A sustainable barrier board comprising: a cellulosic board substrate having a first major side and a second major side; a hydrophobic substance impregnated into the cellulosic board substrate; a first biopolymer barrier film on the first major side of the cellulosic board substrate; and a first biopolymer heat sealable coating coupling the first biopolymer barrier layer with the first major side of the cellulosic board substrate.

A fluid preservation device, for preserving a liquid within a container, which includes an elongated member with a proximal end and a distal end and an inner shaft and an outer shaft. The outer shaft and inner shaft are attached to an expandable sealing member. The expandable sealing member has an expanded state and a collapsed state and a state change mechanism attached to the proximal end of the elongated member to change the state of the expandable sealing member between the expanded state and the collapsed state. When the expandable sealing member is in the collapsed state, it can pass through an opening of a container and when the expandable sealing member is in the expanded state it is big enough to contact the inner surface of the container near the surface of the liquid.

A food preparation package is disclosed. In some embodiments, the food preparation package can include a burst compartment, a first compartment to contain a first food ingredient, and a second compartment to contain a second food ingredient. The food preparation package can also include a first frangible seal separating the burst compartment and at least one of the first and second compartments. In addition, the food preparation device can include a second frangible seal separating the first and second compartments. Fluid pressure introduced into the burst compartment can break the first frangible seal and the second frangible seal to introduce the first food ingredient and the second food ingredient to one another within the package. In other embodiments, a food preparation package can include a first compartment to contain a first food ingredient, and a second compartment to contain a second food ingredient. The food preparation package can also include a frangible seal separating the first and second compartments. In addition, the food preparation package can include a filter to prevent unwanted material carried by a fluid from entering or exiting the package. Introduction of the fluid can provide a fluid pressure that breaks the frangible seal and introduces the first food ingredient and the second food ingredient to one another within the package.

Methods and apparatus for liquid preservation according to various aspects of the present invention may comprise a vessel and a displacer. The displacer may be disposed through an open top of the vessel into a cylindrical interior volume defined by an interior surface of the vessel. An outer rim of the displacer may form a movable seal with the interior surface of the vessel so that the displacer may move within the vessel parallel to the interior surface and below the open top. The displacer may include an aperture at an apex of the conical displacer, which allows air to escape from the interior volume as the displacer decreases the volume of the interior volume. An at least partially transparent displacement indicator may be positioned atop the aperture.

Disclosed is a packaging sheet for packaging of cheese, in particular white moulded soft cheese. The packaging sheet comprises: an inner surface and an outer surface of the packaging sheet, said inner surface being configured for facing the cheese in a packaged use position of the packaging sheet; a paper layer with a first surface and a second surface; a coloured layer provided on a first surface of the paper layer, an outer surface of the coloured layer establishing said outer surface of the packaging sheet; and a polymer layer with a water vapour transmission rate of at least 300 g/m2/24 hours at 38 C. and 90% atmospheric humidity. The polymer layer being coated on the second surface of the paper layer with a first surface of the polymer layer facing the paper layer and a second surface of the polymer layer establishing said inner surface of the packaging sheet.

The Breathable Container for fruits and vegetables extends the shelf life of various fresh fruits and vegetables and vase life of fresh cut flowers by changing the atmosphere in which these living products are stored and respires. The Breathable Container does this by utilizing a Gas Permeable Non-Woven Fabric Based Film. The high oxygen and carbon dioxide permeability of the Gas Permeable Non-Woven Fabric Based Film establishes an ideal atmosphere for the perishable items stored within the Breathable Container, and therefore extends their shelf life. The establishment of lower oxygen and carbon dioxide atmospheres within the Breathable Container using the Gas Permeable Film, also leads to a reduction in the respiration rate of the perishable items stored. The reduction in the respiration rate of the perishable items prevents loss of moisture, production of metabolic heat, yellowing, browning, and reduces the production levels of ethylene by the perishable items.

Container for e.g. wine has a vessel, a seal assembly, and a handle assembly. The seal assembly has upper and lower seal compressor moldings on major faces of a seal, and seal's edge expands in response to moving the seal's major faces together to increase a diameter of the seal. Pressure on a glass vessel is sufficiently low to prevent the glass from cracking or breaking, and pressure can be sufficiently high to prevent air from entering the enclosed volume. Methods and parts associated with the container are also discussed.

A storage device (10) comprising a receptacle (12) and a movable closure member (22), the closure member comprising a seal (30) about its periphery, for positioning against the inside of the receptacle, and a valve (32) within its periphery, wherein the closure member can be moved within the receptacle such that its periphery is substantially continually in contact with the internal surface of the receptacle, and wherein, when in an open position, the valve allows flow of fluid from within the receptacle through the valve, and when in a closed position, the valve prevents flow of liquid from within the receptacle, wherein the receptacle is substantially closed at its lower end.

A fluid insulation assembly for use with a container that is configured to contain a fluid includes a barrier assembly configured to fluidly isolate a first fluid chamber within an interior of a container, wherein the first fluid chamber is configured to contain a fluid, and an actuation assembly configured to dispense fluid contained within the first fluid chamber.

A method for insulating a fluid within a container and dispensing the fluid from the container includes fluidly isolating a first fluid chamber within an interior of a container and moving a barrier assembly disposed within the interior of the container in a first direction for dispensing fluid contained within the first fluid chamber.

An ophthalmic dispenser and method of filling and dispensing fluid stored therein. The dispenser includes a rigid housing defining a fluid-receiving chamber, a flexible bladder receivable within the fluid-receiving chamber, a pump coupled in fluid communication with the fluid-receiving chamber, and a nozzle having a valve defining an annular, axially-extending valve seat, an outlet aperture coupled in fluid communication between the valve seat and the pump, and a flexible valve cover extending about the valve seat and forming an annular, axially-extending interface therebetween. The valve interface is connectable in fluid communication with the outlet aperture, and at least part of the valve cover is movable between (i) a normally closed position with the valve cover engaging the valve seat to close the interface and form a fluid-tight seal therebetween, and (ii) an open position with at least part of the valve cover spaced away from the valve seat in response to pumped fluid flowing through the outlet aperture at a pressure greater than a valve opening pressure to allow the passage of pressurized fluid therebetween. The rigid housing is mountable within a cartridge which, in turn, is mountable within a dispenser housing including an eyelid depressor and a trigger for simultaneously actuating the eyelid depressor and pump.