Abstract: A radiator having a sealed flow path through which electrically heated fluid is arranged to pass. A control unit is provided in the radiator which is arranged to control operation of the radiator. The radiator also has a receiving unit arranged to receive at least one operation instruction from a remote control unit in use. The receiving unit is arranged to pass the at least one operation instruction to the control unit so that, in use, the radiator is controllable by the remote control unit. Also, an inlet pipe supplies water to a heater by a pump. The water then passes through a pipe comprising an inverted U-bend which controls air at the top of the bend. The radiator comprises a sealed system that plugs into the mains. Different radiators are able to communicate with each other.

Abstract: A system for analyzing an interior energy system including: at least one detachable sensor arranged to monitor a portion of the interior energy system; and an apparatus including a processor configured to receive data of a first parameter of the interior energy system from the at least one detachable sensor and determine a second parameter of the interior energy which is inferred on the basis of the received data of the first parameter; and determine a characteristic of the interior energy system from the determined second parameter. The system may provide analysis of the interior energy system and recommend improvements.

Abstract: A system for installing tubing of hydronic thermal control systems in the walls, including ceilings, of buildings. It allows for the stable incorporation of the tubing in the walls while ensuring good thermal conductivity between the tubing and the building's room. The system features a wall including a hydronic thermal management system. The wall comprises a vertically-extending wall support structure, tubing panels secured to the wall support structure, the panels being constructed from wood material, tubing in the tubing panels for carrying a heat transfer fluid, and drywall panels secured over the tubing panels. A filling material is applied between the tubing and the drywall panels. Also a high thermally conductive layer, such as aluminum foil, is used between the filling material and the drywall panels or between the filling material and the tubing panels.

Abstract: The present invention relates to a portable boiler for a hot mat, which comprises: a water reservoir, one side of which has an inlet pipe for introducing water circulating through the hot mat, and which stores the water; a heat transfer unit in which the water discharged from the water reservoir flows along a flow channel pipe to be heat exchanged, wherein the water is discharged to the hot mat via an outlet pipe formed at one side thereof; a heating unit which burns the fuel gas fed from a fuel tank to heat the water in the heat transfer unit; and a housing which forms the outer appearance of the boiler.

Abstract: A method for controlling a boiler includes firing a boiler, and monitoring a temperature deviation between a boiler temperature and a heating temperature profile over time. If the temperature deviation exceeds an allowable deviation, the boiler is shut off.

Abstract: A system for installing tubing of hydronic thermal control systems in the walls of buildings. It allows for the stable incorporation of the tubing in the walls while ensuring good thermal conductivity between the tubing and the building's room. The system features a wall including a hydronic thermal management system. The wall comprises a vertically-extending wall support structure, tubing panels secured to the wall support structure, the panels being constructed from wood material, tubing in the tubing panels for carrying a heat transfer fluid, and drywall panels secured over the tubing panels. A filling material is applied between the tubing and the drywall panels. Also a high thermally conductive layer, such as aluminum foil, is used between the filling material and the drywall panels or between the filling material and the tubing panels.

Abstract: A portable heating system used to heat a person while in cold environments. A heating unit containing a fuel combustion chamber and a heat exchanger oxidizes a fuel to produce heat. The heat from the oxidation process is transferred to the fluid using the heat exchanger. The fluid either boils or simply becomes less dense than cooler fluid in the heat exchanger and thus more buoyant. Convection moves the heated fluid upwards in to a thin bladder encapsulating the fluid and held against a person. The elevated kinetic energy in the bladder creates an entropy differential to the person. This differential allows the kinetic energy in the bladder to flow to the person thus warming them. The fluid now having less energy, now denser, flows back down the bladder to the heating unit by gravity.

Abstract: A structure of a dry heating system, and a method for constructing the same are disclosed. An upper board stacked on a heat radiator has a double-layer structure comprising first upper board elements and second upper board elements in order to prevent steps from being formed at seaming portions formed on the upper portion of the dry heating system, thereby maintaining flatness of the upper board, and reducing any bending of the upper board, in which the first upper board elements constitute a lower portion of the double-layer structure, and serve to protect the heat radiator while supporting a weight load, and the second upper board elements constitute an upper portion of the double-layer structure, and serve to maintain the flatness of the upper board by removing the steps, thereby ensuring excellent quality in construction of the dry heating system.

Abstract: A radiant panel for use in radiant heating and cooling systems that provides numerous benefits over conventional panels currently in use. The radiant panel comprises an offset hydronic radiant tube channel in which is nested a hydronic radiant tube that obviates the need to thread the hydronic tubes through the joists in a ceiling installation or the studs in a wall installation. In an alternative embodiment, specific emissivity coatings on each side of the radiant panel further promote the efficient transfer of heat. The system provides increased sound isolation and is robust enough to withstand the crushing forces associated with a floor installation.

Abstract: Radiant module and relative method of production, for a heating device for rooms, comprising two heat-conductor plates, respectively first and second, associated with each other to define a central portion inside which a heated heat-carrying fluid flows. The first heat-conductor plate comprises lateral walls which develop from the central portion away from the second heat-conductor plate, to define a channel inside the radiant module which develops and narrows from the lower part of the radiant module towards its upper part and through which a flow of heated air is accelerated and guided.

Abstract: There is disclosed a building energy system comprising a building enclosure having an interior and exterior. The building enclosure comprises an insulated building envelope that incorporates perimeter windows with a centre-of-glass R-value of R-4 or higher, at least one upper exhaust outlet and at least one lower supply intake that connect to the exterior of the building enclosure, and at least one central space that is connected to the lower supply intake and one or more perimeter rooms located adjacent to the central space. Each perimeter room comprises one or more lower wall vents that connect to the central space, and one or more upper vents connected to the upper exhaust outlet. The upper exhaust outlet incorporates a regulator to minimize ventilation air heat loss while maintaining indoor air quality. The regulator may comprise an automated damper and a motorized fan selectively operated based at least in part on measurements of air pollution contaminants.

Abstract: The present invention relates generally to a radiant heating assembly, system and method. One or more elongate thermally insulative panels are coupled to one or more elongate structural members wherein each such panel assembly may be placed adjacent or in longitudinal alignment with another such panel assembly. The structural members are configured to extend longitudinally and/or recess longitudinally with respect to the structural members for assisting in longitudinal alignment thereof. The thermally insulative panels may include a radiant heating element received on a surface thereof. A tubing for transporting heated water or electrical energy may be received by the radiant heating element for delivering heat therethrough. One or more edge panels may be positioned at a longitudinal edge of the thermally insulative panels wherein a groove in a surface thereof provides for the delivery of the tubing from one thermally insulative panel to another.

Abstract: An integrated system for hydro-thermo-sanitary apparatuses comprising electric current generating means, a control board, water temperature sensors and LEDs or strips of LEDs arranged near the water outlet section for indicating the dispensed water temperature according to the colour with which the light of the LEDs is emitted. An acoustic-vocal indicator may also be provided.

Abstract: The invention relates to a multilayer tube comprising (from the inside to the outside of the tube): an optional layer (C1) consisting of at least one fluorinated polymer; a layer (C2) consisting of at least one radiation-grafted fluorinated polymer which is optionally mixed with at least one fluorinated polymer; an optional layer (C3) of adhesive binder; a layer (C4) consisting of at least one polyolefin or a mixture of at least one polyolefin with at least one functionalised polyolefin; a barrier layer (C5) consisting of a metal shield or comprising EVOH or a mixture based on EVOH, a PVDF or a PGA; and an optional layer (C6) consisting of at least one polyolefin.

Abstract: A heat exchanging apparatus including a gas fuelled flameless heater and a heat exchanger loop. The heat exchanger loop includes a heat absorbing section which is contained within the flameless heater so that the flameless heater provides a heat source for the heat exchanger loop, and the heat exchanger loop further includes a heat transferring section for transferring heat from the heat exchanger loop to a heat sink.

Abstract: A coil modulator apparatus for use in connection with heat transfer coil assemblies found in commercial heating and air conditioning units is used to divert passage of water flow in certain sections of each tube in the coil assembly. The coil modulator apparatus comprises an inner valve, having valve ports in the sides of the valve, that rotates within an outer housing. Apertures in the outer housing connect with each tube in the bank of tubes so that there is an aperture in the outer housing that connects with both the downstream tube section and the upstream tube section of each tube. A portion of the water that collects in the modulator then flows back out of the modulator and into each of the downstream sections of every tube in the coil assembly. Another portion of the water in the modulator is diverted from the bank of tubes so that it flows out of the bypass tube of the modulator and directly back to the return feed of the coil assembly unit.

Abstract: A hydronic radiant heater bed warmer (RBW) is mounted in the support structure beneath the top surface of a conventional bed that has a mattress on springs supported by the bed support structure.

Abstract: A hydronic room heating device in the form of a baseboard heating panel of air entrained concrete with concrete radiating fins molded on the back of the panel with an upper concrete heating element section positioned to allow air flow past the fins upwardly and out through the opening between the upper element and the panel using low temperature heated water from solar heated systems.

Abstract: A radiator for heating installations comprises an external container consisting of component elements, and a heat exchanger which goes through the entire assembly of elements forming the radiator acting as the tie-beam which holds the elements together. A second tie beam is positioned in the upper part of the elements to hold them together. The finned tube which constitutes the heat exchanger, is provided with an internal coaxial tube, of length slightly smaller than the external tube. The primary heating fluid returns through the internal tube so that the supply of the fluid is carried out from a single extremity of the apparatus. Since the walls of the radiator are not subjected to high pressure, the radiator may be manufactured of material of modest mechanical resistance, for instance plastic material.

Abstract: The radiator consists of a plurality of tubular elements A arranged side by side and in successive order to one another, said elements being connected at the lower and upper ends thereof.Each element is made of a parallelipipedically shaped block, the upper end whereof is tapered, whilst wings 32 and and edges 22 are provided at the opposed faces of said block to engage head against head, in order to form, between the various elements, chimney-like ducts 28, the upper openings 36-38 whereof have a smaller cross section than the lower ones, in order to increase the circulation of hot air.

Abstract: Radiator for transmitting heat from a fluid medium to a surrounding atmosphere. The radiator of the invention contemplates rapid and efficient manufacture of radiator units of different sizes from stock material and is arranged for such manufacture either in a factory or at a construction site. Preferably identical top and bottom channeled parts are provided as top and bottom headers of the radiator and extrudable connecting channels are provided for connecting the top and bottom headers. The connecting channels may be cut in any desired length to provide the radiator units of selected sizes and radiating capacity but without change in the manner of connecting the connecting units into and with respect to the top and bottom headers. A variety of ways are shown for effecting such connecting as well as for providing appropriate fluid connections to and from the radiator units.