A piping system includes a first and a second inner tube assembled end to end and a hot fluid detector. For each inner tube, a first peripheral tube into which the inner tube is introduced and fixed. For each first peripheral tube, a second peripheral tube into which the first peripheral tube is introduced and fixed. A sleeve has a first section which surrounds the ends of the second two peripheral tubes facing one another and a second section which extends between the two ends up to the walls of the first two peripheral tubes. A pipe crosses the sleeve and opening out, on the one hand, into the space between the inner tubes and the first peripheral tubes and, on the other hand, in the vicinity of the hot fluid detector. A piping system of this kind is therefore thermally insulated and allows detection in the event of a leak.

A vacuum insulated refrigerator structure with a vacuum core material filled in around an elongated umbilical. The vacuum insulated refrigerator structure is made of a shell having a liner and a wrapper wherein the shell forms an internal cavity. A gas permeable casing surrounds the entire length of the elongated umbilical passing through the internal cavity of the shell. A vacuum tube is inserted at a first opening between the gas permeable casing and the elongated umbilical and a second end of the elongated umbilical is coupled to the shell at a second opening in the liner. A vacuum is formed in the internal cavity of the shell through the vacuum tube while adding the vacuum core material fill. In the shell, an elongated umbilical has one or more elongated internal passageways wherein the one or more utility lines may be routed through the one or more elongated internal passageways.

An insulated bag may include an integral structure. The integral structure may include a first portion comprising first and second extension portions. The integral structure may include a second portion and a third portion attached at corresponding edges and each extending approximately perpendicular from the first portion. The first, second, and third portions each may include a first layer and a paper sheet formed into a wave pattern attached to the first and second layers.

An insulated bag may include an integral structure. The integral structure may include a first portion comprising first and second extension portions. The integral structure may include a second portion and a third portion attached at corresponding edges and each extending approximately perpendicular from the first portion. The first, second, and third portions each may include a first layer and a paper sheet formed into a wave pattern attached to the first and second layers.

Cryogenic fluid transfer line comprising a tubular outer jacket housing at least two interior fluid-transfer tubes and a heat shield forming an insulating wall arranged around the interior tubes, the outer jacket comprising a lateral pumping opening connected to a pumping member intended to pull a vacuum in the outer jacket, characterized in that the heat shield comprises an orifice situated adjacent to the opening and an optical cover, the optical cover being positioned facing the orifice and in a plane distinct from that of the wall of the heat shield so as to prevent or limit direct thermal radiation from the outer jacket toward the interior tubes.

Cryogenic fluid transfer line comprising a tubular outer jacket housing at least two interior fluid-transfer tubes and a heat shield forming an insulating wall arranged around the interior tubes, the outer jacket comprising a lateral pumping opening connected to a pumping member intended to pull a vacuum in the outer jacket, characterized in that the heat shield comprises an orifice situated adjacent to the opening and an optical cover, the optical cover being positioned facing the orifice and in a plane distinct from that of the wall of the heat shield so as to prevent or limit direct thermal radiation from the outer jacket toward the interior tubes.

A machine for making insulation may include two or more rotatory members configured to pull a precut insulation product at a first rate, wherein the precut insulation product comprises a first paper layer, a second paper layer, and a continuous paper core sheet, a first restraint and a second restraint spaced apart a predetermined distance to create a first space therebetween, and two or more second rotary members configured to feed a continuous paper sheet at a second rate into the first space such that the continuous paper sheet forms a plurality of flexible loops defining a plurality of air channels that extend in a direction that is substantially perpendicular with a machine direction. The first rate may be slower than the second rate.

A machine for making insulation may include two or more rotatory members configured to pull a precut insulation product at a first rate, wherein the precut insulation product comprises a first paper layer, a second paper layer, and a continuous paper core sheet, a first restraint and a second restraint spaced apart a predetermined distance to create a first space therebetween, and two or more second rotary members configured to feed a continuous paper sheet at a second rate into the first space such that the continuous paper sheet forms a plurality of flexible loops defining a plurality of air channels that extend in a direction that is substantially perpendicular with a machine direction. The first rate may be slower than the second rate.

An object is to propose a fluid handling device for liquid hydrogen that prevents evaporation of liquid hydrogen, and moreover affords excellent heat insulation without liquefying oxygen in the vicinity. In a fluid handling device for liquid hydrogen, piping sections (1) have a heat insulation structure, a swivel joint section (2) is configured with helium gas sealed into a boundary relative-rotation section (6) between an outer ring section (3) and an inner ring section (4) with a bearing section (5) interposed, and moreover, between an outside-air-contacting wall section (7) that is in contact with the outside air and a liquid-hydrogen-contacting wall section (8) that is in contact with liquid hydrogen, a vacuum section (9) extends in the axial direction and moreover a heat-conducting extended path section (10) is provided with one end connected to the outside-air-contacting wall section (7) and the other end connected to the liquid-hydrogen-contacting wall section (8), extending the heat conduction distance between the outside-air-contacting wall section (7) and the liquid-hydrogen-contacting wall section (8), and reducing heat conductivity between the outside-air-contacting wall section (7) and the liquid-hydrogen-contacting wall section (8).

An object is to propose a fluid handling device for liquid hydrogen that prevents evaporation of liquid hydrogen, and moreover affords excellent heat insulation without liquefying oxygen in the vicinity. In a fluid handling device for liquid hydrogen, piping sections (1) have a heat insulation structure, a swivel joint section (2) is configured with helium gas sealed into a boundary relative-rotation section (6) between an outer ring section (3) and an inner ring section (4) with a bearing section (5) interposed, and moreover, between an outside-air-contacting wall section (7) that is in contact with the outside air and a liquid-hydrogen-contacting wall section (8) that is in contact with liquid hydrogen, a vacuum section (9) extends in the axial direction and moreover a heat-conducting extended path section (10) is provided with one end connected to the outside-air-contacting wall section (7) and the other end connected to the liquid-hydrogen-contacting wall section (8), extending the heat conduction distance between the outside-air-contacting wall section (7) and the liquid-hydrogen-contacting wall section (8), and reducing heat conductivity between the outside-air-contacting wall section (7) and the liquid-hydrogen-contacting wall section (8).