The present invention provides a composition for freezing control, a composition for freezing a cell, and a composition for freezing a food, which include a compound in which 2 to 5 amino acids, for example, 2, 3, 4, or 5 amino acids are connected to fluorenylmethyloxycarbony (Fmoc) through peptide bonding.

The present invention provides peptoid polymers capable of reducing or inhibiting the formation of ice crystals at sub 0° C. temperatures. Also provided are peptoid-peptide hybrids comprising the peptoid polymers provided herein. The peptoid polymers and peptoid-peptide hybrids provided herein are useful for making cryoprotectant solutions. The peptoid polymers, peptoid-peptide hybrids, and cryoprotectant solutions provided herein are useful for making antifreeze solutions, frozen food products, and cosmetic care products. Also provided herein are methods for preserving a tissue, an organ, a cell, or a biological macromolecule using the compositions described herein.

The present invention provides peptoid polymers capable of reducing or inhibiting the formation of ice crystals at sub 0° C. temperatures. Also provided are peptoid-peptide hybrids comprising the peptoid polymers provided herein. The peptoid polymers and peptoid-peptide hybrids provided herein are useful for making cryoprotectant solutions. The peptoid polymers, peptoid-peptide hybrids, and cryoprotectant solutions provided herein are useful for making antifreeze solutions, frozen food products, and cosmetic care products. Also provided herein are methods for preserving a tissue, an organ, a cell, or a biological macromolecule using the compositions described herein.

The present invention provides a novel raw material that can improve the texture of food products and also can impart a new function to food products. The present invention relates to a starch composition for food products, the starch composition having a type-B viscometer viscosity (Pa.Math.s) of 2-100 Pa.Math.s, the viscosity being determined when a slurry that is obtained at 20° C., by mixing into the starch composition for food products an edible oil/fat in the amount of two times greater than the starch composition in terms of mass and water in the amount of seven times greater than the starch composition in terms of mass, in this order and without heating, is subjected to a viscosity measurement under the condition of 30 rpm for 30 seconds. The starch composition also has a type-B viscometer viscosity (Pa.Math.s) that satisfies the condition of “the type-B viscometer viscosity at 0° C. is 2-30 times greater than the type-B viscometer viscosity at 90° C.” and that is determined when the slurry is cooled or heated and is subjected to viscosity measurement under the condition of 30 rpm for 30 seconds.

A horizontal axis rotary separation apparatus is deployed in a process for separating resinous trichomes rich in flavoring, aromatic and/or medicinal components produced in plant trichome glands from unwanted plant matter. The process physically separates resin rich beads at the trichome gland head from extraneous plant matter by one or move separation sieves. The sieves are provided in or as a casing over a rigid frame member. The sieves are mesh fabric bags or screen that are easily opened and replenished in a batch operating mode, and are removable from the frame for cleaning and maintenance. Other aspects of the invention include processes that improve process efficiency and speed, and yield products of superior quality.

A horizontal axis rotary separation apparatus is deployed in a process for separating resinous trichomes rich in flavoring, aromatic and/or medicinal components produced in plant trichome glands from unwanted plant matter. The process physically separates resin rich beads at the trichome gland head from extraneous plant matter by one or move separation sieves. The sieves are provided in or as a casing over a rigid frame member. The sieves are mesh fabric bags or screen that are easily opened and replenished in a batch operating mode, and are removable from the frame for cleaning and maintenance. Other aspects of the invention include processes that improve process efficiency and speed, and yield products of superior quality.

Methods of sterilizing a temperature sensitive material, such as an acidified or non-acidified food product, pharmaceutical product or cosmetic product, are disclosed. The methods comprise freezing the temperature sensitive material to an initial temperature of less than or equal to −2° C. and then either (i) pressurizing the frozen temperature sensitive material to a first elevated pressure of at least 250 MPa for a predetermined first period of time of at least 3 minutes or (ii) pressurizing the frozen temperature sensitive material to a first elevated pressure of at least 250 MPa for a predetermined first period of time of at least 90 seconds, releasing the first elevated pressure for a predetermined pause period of time and then pressurizing the temperature sensitive material to a second elevated pressure of at least 250 MPa for a predetermined second period of time of at least 90 seconds.

Methods of sterilizing a temperature sensitive material, such as an acidified or non-acidified food product, pharmaceutical product or cosmetic product, are disclosed. The methods comprise freezing the temperature sensitive material to an initial temperature of less than or equal to −2° C. and then either (i) pressurizing the frozen temperature sensitive material to a first elevated pressure of at least 250 MPa for a predetermined first period of time of at least 3 minutes or (ii) pressurizing the frozen temperature sensitive material to a first elevated pressure of at least 250 MPa for a predetermined first period of time of at least 90 seconds, releasing the first elevated pressure for a predetermined pause period of time and then pressurizing the temperature sensitive material to a second elevated pressure of at least 250 MPa for a predetermined second period of time of at least 90 seconds.

The invention relates to a method and apparatus of tempering an organic product in an enclosed structure using a liquid maintained at a predefined temperature. The method includes, introducing the organic product through at least one access means of the enclosed structure into the liquid, circulating the liquid from the enclosed structure through a heating unit and back into the enclosed structure to increase a temperature of the liquid up to a predefined temperature, and supplying a gaseous substance into the enclosed structure for a predefined time period based on a temperature of the liquid in the enclosed structure. The organic product is removed through the access means of the enclosed structure when a core temperature of the organic product reaches the predefined temperature.

The invention relates to a method and apparatus of tempering an organic product in an enclosed structure using a liquid maintained at a predefined temperature. The method includes, introducing the organic product through at least one access means of the enclosed structure into the liquid, circulating the liquid from the enclosed structure through a heating unit and back into the enclosed structure to increase a temperature of the liquid up to a predefined temperature, and supplying a gaseous substance into the enclosed structure for a predefined time period based on a temperature of the liquid in the enclosed structure. The organic product is removed through the access means of the enclosed structure when a core temperature of the organic product reaches the predefined temperature.