A method for producing a cellulose composite containing cellulose and a polysaccharide, wherein a median size of colloidal cellulose composites contained in the cellulose composite as measured by a dynamic light scattering method is 0.85 m or more, the method including treating a mixture containing cellulose, a polysaccharide and an aqueous medium together in a wet process, wherein a solid content is controlled to be 35 mass % or more, and temperature is set at 80 C. or less.

A method of manufacturing a butter coffee formulation produces a full-bodied and smooth cup of coffee as a result of a specified roasting process. The method includes a quantity of dried coffee beans, a quantity of butter, a roasting machine, and a cooling tray. The method begins by placing the quantity of dried coffee beans into the roasting machine. The quantity of dried coffee beans is then transformed into a quantity of toasted coffee beans with the roasting machine. In order too cool the quantity of roasted coffee beans, the quantity of roasted coffee beans is removed from the roasting machine onto the cooling tray. The quantity of roasted coffee beans is cooled for a shortened time period before the quantity of butter is applied at a liquification temperature to the quantity of roasted coffee beans. The final product is further cooled for an extended time period.

A method of manufacturing a butter coffee formulation produces a full-bodied and smooth cup of coffee as a result of a specified roasting process. The method includes a quantity of dried coffee beans, a quantity of butter, a roasting machine, and a cooling tray. The method begins by placing the quantity of dried coffee beans into the roasting machine. The quantity of dried coffee beans is then transformed into a quantity of toasted coffee beans with the roasting machine. In order too cool the quantity of roasted coffee beans, the quantity of roasted coffee beans is removed from the roasting machine onto the cooling tray. The quantity of roasted coffee beans is cooled for a shortened time period before the quantity of butter is applied at a liquification temperature to the quantity of roasted coffee beans. The final product is further cooled for an extended time period.

A process for preparing a particulate dairy composition is provided, which comprises (a) combining condensed skimmed milk, sucrose, milk cream and milk powder to prepare a pre-emulsion containing 46-66 wt. % dry matter; (b) homogenizing the pre-emulsion; (c) spray drying the emulsion to produce a semi-dried powder having a water content of at least 5 wt. % water; and (d) agglomerating and further drying the semi-dried powder to produce agglomerates having a water content of less than 5 wt. % water. The process yields a particulate dairy composition that is particularly suitable for use in creamer capsules. Particulate dairy compositions are also disclosed, comprising (A) 77.5-100 wt. % of agglomerates containing, calculated by dry weight of the agglomerates: (i) 15-29 wt. % of milk protein; (ii) 8-33 wt. % of milk fat; (iii) 18-47 wt. % of lactose; and (iv) 7-18 wt. % of sucrose; and (B) 0-22.5 wt. % of sucrose particles, wherein the composition has a poured bulk density of 380-550 g/l.

A process for preparing a particulate dairy composition is provided, which comprises (a) combining condensed skimmed milk, sucrose, milk cream and milk powder to prepare a pre-emulsion containing 46-66 wt. % dry matter; (b) homogenizing the pre-emulsion; (c) spray drying the emulsion to produce a semi-dried powder having a water content of at least 5 wt. % water; and (d) agglomerating and further drying the semi-dried powder to produce agglomerates having a water content of less than 5 wt. % water. The process yields a particulate dairy composition that is particularly suitable for use in creamer capsules. Particulate dairy compositions are also disclosed, comprising (A) 77.5-100 wt. % of agglomerates containing, calculated by dry weight of the agglomerates: (i) 15-29 wt. % of milk protein; (ii) 8-33 wt. % of milk fat; (iii) 18-47 wt. % of lactose; and (iv) 7-18 wt. % of sucrose; and (B) 0-22.5 wt. % of sucrose particles, wherein the composition has a poured bulk density of 380-550 g/l.

The present disclosure is directed to methods of making coffee products containing cannabinoids that are extracted from Cannabis plant. According to one embodiment, the method includes the steps of (a) extracting cannabinoids from the Cannabis plant; and (b) admixing the cannabinoids into a coffee product. The disclosed methods produce coffee products that possess the benefits of both coffee and Cannabis plant. The methods can be used to produce different coffee products including single-serve coffee pods, ground coffee, espresso and coffee extracts. The methods are used to make coffee and other products with desired and consistent amount of Cannabis-derived compounds.

The present disclosure is directed to methods of making coffee products containing cannabinoids that are extracted from Cannabis plant. According to one embodiment, the method includes the steps of (a) extracting cannabinoids from the Cannabis plant; and (b) admixing the cannabinoids into a coffee product. The disclosed methods produce coffee products that possess the benefits of both coffee and Cannabis plant. The methods can be used to produce different coffee products including single-serve coffee pods, ground coffee, espresso and coffee extracts. The methods are used to make coffee and other products with desired and consistent amount of Cannabis-derived compounds.

A process for preparing an orally-enjoyable film of encapsulated plant material includes combining particles of finely divided plant material, a first coating material, and a second coating material, then inducing gelation to form a gel matrix of the particles coated with the first coating material embedded in the second coating material, followed by forming a film from the gel matrix. Also disclosed is a film of coated particles of finely-divided plant material, made of a gel matrix of plant material at least partially surrounded by a first coating material and embedded in a second coating material.

A process for preparing an orally-enjoyable film of encapsulated plant material includes combining particles of finely divided plant material, a first coating material, and a second coating material, then inducing gelation to form a gel matrix of the particles coated with the first coating material embedded in the second coating material, followed by forming a film from the gel matrix. Also disclosed is a film of coated particles of finely-divided plant material, made of a gel matrix of plant material at least partially surrounded by a first coating material and embedded in a second coating material.

The present invention relates to polypeptides, isolated from Preussia aemulans, having mannanase activity, catalytic domains, and carbohydrate binding modules, and polynucleotides encoding the polypeptides, catalytic domains, and carbohydrate binding modules. The invention also relates to nucleic acid constructs, vectors, and host cells comprising the polynucleotides as well as methods of producing and using the polypeptides, catalytic domains, and carbohydrate binding modules.