Microporous sheet product and methods of making and using the same. In one embodiment, the microporous sheet product is made by a process that includes melt-extruding a sheet material using an extrusion mixture that includes a thermoplastic polymer, a superabsorbent polymer, and a compatibilizing agent. After extrusion, the compatibilizing agent may be removed from the sheet material. When the sheet product is imbibed with a polar or ion-containing liquid, the superabsorbent polymer swells, causing a reduction in the pore size of the sheet product. The exposure also causes some of the superabsorbent polymer to migrate to the exterior of the microporous sheet product. The microporous sheet product may be used, for example, as a battery separator, as a food packaging material, as a diffusion barrier in the ultrafiltration of colloidal matter, and in disposable garments.

A package comprising a first panel defining a first end, a second end opposite the first end, and at least two side edges; a second panel defining a first end, a second end opposite the first end, and at least two side edges, wherein the second panel is connected to the first panel via longitudinal seams formed along respective side edges of the first and second panels; and at least one end seam formed along at least one of the first end or the second end of the first and second panels, wherein the at least one end seam comprises an outer edge; and a barrier coating disposed on an interior surface of at least one of the first and second panels, wherein the barrier coating does not extend to the side edges of the longitudinal seams or the outer edge of the at least one end seam.

A package for containing liquid-exuding product is formed of a single sheet of film that is folded and sealed at certain locations. The package can include an active member, optionally in the form of absorbent, that is heat staked or otherwise attached to a portion of the sheet of film such that the active member is located on an interior surface of a bottom of the folded and sealed package.

A method of canning and processing a particulate edible product, the method comprising: providing a metal can body with one open end; filling the metal can body through said open end with the particulate edible product and a volume of liquid, the volume of liquid comprising no more than 30% of the internal volume of the metal can; fixing a lid to the metal can body to close the open end; and using an induction heating process to heat the liquid in the can and thereby process the product.

The disclosure relates to a deep-drawing packaging machine with a forming station for deep-drawing trays into a film, a loading stretch for filling products into the trays, and a sealing station for sealing the trays. The deep-drawing packaging machine further comprises at least one vacuum cooling station which is disposed in a direction of transport upstream of the sealing station and which is formed for vacuum cooling the products placed into the trays along the loading stretch. The disclosure furthermore relates to a method for vacuum cooling products.

According to one embodiment a packaging machine and method for packaging a product is provided in which a cover film is arranged on the product and on a base film which supports the product and is narrower than the cover film; the superimposed films are moved in a first direction to a joining station where both films are attached to one another; and the attached films are moved in the first direction to a cutting station where the films are cut transversely and where the areas of the cover film projecting from the base film are cut longitudinally. The movement of the films is caused by acting on the cover film.

Systems and methods of aseptic processing of product can include a hopper for introduction of the product into the system and one or more components through which the product flows as it is processed through the system, an enclosure surrounding one more of the components, a gassing assembly comprising a plurality of gassing elements for maintaining a substantially constant flow of inert gas over the product as it travels through the components of the system, and filtered gas recirculation system that recirculates filtered air or gas through the enclosure. Such systems can be particularly advantageous for use in the cannabis industry.

A system for controlling the temperature of a film before and/or during application, the system including: a heat source for heating a film; and stretch rollers; wherein the heat source heats the film from an ambient temperature to a temperature from about 2° C. to about 40° C. above the ambient temperature, wherein the film is heated prior to or simultaneous to being stretched by the stretch rollers, and wherein the ambient temperature is below 15° C. The preheating system may be used to enhance binding and sealing properties of stretch films used for wrapping palletized products in a reduced temperature environment. Other embodiments of the preheating film system, and methods for its use, are described herein.

An optimal package structure and an amount of refrigerant to insert into the package structure are determined based upon product information, consumer preference information, and weather information. The optimal package structure and the amount of refrigerant are an optimized combination that is effective to both protect the product from damage and preserve the product from spoilage. A package is constructed to contain the product according to the optimal package structure and the amount of refrigerant is inserted into the structure.

The present invention relates to a method for producing and preserving a semimoist animal feed, it being distinguished by the fact that it comprises the steps of drying and preservation by thermal treatment and pressure treatment of the nonperishable semimoist animal feed packaged in a packaging unit. In a further aspect, the present invention is directed to a thus obtainable semimoist animal feed packaged in a substantially gas-tight packaging unit having improved storage properties, especially storage stability. Lastly, sales units comprising multiple packaging units, optionally detachable from one another, containing the semimoist animal feed are provided.