An aspect of the present invention is a frozen strawberry having: a breaking load of not less than 10000 g and not more than 30000 g; and a breaking strain factor of not less than 15%.

Disclosed is a natural compound sweetener, comprising mogroside V, rebaudioside A, natural tea theanine and dietary fibre. The method for preparing the sweetener comprises the steps of: (1) dissolution, filtration, concentration and sterilization: dissolving the mogroside V, rebaudioside A, natural tea theanine and dietary fibre in water, filtering, concentrating in a vacuum, and sterilizing to obtain a sterilized solution; and (2) paste-collection, drying and granulation: carrying out paste-collection on the sterilized solution obtained in the step (1), vacuum drying the collected liquid paste, and drying and then granulating the dry powder to obtain the sweetener.

Disclosed is a natural compound sweetener, comprising mogroside V, rebaudioside A, natural tea theanine and dietary fibre. The method for preparing the sweetener comprises the steps of: (1) dissolution, filtration, concentration and sterilization: dissolving the mogroside V, rebaudioside A, natural tea theanine and dietary fibre in water, filtering, concentrating in a vacuum, and sterilizing to obtain a sterilized solution; and (2) paste-collection, drying and granulation: carrying out paste-collection on the sterilized solution obtained in the step (1), vacuum drying the collected liquid paste, and drying and then granulating the dry powder to obtain the sweetener.

A method for the thermal treatment of bulk materials in a rotary tube with at least one infrared light unit. Bulk material is introduced into the rotary tube, which is provided on its inner wall with at least one mixing element and in the interior space of which the pressure of the ambient atmosphere prevails. A heat treatment of the bulk material is performed by at least one electrical infrared light unit, which is arranged at the center of the rotary tube and the light cone of which is directed onto the bed of bulk material that lies on the inner wall of the rotary tube. The bulk material is discharged from the rotary tube. Water vapor is directed onto the surface of the bulk material. The vapor is introduced into the interior space of the rotary tube through a nozzle tube.

A variety of plant products that are intended for consumption can become contaminated with microbial growth. The levels of contamination must be reduced or eliminated in order for the product to pass microbial growth testing standards. The contaminated plant product can be sterilized using high pressure processing to treat the product with a pressurized gas at a temperature for a desired period of time to reduce the level of the microbial contaminants present in the plant product to a predetermined acceptable level. After treatment, the sterilized plant product can then pass microbial testing standards and be fit for consumption.

The invention relates to the validation of decontamination processes and in particular to new surrogate organisms and mixtures of said microorganisms used for validating the decontamination processes.

An apparatus for pasteurizing an ice cream composition comprises a receptacle for receiving the ice cream composition, a steam generator, and a steam line. The steam generator is designed to generate water vapor, the steam line is designed to conduct the generated water vapor into the receptacle. The steam line has a heatable heating section designed to increase the temperature of the steam. The heating section is arranged outside the steam generator.

Herein are described processes for the preparation of a cannabinoid adjunct. The process includes contacting a first plant matter having a first cannabinoid to terpene (C/T) ratio with a solvent at a temperature below about 0° C. for at least 1 hour producing a first solvent fraction. The first solvent fraction is separated from the first plant matter and fractionated providing a second solvent fraction, a terpene fraction and a solvent-free cannabinoid fraction. The cannabinoid fraction has a second C/T ratio that is greater than or equal to the first C/T ratio. The cannabinoid fraction can be combined with a soluble fiber thereby producing the cannabinoid adjunct. The cannabinoid adjunct is suitable for use in edible products.

Herein are described processes for the preparation of a cannabinoid adjunct. The process includes contacting a first plant matter having a first cannabinoid to terpene (C/T) ratio with a solvent at a temperature below about 0° C. for at least 1 hour producing a first solvent fraction. The first solvent fraction is separated from the first plant matter and fractionated providing a second solvent fraction, a terpene fraction and a solvent-free cannabinoid fraction. The cannabinoid fraction has a second C/T ratio that is greater than or equal to the first C/T ratio. The cannabinoid fraction can be combined with a soluble fiber thereby producing the cannabinoid adjunct. The cannabinoid adjunct is suitable for use in edible products.

A method includes heating a vacuum chamber to a first predetermined temperature, and providing an organic plant material within the vacuum chamber. A vaporizer is heated to a second predetermined temperature, and is in fluid communication with the vacuum chamber. The vacuum chamber is evacuated to a a first predetermined, sub-atmospheric pressure using a vacuum pump. A liquid reagent is injected into the vaporizer such that the liquid reagent transforms into a gaseous/aerosolized reagent. The gaseous/aerosolized reagent is introduced into the vacuum chamber. After waiting a predetermined duration, a sterilization of the organic plant material is achieved. The vacuum chamber is then vented to atmospheric pressure, and the vacuum chamber is again evacuated, to a second predetermined, sub-atmospheric pressure, to remove a reagent residue from the organic plant material, followed by a second venting of the vacuum chamber to atmospheric pressure.