A system for manufacturing a filled plastic container includes an actuator, a base unit including a heating surface, and a dispensing device or nozzle. The actuator includes a body portion and a holding/securing member configured to hold or secure a portion of the container. In embodiments, the actuator is configured to apply a force or pressure on the container to contact the base unit, the base unit is configured to receive a base portion of the container, the heating surface is configured to convey energy or heat to a portion of the base portion of the container, and the dispensing device or nozzle is configured to introduce an inert gas into the container. Methods for providing a filled plastic container and providing a thin-walled plastic container are also disclosed.

A system for manufacturing a filled plastic container includes an actuator, a base unit including a heating surface, and a dispensing device or nozzle. The actuator includes a body portion and a holding/securing member configured to hold or secure a portion of the container. In embodiments, the actuator is configured to apply a force or pressure on the container to contact the base unit, the base unit is configured to receive a base portion of the container, the heating surface is configured to convey energy or heat to a portion of the base portion of the container, and the dispensing device or nozzle is configured to introduce an inert gas into the container. Methods for providing a filled plastic container and providing a thin-walled plastic container are also disclosed.

A food preservation system can include a gas (e.g., oxygen) permeable package having at least one oxygen permeable member defining a package chamber therein, and a silverized biomass in the package chamber of the oxygen permeable package. Another food preservation system can include a container having an internal chamber, and an oxygen permeable divider located in the internal chamber so as to divide the internal chamber into a first chamber and a second chamber. The first chamber can being configured for receiving food therein, and a silverized biomass is located in the second chamber. A method of preserving food can include retaining a food in a container that includes silverized biomass such that the food does not contact the silverized biomass. The silverized biomass can have a combination of silver and biomass.

An air bag packaging arrangement and a self-adhesive checking valve, the air bag packaging arrangement includes an air bag and an air valve which is the self-adhesive checking valve. The air bag includes first and second cell overlapped layers to form an air chamber and a valve opening. The air valve includes first and second sealing films overlapped between the first and second cell layers, and a strengthening film provided between the first valve film and the first cell film to strengthen a joint strength between the first valve film and the first cell film, so as to prevent the first valve film from being broken, so as to further avoid an air leakage.

An air bag packaging arrangement and a self-adhesive checking valve, the air bag packaging arrangement includes an air bag and an air valve which is the self-adhesive checking valve. The air bag includes first and second cell overlapped layers to form an air chamber and a valve opening. The air valve includes first and second sealing films overlapped between the first and second cell layers, and a strengthening film provided between the first valve film and the first cell film to strengthen a joint strength between the first valve film and the first cell film, so as to prevent the first valve film from being broken, so as to further avoid an air leakage.

Systems and methods for reinforcing physical structures with composite reinforcement systems are disclosed herein. According to aspects of the present disclosure, a composite reinforcement system includes a carrier formed of a plurality of fibers and a blend of at least two reagents impregnated within the carrier. The at least two reagents are chemically configured to react to form a moisture-curable prepolymer. One reagent of the at least two reagents is an isocyanate, and another reagent of the at least two reagents is an aromatic-group-containing polyol.

A modified atmosphere flow-wrap system and method and components thereof are provided for packaging a food product in a reduced oxygen atmosphere in a continuous or partially-continuous process. In one aspect, the flow-wrap system includes a saturation tunnel for saturating the food products with modified gas to reduce an amount of residual oxygen therein. In another aspect, the flow-wrap system includes a flow-wrapping station with a modified gas lance that extends into film webbing used to form the food product packages to insert modified gas into the film webbing and restrict oxygen from entering the food packages.

A modified atmosphere flow-wrap system and method and components thereof are provided for packaging a food product in a reduced oxygen atmosphere in a continuous or partially-continuous process. In one aspect, the flow-wrap system includes a saturation tunnel for saturating the food products with modified gas to reduce an amount of residual oxygen therein. In another aspect, the flow-wrap system includes a flow-wrapping station with a modified gas lance that extends into film webbing used to form the food product packages to insert modified gas into the film webbing and restrict oxygen from entering the food packages.

The invention relates generally to a sanitizing device that may comprise of an enclosure, a conveyor module, a plurality of sanitizing light sources, and possibly a sealing module. Objects that need to be sanitized may be transported or placed inside the enclosure and can be exposed to sanitizing lights from a plurality of sanitizing light sources. After the exposure to the sanitizing lights, the objects may convey out of the apparatus or go through a sealing module before exiting the enclosure. The conveyor module of the sanitizing device may be driven by torque created by an exterior conveyor belt or a motorized mechanism integrated within the apparatus.

A fluid filling station which has a supply tank, filter, transfer pump, a high pressure valve, an optional flow meter, a pressure relief valve, at least one muffler, a filling head, a control module, a purge head, cylinder dispensing mechanism, and its method of use are provided for. This fluid filling station is capable of refilling many types of fluids, but is preferably for the use with carbon dioxide. Additionally, this station is capable of housing and dispensing prefilled refillable fluid containers.