This present disclosure provides a vessel assembly for use in temperature sensitive shipping that can maintain a payload temperature across a range of temperatures. The vessel assembly of the present disclosure comprises a vessel having a single chamber, in which a plurality of PCMs are in contact, but immiscible, with each other. The present disclosure reduces the overall packaging materials used in a shipper box and prevents the “wrong” mixture of PCM-containing vessels from being used.

An insulating device can include a body assembly and a lid assembly where an insulating layer is connected to both the body assembly and the lid assembly. An aperture with a closure is formed between the body assembly and lid assembly to form a storage compartment. An insulating tab may be formed from a portion of the insulating layer and an inner liner of the body assembly to help insulate the closure region. In addition, a first magnetic element may be secured within the insulating tab that may engage a second magnetic element secured within the lid assembly.

Insulation container for the temperature-controlled transport of pharmaceutical products, comprising an outer container with an outer container base and an outer container wall, which are connected to one another in such a way as to form a receiving space open on one side, and wherein the insulation container comprises a lid which is designed to completely cover the receiving space by placing the lid on the outer container, and wherein the insulation container furthermore has a receiving space comprises inserted compartment which separates the receiving space into separate compartments.

Insulation container for holding temperature-sensitive products, comprising at least one vacuum insulation element, the at least one vacuum insulation element coming into contact with at least two connecting surfaces, with a sealant is arranged on the connecting surfaces in order to reduce heat exchange along the connecting surfaces.

A cooler with a hinging lid is comprised of a top deck having an opening and a unitary hinging lid to cover the opening; insulated sidewalls; and a bottom that together define an enclosed insulated inner volume for storage of objects. The inner volume can be accessed by opening the hinging lid. The hinging lid can be selectively opened, segment by segment, to access the inner volume while minimizing the exchange of air between the inner volume and the air surrounding the cooler. The hinging lid is comprised of a pull flap tab, an interior layer of reflective insulating material, at least one layer of support insulation material and a waterproof outer surface layer. The support insulation material of the hinging lid is divided into at least two discrete segments comprising a first segment and a second segment and can be articulated as a hinge between the segments.

A biodegradable insulating panel for a package includes a first layer of biodegradable material, a second layer of biodegradable material opposite the first layer, a moisture repellant layer, a biodegradable honeycomb core, and granulated pith. The moisture repellant layer is disposed on exterior surfaces of the first and second layers. The biodegradable honeycomb core is disposed between the first and second layers. The granulated pith is disposed within the honeycomb core to increase the resistance to heat flow of the panel. The biodegradable insulating panel has a density no greater than about 300 kg/m.sup.3. A biodegradable insulating package includes a plurality of insulating panels. The biodegradable insulating package is thermally insulating such that a temperature of an item disposed in the package increases no greater than 0.24° C./min (e.g., during ASTM D3103 test).

A blank for forming an insulated carton including a front panel hingedly attached to a first side panel, the first side panel hingedly attached to a rear panel, the rear panel hingedly attached to a second side panel along a longitudinal axis of a blank, wherein each panel includes a central portion disposed between and hingedly attached to at least one flap arranged transverse to the longitudinal axis an end tab hingedly attached to the central portion of the second side panel, wherein the blank defines an interior space of a carton when folded along each hinged attachment and at least one surface of the blank includes a reflective barrier which has a higher thermal radiation reflectance than an under-lying layer for energy-insulating the interior space of the carton.

Insulated paper products are disclosed. Methods of making and using insulated paper products are also disclosed.

Systems and methods for making an insulating container having at least one cavity in a lid insulating structure or base insulating structure and having at least one vacuum insulated panel disposed within the at least one cavity.

A storage container system for storing items includes a tote, an insulated shell with a lid. The insulated shell is configured for receiving the tote. The insulated shell includes a base and a plurality of side walls and is foldable between an expanded configuration and a collapsed configuration such that the tote fits inside the insulated shell when the insulated shell is in the expanded configuration. The lid is configured for closing the tote inside the insulated shell when the insulated shell is in the expanded configuration.