The present invention relates to an ecofriendly diaper system for children and adults. The core components that together make up the architecture of the system are: water-soluble diaper bag, washable diaper, optional moisture-resistant container and a heat-sealing element. Generally speaking, these components are structured such that the water-soluble diaper bags are stored in the moisture-resistant container, and dispensed when needed; a soiled washable diaper is placed in the water-soluble bag and sealed by a knot or by the heat-sealing element. The sealed water-soluble diaper bag containing the soiled diaper is stored. At the desired time, the stored water-soluble diaper bags are washed using a conventional household washer/dryer. The washed diapers are subsequently dried and stored at home. The water-soluble diaper bag is preferably made with polyvinyl alcohol film, where the film is optionally soluble at a temperature higher than the normal human body temperature, and made with an opaque color. The washable diaper is a conventional cloth diaper, and optionally externally coated with a thin film of moisture-proof material.

A sealing patch for a polymeric bag includes a carrier, a pressure sensitive adhesive on the carrier and a heat-activated material on the pressure sensitive adhesive. A high-strength polymeric bag is formed from woven tapes and is coated with a polymer material. The sealing patch is positioned on the bag for sealing the bag. A method for sealing a high-strength polymeric bag with a sealing patch and a device for sealing a polymeric bag with a sealing patch are disclosed.

A sealing patch for a polymeric bag includes a carrier, a pressure sensitive adhesive on the carrier and a heat-activated material on the pressure sensitive adhesive. A high-strength polymeric bag is formed from woven tapes and is coated with a polymer material. The sealing patch is positioned on the bag for sealing the bag. A method for sealing a high-strength polymeric bag with a sealing patch and a device for sealing a polymeric bag with a sealing patch are disclosed.

A method and apparatus for sealing a bag made of a polymeric material by applying heat activated layers on different portions of the bag, wherein the first adhesive layer and the second adhesive layer have respective heat activation temperatures below the softening point temperature of the polymeric material; after creasing the bag along a fold line, applying heat at a temperature below the softening point temperature of the polymeric material to activate the first adhesive layer and the second adhesive layer to adhesive states after the bag has been filled with contents; and folding the bag to form an adhesive-to adhesive seal by contact between the heat activated first adhesive layer and the heat activated second adhesive layer.

One or more embodiments of the present disclosure relate to a pouch for packaging fermented foods, a method of packaging fermented foods using the same, and a pouch for packaging.

A single serve, fillable condiment packet for use by an end user to selectively retain and then dispense a desired substance. The single serve condiment packet includes an elongated packet body that has opposing resealable ends, a permanently sealed top edge, and a permanently sealed bottom edge. In one embodiment, each end of the packet body is defined by a conventional zip lock style closure which is individually operative to be opened by pulling apart the elements of the closure and sealed by pressing together the elements of the closure. The top edge is heat sealed and includes a tear notch adjacent to each end, positioned to allow a user to easily open the packet body at a location adjacent to the respective end.

A single serve, fillable condiment packet for use by an end user to selectively retain and then dispense a desired substance. The single serve condiment packet includes an elongated packet body that has opposing resealable ends, a permanently sealed top edge, and a permanently sealed bottom edge. In one embodiment, each end of the packet body is defined by a conventional zip lock style closure which is individually operative to be opened by pulling apart the elements of the closure and sealed by pressing together the elements of the closure. The top edge is heat sealed and includes a tear notch adjacent to each end, positioned to allow a user to easily open the packet body at a location adjacent to the respective end.

A recyclable material and packaging is provided. The material includes paper with weight of between 35 g/m.sup.2 and 160 g/m.sup.2 and maximum thickness of the overall material, excluding the heat-sealing overlapping areas, of between 35 μm and 310 μm.

A recyclable material and packaging is provided. The material includes paper with weight of between 35 g/m.sup.2 and 160 g/m.sup.2 and maximum thickness of the overall material, excluding the heat-sealing overlapping areas, of between 35 μm and 310 μm.

A web of bags includes a sheet material and a connecting material. The sheet material includes two sheets that are formed from a fiber-based material, are arranged to form a series of bags, and are connected together to form sides of the bags. Each bag is bounded by the sides where sheets are connected together and an opening. The connecting material is applied to inner surfaces of the sheets and can be activated to connect inner surfaces by the activated portions of the connecting material. The connecting material is applied to closing regions on the inner surfaces of the sheets such that the connecting material in the closing regions can be activated to close the opening.