Container closures wherein at least one void comprised in the closure is at least partially filled with a gas or gaseous mixture which by composition or pressure is different from air are disclosed. The oxygen content of said gas can be lower than the oxygen content of air. Through use of such closures for sealing closed containers, the amount of air and therefore oxygen that enters the closed container through closure desorption can be effectively controlled, changed, or even largely eliminated.

A pack including at least one single-use capsule or pod for a portioned beverage which has two opposite bases, and a side wall connecting the two bases defining therewith a chamber for containing an aromatic substance; the pack has a sealed container for containing the capsule or pod housed in a protective inert gas atmosphere; more specifically the sealed container copies at least in part the shape of the capsule or pod.

An Electrochemical Nitrogen Generator System and Method. The system and method provide the ability to create a nitrogen-rich environment in containers of a variety of sizes. The system and method are able to extract the oxygen from the air within the container without reducing the internal pressure substantially below atmospheric. A version of the method is provided to reduce the oxygen content and replace it with nitrogen through a series of sequential fractional steps. In another form, the system and method will provide a streaming approach of bleeding off oxygen-containing contents of the container, while continuously replacing it with air until such time as the percentage of oxygen within the container is below the desired level. In yet another version, the system and method operate under pressure, thereby injecting pressurized air, either in sequential fractional steps or via continuous flow, whereby at the end of the process, the internal contents of the container are in a pressurized nitrogen environment, and the air expelled from the container during the process is also under pressure.

The present invention relates in general to the field of packaged meat product, and more specifically, to a modified atmosphere meat packaging system and method of packaging meat product. The modified atmosphere meat packaging system and method comprises a lid-stock container with a reduced-volume headspace configured to contain a modified atmosphere consisting of carbon dioxide and nitrogen. Spices, salts, rubs and seasonings may be further placed on the meat product to add flavor and mask a myoglobin state during long periods of shipping, storage and retail display. An impermeable gaseous barrier is configured to gently touch the meat product to prevent movement inside the meat packaging system and maintain an attractive appearance to consumers. The purpose of the invention is to provide a packaged meat product that appears freshly cut and wrapped straight from the butcher at a local meat market as opposed to a centralized packaging facility.

A method for packing quartz glass cloth includes the step of packing quartz glass cloth that is at least 99.5 wt % comprised of SiO.sub.2 with packaging film to form a package, wherein the package has a volumetric absolute humidity therein of 10.0 g/m.sup.3 or less.

Provided is a re-sealable container for storing, preserving, identifying, tracking and transporting a federally controlled substance having a child resistant and senior friendly lid, and a process for identifying and tracking federally controlled substances within the re-sealable containers. The re-sealable federally controlled substance containers include a two-piece child resistant and senior friendly lid and a 2-factor authentication identification tag, as well as a microchip for identifying the container controlled substance contents and tracking the container. Controlled substance contents within the re-sealable containers are optimized for long term storage by removal of the oxygen therein, and the containers and controlled substance contents can be readily identified, detected, tracked and traced after being filled with a federally controlled substance.

A disposable container for commercializing individual frozen food portions is described. It is made of a plastic material and has a plurality of individual pockets defining each a volume configured for containing a portion of frozen food. Each pocket has a bottom wall and a lateral wall extending from the bottom wall and a top opening, the bottom wall having a thickness inferior to the thickness of the lateral wall. The portion of frozen food is extracted from its respective individual pocket by pushing in on the bottom wall of the pocket. A method for packaging, commercializing and using individual frozen food portions is also disclosed. The container and method are particularly useful for preparing a smoothie from frozen puree of vegetables and fruits. The container is particularly adapted for being shipped directly to the consumer. An insert and method for transforming a jar into a shaker are also disclosed.

A method and system for manufacturing, producing, preparing, packaging, displaying, selling and marketing perishable food or items in a container with a container storage technology for use with select consumer goods or household appliances. A method and system for the use of multiple brand logos or names and communicative indicia on a container or product packaging wherein at least one of the brand logos or names, such as a secondary or tertiary brand logo or name can be used to represent different or distinct products, services or benefits from the primary brand logo or name.

A method of storing extreme ultraviolet (EUV) pellicles or pellicle film is disclosed. The method includes selecting a material, such as stainless steel or glass material, for the construction of the storage or transportation containers. Vacuum-sealed or inert-gas-filled containers are further preferred. The material maintains one or more properties of extreme ultraviolet (EUV) lithography pellicle, the one or more properties being selected from EUV transmission rate, EUV transmission variation, EUV scattering, EUV pellicle film deflection, EUV pellicle film tensile strength, or a combination thereof.

A vacuum heat insulator includes core material (203), first member (201) having a box shape with opening (204), core material (203) being disposed in first member (201), and second member (202) that tightly closes opening (204). First member (201) includes first resin layer (21), second resin layer (22), and gas barrier layer (23), first resin layer (21) and second resin layer (22) being made of thermoplastic resin, gas barrier layer (23) being disposed between first resin layer (21) and second resin layer (22) and containing organic resin and scaly inorganic material. A content of the scaly inorganic material in gas barrier layer (23) is equal to or less than 14% by weight relative to a gross weight of gas barrier layer (23).