to a composition containing alcohol, water, oil, and particulates, and can be a result of a fermentation process. When the beer stream is a beer stream from a fermentation process, it can be referred to as a fermentation broth even if it is no longer being subjected to fermentation. The beer stream can contain other components commonly found in a stream coming off a fermentation process such as, for example, glycerol and acetic acid. A method for producing ethanol, and an ethanol production facility are provided.

Abstract: Methods for controlling the growth of bacteria in ethanol fermentation systems with antibiotic alternatives, which can be nonoxidizing biocides, stabilized oxidizers, or any combinations thereof, are described. As an option, a process or composition of the present invention can include one or more polycyclic antibacterial peptides. The methods can provide improvements, such as increased ethanol yields with minimal carryover of biocide into co-products of the processes.

Abstract: Methods for controlling the growth of bacteria in ethanol fermentation systems with antibiotic alternatives, which can be nonoxidizing biocides, stabilized oxidizers, or any combinations thereof, are described. As an option, a process or composition of the present invention can include one or more polycyclic antibacterial peptides. The methods can provide improvements, such as increased ethanol yields with minimal carryover of biocide into co-products of the processes.

Abstract: Provided is a nutritionally enhanced derivative (isolate) from Stabilized Rice Bran (SRB) with improved antioxidant, fat and protein levels enhancing both the nutritional and yield values over existing techniques. Also provided is an improved method that utilizes certain enzyme combinations under various time and temperature conditions for extracting these nutritionally enhanced isolates from SRB.

Abstract: Provided herein is a method for treating untreated rice bran to produce a treated rice bran. The method comprises inactivating lipase in the untreated rice bran, saponifying the fatty acids in the untreated rice bran to fatty acid salts, and contacting the untreated rice bran with a source of bisulfite anions so that an aldehyde or ketone in the untreated rice bran forms an organosulfite. The method produces the treated rice bran, wherein the amount and characterization of protein and fiber between the treated rice bran and the untreated rice bran remain unchanged. A treated rice bran composition is also provided, which comprises fatty acid salts, inactivated lipase, organosulfites, between about 14% and about 16% by weight protein, and between about 8% and about 10% by weight fiber.

Abstract: The present invention provides a brewed soy sauce that has light color and reduced smell with a robust taste. In the brewed soy sauce, HEMF is less than 15 ppm. Glutamic acid is 0.9% (w/v) or more. Lactic acid and acetic acid are respectively 0.1% (w/v) or more. Reducing sugar is 1.5% (w/v) or less. Levulinic acid is less than 0.01% (w/v). And, pH is 4.5-5.5. The brewed soy sauce is produced as follows: First, a raw material is prepared from a plant protein-source material and a low-starch carbohydrate-source material. Then, koji is made by inoculating koji mold to the prepared raw material. Next, salt water is added to the koji, and the mixture of the salt water and koji is fermented. At least 5 days after initiating the fermentation, yeast belonging to Candida genus is added to the mixture. Then, the fermentation is matured.

Abstract: A method of modeling a fermentation process comprises providing a first principles model of a fermentation process; determining the concentration of at least one substrate in a fermentation composition at a first time; and predicting the concentration of at least one component of the fermentation composition at a second time using the first principles model, wherein the second time is after the first time.

Abstract: A method for production of an animal feed product comprises: a) partial hydrolysis of a fermentation feedstock or the non-ethanol by-product of a fermentation process performed on a fermentation feedstock, which partial hydrolysis converts non starch polysaccharides to soluble oligomers and monomers; b) fermentation of the soluble oligomers and monomers in the partially hydrolysed feedstock or non-ethanol by-product to produce ethanol; e) recovery of the non-ethanol by-product from the fermentation of step b) to produce an animal feed product more specifically an animal feed product with improved nutritional content.

Abstract: The present invention relates to methods for producing high levels of alcohol during fermentation of plant material, and to the high alcohol beer produced. The method can include fractionating the plant material. The present invention also relates to methods for producing high protein distiller's dried grain from fermentation of plant material, and to the high protein distiller's dried grain produced. The method can include drying a co-product by ring drying, flash drying, or fluid bed drying. The present invention further relates to reduced stack emissions from drying distillation products from the production of ethanol.

Abstract: Dried distiller's solubles is described. Methods for drying condensed distiller's solubles into dried distiller's solubles are presented. The methods may include introducing the condensed distiller's solubles into a drying gas stream and recovering dried distiller's solubles from the drying gas stream.

Abstract: The present invention is directed to methods for producing high levels of alcohol during fermentation of plant material, and to the high alcohol beer produced. The present invention is also directed to methods for producing high protein distiller's dried grain from fermentation of plant material, and to the high protein distiller's dried grain produced. The present invention also relates to reduced stack emissions from drying distillation products from the production of ethanol.

Abstract: The present invention provides beverage preservative systems for use in high acid beverage products, and beverage products comprising the beverage preservative systems. The beverage preservative system prevents spoilage by microorganisms in a beverage within a sealed container for a period of at least 16 weeks. The present invention reduces or eliminates the use of conventional preservatives that pose health and/or environmental concerns. The components that make up the beverage preservative system of invention work together in a synergistic manner to reduce the amount of preservative required and so improve the inventive beverage's sensory impact over beverages having conventional preservatives.

Abstract: Methods of fortifying animal feeds nutrients typically lacking therefrom through the action of microorganisms are provided. Fermentation of animal feed materials with selected microorganisms, such as certain varieties of red yeasts, are shown to fortify the feed materials with natural carotenoids. Further, in certain embodiments, these methods can result in an increase in levels of nutritionally beneficial fatty acids, and a decrease in dietary fiber and nitrogen levels.

Abstract: The present invention relates to phytases having at least 76% identity to a phytase derived from Hafnia alvei and comprises at least one modification in the amino acid sequence thereof. These phytase variants have modified, preferably improved, properties, such as, reduced protease sensibility, preferably they exhibit improved properties in respect of thermal performance, such as heat-stability (temperature stability, thermostability), steam stability, pelleting stability and/or temperature profile; and/or protease stability, in particular pepsin stability, pH profile, specific activity, substrate specificity, performance in animal feed (such as an improved release and/or degradation of phytate), susceptibility to glycation, and/or glycosylation pattern. The invention also relates to DNA encoding these phytases, methods of their production, as well as the use thereof, e.g., in animal feed and animal feed additives.

Abstract: Disclosed herein are compositions for producing ethanol, which compositions comprise raw starch and amylase enzymes.

Abstract: A method for preparing a liquid composition having a high arabinoxylan oligosaccharides content (AXOS), the product obtained by this method, and its use in food applications, in particular in baked products.

Abstract: The present invention relates to a method for the modification of cereal bran, a method for the production of a modified cereal bran product as well as the use of such products in the production of food products.

Abstract: An alcohol fermentation process and composition that includes production of alcohol esters by esterification of product alcohol in a fermentation medium with a carboxylic acid (e.g., fatty acid) and a catalyst (e.g., lipase) capable of esterifying the product alcohol, such as butanol, with the carboxylic acid to form the alcohol esters. The alcohol esters can be extracted from the fermentation medium, and the product alcohol recovered from the alcohol esters. The carboxylic acid can also serve as an extractant for removal of the alcohol esters from the fermentation medium.

Abstract: A method for processing of byproducts in an ethanol production process to improve their nutritional value is provided. The method includes applying a mixture of microorganism to a stillage stream with concomitant production of organic acids and de-emulsification and liberation of oil for recovery.

Abstract: Provided is a nutritionally enhanced derivative (isolate) from Stabilized Rice Bran (SRB) with improved antioxidant, fat and protein levels enhancing both the nutritional and yield values over existing techniques. Also provided is an improved method that utilizes certain enzyme combinations under various time and temperature conditions for extracting these nutritionally enhanced isolates from SRB.

Abstract: A process is disclosed for producing a feed co-product by ethanol fermentation of plant matter comprising starch and another polysaccharide selected from the group consisting of hemicellulose and cellulose. The process comprises: (i) carrying out a primary fermentation process, distilling the primary fermentation mixture to form a primary feed co-product derived from the fermentation of the primary fermentation mixture and a primary distillate product comprising ethanol and (ii) carrying out a secondary fermentation process and distilling the secondary fermentation mixture to form the modified feed co-product and a secondary distillate product comprising ethanol.

Abstract: A method of manufacturing yeast fermented food such as bread, noodle and pasta, comprises the steps of preparing a starting cooking composition contains as main component bran powder and/or soy bean protein powder, gluten powder for binding the main powder and milk or milk ingredient powder containing milk sugar and a molding agent for increasing viscosity of composition; subjecting a mixed cooking composition with yeast to a fermentation condition to make a wet dough composition containing substantially no glucide; and baking or dry-solidifying it.

Abstract: Methods for controlling the growth of bacteria in ethanol fermentation systems with antibiotic alternatives, which can be nonoxidizing biocides, stabilized oxidizers, or any combinations thereof, are described. As an option, a process or composition of the present invention can include one or more polycyclic antibacterial peptides. The methods can provide improvements, such as increased ethanol yields with minimal carryover of biocide into co-products of the processes.

Abstract: A method for the production of ethanol and a modified animal feed is provided. The method replaces the starch in known corn-based animal feed with biomass fiber treated to make it more digestible by animals. The process includes wherein the pericarp and germ are removed from the corn kernel and processed for by-products. The starch and protein are also removed and separated. The starch is then fermented and distilled to ethanol and stillage. The bioavailable modified animal feed comprises the pericarp and germ removed from corn kernels and optionally by-products of the pericarp and germ processing, and lignocellulosic materials. The modified animal feed may optionally include energy materials such as animal and vegetable fats, vegetable soapstocks, or glycerin, and combinations thereof.

Abstract: The present invention relates to isolated polypeptides having phytase activity and isolated polynucleotides encoding the polypeptides. The polypeptides are related to a phytase derived from Hafnia alvei, the amino acid sequence of which is shown in the appended sequence listing as SEQ ID NO: 10. The invention also relates to nucleic acid constructs, vectors, and host cells comprising the polynucleotides as well as methods for producing and using the polypeptides, in particular within animal feed.

Abstract: An industrial method of reprocessing a mixture of by-products produced during biodiesel production containing a glycerol fraction and degumming residue as well as a feed additive, which may be obtained by this method.

Abstract: The present invention relates to a method of manufacturing a cereal bran product containing beta-glucan. According to the method, a plastic mass is formed from cereal bran by means of a thermo-mechanical treatment, and the mass is brought into contact with an enzyme that breaks up beta-glucan, with or without an enzyme that breaks up starch. After inactivating the enzyme, the bran is dried and, when so needed, ground. The cereal bran product manufactured according to the method has an essentially inextensible structure in a water environment. The product is suitable to be added to aqueous foodstuffs or to foodstuffs, the manufacture of which employs water.

Abstract: Systems and methods are provided which produce an improved distillers, brewers or fermenters grain by-products, including solubles, by determining nutrients and nutrient amounts to be added to a by-product to achieve targeted nutritional values, including bypass protein and amino acid levels, of the nutritionally enhanced grain byproduct after processing. One or more crude protein and/or amino acid content nutrient sources are added to the byproduct to create a nutritionally enhanced by-product mixture. The temperature and/or moisture content of the nutritionally enhanced by-product mixture is adjusted based on an empirically derived relationship that relates RUP as a percent of crude protein to an end product temperature in a predictable and repeatable manner to produce the improved distillers, brewers or fermenters grain byproduct. The products, having enhanced nutrient values of which are predictably ascertained, are made by the disclosed systems and methods.

Abstract: A system for the production of ethanol and co-products is provided. The system facilitates an overall reduction in the use of energy, for example, by reducing the mass of wet solids supplied to a distillation system. The system also reduces the amount of energy used to dry the wet solids component of a fermentation product, for example, by increasing the ethanol concentration of the wet solids. The system also facilitates the recovery of co-products including bioproducts and other biochemicals extracted from components of the fermentation product. The solids component of the fermentation product may be dried and constituted into a meal that may be used for animal feed, among other uses.

Abstract: A method of producing Dried Distiller's Grain with Solubles (DDGS) agglomerated particles is disclosed. The method comprises the steps of separating a first product stream out of the whole stillage that is primarily solid material from a second product stream that is primarily liquid, agglomerating the first product stream using a mechanical compression machine such as an extruder, and exposing the agglomerated particles to microwave radiation of a sufficient energy for a sufficient time so that the resulting moisture of the agglomerated particles is between 3% and 40% by weight. The second product stream may be condensed and blended with the first product stream prior to, or concurrently with, the step in which the agglomerated particles are formed. Additionally, other additives, such as enzymes, may be added to the first product stream to enhance the final product's desirability as a nutritional source.

Abstract: The present invention provides a method for producing isoquercitrin, ?-glycosylisoquercitrin, and rhamnose, the method comprising a step of naringin-degrading enzyme treatment during the isoquercitrin production from rutin in the presence of an edible component, such as gelatin, wheat gluten, chitosan, lecithin, a glycerol fatty acid ester, xanthan gum, carrageenan, sodium chondroitin sulfate, casein, enzymatically decomposed gelatin, sodium alginate, konjac extract, gellan gum, guar gum, soybean protein, agar, pectin, yeast extract, egg-white peptide, cluster dextrin, gum arabic, arginine, sodium metaphosphate, karaya gum, locust bean gum, sodium pyrophosphate, glucosamine, chitin, sodium glutamate, dextrin, trehalose, or a grain-based food ingredients. According to the present invention, isoquercitrin and ?-glycosylisoquercitrin, which are of use as antioxidants, anti-fading agents, flavor change inhibitors, etc., can be produced in enhanced yields.

Abstract: “EVAPORATOR OF VINASSE CONCENTRATION FOR DISTILLERIES IN GENERAL”, it is applied preferentially in the distillery (1) of ethanol, whose constituent equipments allow the accomplishment of vinasse concentration process (2) using caisson (T1) of evaporation as “reboiler” of the columns (C1 and C2), as well as caisson (T2) of evaporation as condenser of the mentioned columns (C1 and C2), without extra consumption of energy or vapor (3) and water (4), for that using bombs (5) for movement of the product; pre-heaters (not represented) for the heating of the wine (6); final heater (not represented) which accomplishes the last heating of the wine; column (C1) responsible for the first distillation; caissons (T) which execute the evaporation of vinasse; separators (S) that dissociate the vapors of the liquids in the evaporator; column (C2) responsible for the second distillation; evaporative condenser (7) that condenses the vapors of the last effects and system of air removal (8) of equipment by means of vacuous.

Abstract: The present invention is a pulverized fiber composition manufactured through fermentation of Brown Rice Bran with Lactobacillus Bulgaricus bacteria, which is enhanced with Bifidus and Acidophilus, resulting in a cereal with beneficial health properties; where, the fiber can be used as a natural dietary supplement and medicaments for the treatment and prevention of Gastrointestinal disorder, yeast infection, skin disorder, and hair thinning by boosting levels of beneficial intestinal flora which aid in digestion and boosts the human immune system.

Abstract: A process for making a high grade protein product, such as a mammalian feed product, using residue slurry from a cellulose fermentation and distillation process is provided. The residue slurry is compressed to remove much of the residual liquid. The compressed slurry is shaped, dried, leavened and granulated to provide the high grade protein product. Nutrients, flavorants, texturizers and other food product-enhancing ingredients may be added during the process. The granules of animal feed product can be packaged and stored in an inert or other stable environment for extended storage periods.

Abstract: The present invention provides a method for preparing emulsified bran derivatives and emulsified bran fractions which can be used in the preparation of nutritionally-enriched food and beverage products.

Abstract: A method for the production of ethanol and a modified animal feed is provided. The method replaces the starch in known corn-based animal feed with biomass fiber treated to make it more digestible by animals. The process includes wherein the pericarp and germ are removed from the corn kernel and processed for by-products. The starch and protein are also removed and separated. The starch is then fermented and distilled to ethanol and stillage. The bioavailable modified animal feed comprises the pericarp and germ removed from corn kernels and optionally by-products of the pericarp and germ processing, and lignocellulosic materials. The modified animal feed may optionally include energy materials such as animal and vegetable fats, vegetable soapstocks, or glycerin, and combinations thereof.

Abstract: A method for the production of ethanol and a modified animal feed is provided. The method replaces the starch in known corn-based animal feed with biomass fiber treated to make it more digestible by animals. The process includes wherein the pericarp and germ are removed from the corn kernel and processed for by-products. The starch and protein are also removed and separated. The starch is then fermented and distilled to ethanol and stillage. The bioavailable modified animal feed comprises the pericarp and germ removed from corn kernels and optionally by-products of the pericarp and germ processing, and lignocellulosic materials. The modified animal feed may optionally include energy materials such as animal and vegetable fats, vegetable soapstocks, or glycerin, and combinations thereof.

Abstract: Improved ruminant feeds are provided which include a pH-adjusted first ingredient selected from the group consisting of ruminant-edible, initially low pH commercial byproducts and initially low pH grain or forage-derived products, combined with a second ingredient comprising a high digestive efficiency feed grain such as flaked corn. An improved process (10) for the production of a ruminant feed (50) as an adjunct to a fuel ethanol plant is also provided wherein starch-bearing grain (12) is processed to yield ethanol (30) and whole stillage (32). The whole stillage (32) is then treated to remove water and to yield a wet distiller's grain product (WDG) (38). The pH of the WDG (38) is then elevated (46) by the addition of base to a pH of from about 5-8, and the pH-adjusted WDG (46) is optionally dried (47) and combined with a high digestive efficiency feed grain (HDEG) such as flaked grain (48).

Abstract: The present invention provides a method for producing isoquercitrin, ?-glycosylisoquercitrin, and rhamnose, the method comprising a step of naringin-degrading enzyme treatment during the isoquercitrin production from rutin in the presence of an edible component, such as gelatin, wheat gluten, chitosan, lecithin, a glycerol fatty acid ester, xanthan gum, carrageenan, sodium chondroitin sulfate, casein, enzymatically decomposed gelatin, sodium alginate, konjac extract, gellan gum, guar gum, soybean protein, agar, pectin, yeast extract, egg-white peptide, cluster dextrin, gum arabic, arginine, sodium metaphosphate, karaya gum, locust bean gum, sodium pyrophosphate, glucosamine, chitin, sodium glutamate, dextrin, trehalose, or a grain-based food ingredients. According to the present invention, isoquercitrin and ?-glycosylisoquercitrin, which are of use as antioxidants, anti-fading agents, flavor change inhibitors, etc., can be produced in enhanced yields.

Abstract: The present invention relates to a nutritional additive comprising arabinoxylans, which beneficially modulates the human intestinal flora. Furthermore, several food and beverage products comprising the additive are provided as well as methods to prepare the said additive.

Abstract: The present invention relates to methods for producing high levels of alcohol during fermentation of plant material, and to the high alcohol beer produced. The present invention also relates to methods for producing high protein distiller's dried grain from fermentation of plant material, and to the high protein distiller's dried grain produced. The present invention further relates to reduced stack emissions from drying distillation products from the production of ethanol.

Abstract: The invention concerns a multi-enzyme product with glucoamylase, proteolytic and xylanase activities, characterized in that it consists of wheat bran fermented with an Aspergillus niger strain, said enzymatic glucoamylase, proteolytic and xylanase activities being present in the following minimum values: glucoamylase activity: at least 100 UG per gram of dry matter; proteolytic activity: at least 100 UP per gram of dry matter; xylanase activity: at least 100 UX per gram of dry matter, provided that at least one of the following conditions is satisfied: the gluycoamylase activity is at least 750 UG per gram of dry matter, or the xylanase is at least 300 UX per gram of dry matter. The invention is useful for producing ethanol or monogastric animal feed.

Abstract: A feed additive composition which contains enzyme-treated, concentrated spent fermentation beer of Saccharopolyspora erythraea; a method for making a feed additive containing enzyme-treated concentrated spent fermentation beer of Saccharopolyspora erythraea; a process for improving the nutritive value of spent fermentation beer of Saccharopolyspora erythraea by enzymatic treatment; a method for feeding livestock with a feed containing an enzyme-treated, concentrated spent fermentation beer of Saccharopolyspora erythraea additive and a process for improving poultry feed conversion, breast meat yield and intestinal strength by feeding a feed containing an enzyme-treated, concentrated spent fermentation beer of Saccharopolyspora erythraea additive are disclosed. Preferably, the spent fermentation beer of Saccharopolyspora erythraea is treated with a cellulase and at least one glycosidase, and then concentrated.

Abstract: A quality improver for producing bread, comprising at least one component (i) selected from malt, rice fermentation product, and wheat fermentation product and (ii) biotin. Preferably it further contains mevalonolactone and/or mevalonic acid or a lactic acid fermentation product of soy bean. A seed dough is obtained by kneading cereal powder, yeast, and the quality improver for producing bread and subjecting the mixture to primary fermentation. The bread has a sufficient volume, a good shape, a soft feeling upon eating, a good flavor (fragrance and taste), excellent storage stability and contains vitamins, proteins and minerals abundantly. The seed dough containing the quality improver can be circulated.

Abstract: A rice bran extract formed from a rice bran with a naturally occurring lipase enzyme causing rancidity that has been inactivated with an antilipase enzyme has unique functionality as a processing aid with workable doughs. The rice bran extract improves the machinability of the dough and/or provides positive function effects on texture, bulk density, etc. of the final product.

Abstract: The invention relates to a new nutritional composition resulting from maize steeping. This composition comprises an inorganic phosphorous concentration to total phosphorus concentration ratio (Pi/Pt) of between 35 and 95%. The composition also comprises proteins in an amount which gives a value of less than or equal to 5 according to a C test and reducing substances in an amount which gives a value of less than or equal to 0.9% in the BERTRAND method. A process for producing a nutritional composition is also disclosed, wherein the process requires maize steepwater to be subjected to a treatment with the aid of protease and phytase enzymes in the presence of lactic acid bacteria. Furthermore, the enzymatic treatment is performed on a steepwater whose dry matter content is between 5 and 25%, and Ph between 3 and 5, at a temperature varying between 40 and 50.degree. C. and for 4 to 16 hours.