Apparatus and installation methods for sampling ports are disclosed. Sampling ports include a port housing and a lid assembly. The lid assembly is configured to sealably close against the port housing. Additionally, the lid assembly can be secured, such as with a lock, to the port housing. In one aspect, the port housing includes a sample mount arrangement configured to receive a sampling assembly. The sample mount arrangement defines a sampling channel and the port housing defines a sampling opening and a first securing mount. The lid assembly includes a latch arrangement and defines a second securing mount.

A tank for the storage of liquid or gaseous substances with a fiber-reinforced plastic sheathing, which limits at least one interior space for holding the materials to be stored. At least one circumferential section of the fiber-reinforced plastic sheathing comprises an evacuable sandwich structure, which completely encloses the circumferential section. As a result, the tank has a low weight with a high thermal insulation capacity. Furthermore, a reliable explosion protection of the tank is provided. Furthermore, a method for manufacturing a tank for the storage of liquid or gaseous substances is provided.

A portable insulating device kit may be configured to fit within a smaller container for easier shipment. In one example, the assembly may include a base, a top wall having an opening, an inner liner configured to extend into the opening of the top wall to form an interior cavity defining a volumetric storage capacity and an exterior wall. The container can have a flat configuration defining a length, height, and width. The base, the top wall, the inner liner, and the exterior wall may be configured to be assembled into a portable insulating device. The volume of the container may be less than the volumetric storage capacity of the assembled portable insulating device, and the base, the inner liner, and the exterior wall are configured to be detached from one another and shipped in the container.

A cryogenic storage device includes a storage tank having an inner tank, an intermediate tank and an outer tank spaced apart from each other so as to define a fluid reservoir for holding a cryogenic liquid and a thermal insulative space bounding the fluid reservoir. A top cover closes the open top. An inlet supplies the cryogenic liquid to the fluid reservoir. A fluid sensor is configured to detect a pressure within the cryogenic storage device and is removably disposed within the fluid reservoir so as to allow an ice formation to be thawed without having to thaw the entire cryogenic storage device.

A tank for the storage of liquid or gaseous substances with a fiber-reinforced plastic sheathing, which limits at least one interior space for holding the materials to be stored. At least one circumferential section of the fiber-reinforced plastic sheathing comprises an evacuable sandwich structure, which completely encloses the circumferential section. As a result, the tank has a low weight with a high thermal insulation capacity. Furthermore, a reliable explosion protection of the tank is provided. Furthermore, a method for manufacturing a tank for the storage of liquid or gaseous substances is provided.

A container for both cryopreservation and transportation including a thermal insulating container which has an inlet-outlet port for a substance to be stored and a lid for opening and closing the inlet-outlet port at the top thereof, a storage section which has a bottomed tubular shape, is fixed in the thermal insulating container and capable of taking in and out the substance stored from the inlet-outlet port, and a wave-suppression plate which is positioned laterally in a space between the storage section and an inner wall of the thermal insulating container, and suppresses waving of the cryogenic liquefied gas in a liquid state accumulated in the space between the storage section and the inner wall of the thermal insulating container.

A method of fabricating a vacuum insulated appliance structure includes molding a first layer of a first polymer material. A second layer of a second polymer material is molded to (e.g. over) at least a portion of the first layer, and a third layer of a third polymer material is molded to (e.g. over) at least a portion of the second layer to form a first component. At least one of the layers is impervious to one or more gasses. One or more additional components are secured to the first component to form a vacuum cavity. The vacuum cavity is filled with a porous material, and the vacuum cavity is evacuated to form a vacuum.

A vacuum insulated appliance structure includes a molded first layer of a first polymer material. A second layer of a second polymer material is molded to (e.g. over) at least a portion of the first layer, and a third layer of a third polymer material is molded to (e.g. over) at least a portion of the second layer to form a first component. At least one of the layers is impervious to one or more gasses. One or more additional components are secured to the first component to form a vacuum cavity. The vacuum cavity is filled with a porous material, and the vacuum cavity is evacuated to form a vacuum.

Apparatus and installation methods for sampling ports are disclosed. Sampling ports include a port housing and a lid assembly. The lid assembly is configured to sealably close against the port housing. Additionally, the lid assembly can be secured, such as with a lock, to the port housing. In one aspect, the port housing includes a sample mount arrangement configured to receive a sampling assembly. The sample mount arrangement defines a sampling channel and the port housing defines a sampling opening and a first securing mount. The lid assembly includes a latch arrangement and defines a second securing mount.

A temperature controlled container comprising:

an inner housing member defining a cavity, wherein at least a portion of the inner housing member comprises phase change material for regulating a temperature inside the cavity within a predetermined temperature range;

an outer housing member configured to accommodate and thermally insulate the inner housing member; and a content holding unit configured to be removably accommodated inside the cavity of the inner housing member, wherein the content holding unit is configured to hold an object to be stored or transported.