A gas station for delivery of gas to appliances, in particular in a building, comprising a casing (12) and a gas regulation device (13) with several components comprising a gas regulator 14 and one filter (32), wherein the gas regulation device (13) is mounted or mountable within the casing (12), wherein the casing (12) comprises a ground plate (10) and a cover element (11) being securable or secured onto the ground plate (10), wherein the ground plate (10) is configured for mounting to a wall or to an external mounting post (50).

A gas station for delivery of gas to appliances comprising a casing and a gas regulation device comprising at least a gas regulator and a filter. The gas regulation device is mounted within the casing which comprises a ground plate and a cover element secured onto the ground plate. The ground plate is configured for mounting to a wall or an external mounting post and comprises at least one spacer, so that the ground plate is attached to the wall or the external mounting post in such a way that a predefined gap is maintained between the ground plate and the wall or between the ground plate and the mounting post. The ground plate includes a flap which supports the gas regulation device and the cover element and a hook configured to hook the cover element in the ground plate via a locking element.

Thermal insulating system for high temperature industrial tanks and equipment, comprising thermal insulating material, a covering system and a support system. The covering system has covering sheets fixed only to the support system. Adjacent covering sheets overlap longitudinally giving rise to overlapped sections comprising an upper part from one of the adjacent covering sheets and a lower part from the other adjacent covering sheet. At least a substantially omega-shaped longitudinal assembly clip is placed at each overlapped section, on the interior sides of the covering sheets, which has a first end attached to the upper part, a central portion separated from the covering sheets, and a second end contacting the lower part of the overlapped section and pressing said lower part.

A heat-shielded conduit includes a tube, a heat shield, and a truss structure. The tube has a tube inner diameter and a tube outer diameter. The heat shield radially surrounds the tube. The heat shield has a shield inner diameter greater than the tube outer diameter to form a first gap between the heat shield and the tube. The truss structure is integrally formed together with both of the tube and the heat shield to space the shield inner diameter from the tube outer diameter and maintain the first gap.

A pipe anchor is disclosed having a pipe trunnion stop for attaching to an outer surface of a pipe by welding. A mating top cradle and a bottom cradle generally encircle and hold a length of the pipe. The bottom cradle has a pass-through to accommodate the pipe trunnion stop. There is a base onto which the bottom cradle sets, the base includes a void into which the pipe trunnion stop is secured. An insulation layer is positioned between the pipe and the top cradle and bottom cradle, and around the pipe trunnion stop. A bolting assembly on the top cradle and a mating bolting assembly on the bottom cradle secure the top cradle and the bottom cradle to each other. Another embodiment includes multiple pipe trunnion stops along with respective pass-through and base void sections.

A segmented thermal barrier for a combustion chamber surface of an internal combustion engine. The segmented thermal barrier includes a plurality of modules, each module with a support and a shield. The edges of shields of at least two adjacent modules are spaced apart by a distance.

Systems and methods according to the present invention utilize improved sleeves for insulating fluid (i.e., liquid and/or gas) conduits. For example, some blow dryers are equipped with a flexible conduit to convey heated air from a heater element to a nozzle for such purposes as material handling, material drying, or even hair drying, such as pet or other animal hair drying. An improved insulating tubular sleeve is provided with securing and/or mounting mechanisms to assist in maintaining sleeve position along a conduit and to reduce heat transfer externally from the conduit, such as by preventing direct contact between animal hair or skin or other materials and the conduit.

A pipe anchor is disclosed having a pipe trunnion stop for attaching to an outer surface of a pipe by welding. A mating top cradle and a bottom cradle generally encircle and hold a length of the pipe. The bottom cradle has a pass-through to accommodate the pipe trunnion stop. There is a base onto which the bottom cradle sets, the base includes a void into which the pipe trunnion stop is secured. An insulation layer is positioned between the pipe and the top cradle and bottom cradle, and around the pipe trunnion stop. A bolting assembly on the top cradle and a mating bolting assembly on the bottom cradle secure the top cradle and the bottom cradle to each other. Another embodiment includes multiple pipe trunnion stops along with respective pass-through and base void sections.

Systems and methods are provided for insulating and heating a subsea pipeline. A system may comprise a subsea pipeline including a lower portion embedded in a seafloor and an upper portion above the seafloor. The system may include an insulating layer. The insulating layer may include a middle portion covering the upper portion of the subsea pipeline. The insulating layer may further include an end portion covering the seafloor. The insulating layer may form a cavity adjacent to the seafloor, the subsea pipeline, and the insulating layer. The system may further include a plurality of heater cables within the cavity. The plurality of heater cables may be configured to heat a fluid within the subsea pipeline. The plurality of heater cables may be separated from the subsea pipeline only by seawater or by soil of the seafloor within the cavity.

Support element and method for a cryogenic fluid circuit comprising a plurality of orifices intended for the passage of cryogenic-fluid transfer pipes, said support element comprising at least one thermal path formed between two adjacent orifices, the thermal path comprising a blind opening, the opening being delimited by two spaced-apart walls extending between two ends in a longitudinal direction perpendicular to the plane of the orifices, the two walls being joined together by an end wall, the support element being characterized in that it comprises a first set of orifices which is surrounded by a first thermal path and a second set of orifices, the first thermal path being situated between the first set of orifices and the second set of orifices, which means to say that the first thermal path is in thermal and mechanical connection with, on the one hand, all the orifices of the first set of orifices and, on the other hand, all the orifices of the second set of orifice.