An apparatus for heating or cooling a room of a building with an exterior wall includes a radiant panel supported on an exterior wall, which includes a fluid conduit for passage of a fluid. The fluid enters through an inlet and exits through an outlet of the radiant panel and goes through a transmission tube and into a heat exchanger, which is located on the exterior side of the wall. The fluid then flows through the transmission tube and enters the inlet of the radiant panel.

An apparatus for heating or cooling a room of a building with an exterior wall includes a radiant panel supported on an exterior wall, which includes a fluid conduit for passage of a fluid. The fluid enters through an inlet and exits through an outlet of the radiant panel and goes through a transmission tube and into a heat exchanger, which is located on the exterior side of the wall. The fluid then flows through the transmission tube and enters the inlet of the radiant panel.

A system for obtaining energy consumptions, savings and cost reduction in structures adapted for human habitation which includes the utilization of a plurality of mats including phase change material encapsulated within first and second layers of plastic material having heat transfer capability disposed within the plenum area above a ceiling of a room within a building with the amount of phase change material contained within each mat being between 0.5 lbs. and 0.67 lbs. per square foot.

A baseboard heating system mounted proximate a juncture of a wall and a floor of a room. The system includes a length of longitudinal piping for the passage of a heated liquid there through and radiating heat fins surrounding the length of longitudinal piping. A heat reflective metal backplate is mounted to the wall behind the length of longitudinal piping and the radiating heat fins. A baseboard heater cover is adapted to cover the piping and heat fins either as an original heater cover or a replacement. The heater cover is supported by the floor and extends at least the length of the longitudinal piping and the radiating heat fins. The heater cover is removably, adjustably and magnetically coupled to the heat reflective metal backplate. The heater cover may be selectively removed to access the longitudinal piping and radiating heat fins and be easily adjusted for proper placement.

A baseboard heating system mounted proximate a juncture of a wall and a floor of a room. The system includes a length of longitudinal piping for the passage of a heated liquid there through and radiating heat fins surrounding the length of longitudinal piping. A heat reflective metal backplate is mounted to the wall behind the length of longitudinal piping and the radiating heat fins. A baseboard heater cover is adapted to cover the piping and heat fins either as an original heater cover or a replacement. The heater cover is supported by the floor and extends at least the length of the longitudinal piping and the radiating heat fins. The heater cover is removably, adjustably and magnetically coupled to the heat reflective metal backplate. The heater cover may be selectively removed to access the longitudinal piping and radiating heat fins and be easily adjusted for proper placement.

Using thermal radiation to supply occupant comfort has long existed in the heating domain, and to a lesser scale in the cooling domain. Cooling power of radiant cooling systems is limited by the risk of condensation on the panel itself, as well as adjacent surfaces. Similarly, convective system losses to the ambient air prevent maintaining a large temperature difference from the surface and the surroundings. The disclosed approach combats these common pitfalls of radiant cooling systems in the building domain, increasing the power and therefore applicability of radiant cooling.

A self-assembly hot water mat capable of extending through an assembly, the self-assembly hot water mat capable of being assembled with other self-assembly hot water mats, having four sides, and including a path for circulating hot water includes a plurality of hot water passages formed in the self-assembly hot water mat to provide a plurality of hot water flow paths, an inlet formed at each of the four sides, through which hot water flows in, and an outlet formed at each of the four sides and paired with the inlet, through which hot water flows out.

A self-assembly hot water mat capable of extending through an assembly, the self-assembly hot water mat capable of being assembled with other self-assembly hot water mats, having four sides, and including a path for circulating hot water includes a plurality of hot water passages formed in the self-assembly hot water mat to provide a plurality of hot water flow paths, an inlet formed at each of the four sides, through which hot water flows in, and an outlet formed at each of the four sides and paired with the inlet, through which hot water flows out.

A floor support includes a base having a bottom surface and a top surface; a plurality of bosses arranged in an ordered array on the base, the ordered array configured to provide multiple options for routing an electric heating cable among the plurality of bosses; and a thermal insulation layer adjacent the bottom surface. Each of the plurality of bosses includes an upper surface; a perimeter wall extending from the upper surface to the top surface, the perimeter wall sloping underneath the upper surface; and an interior wall sloping continuously toward an interior of the boss as the interior wall as the interior wall extends from the upper surface to the top surface.

The invention is a system for heating, cooling or both heating and cooling a room. The system includes a channel layer with a first and a second outer surface and a plurality of adjoined waterproof channels disposed therebetween. Each channel is configured to allow a fluid to pass through. The channel layer is configured to be in thermal communication with a room. The system also includes spacing elements configured to space the channel layer a distance from a wall of the room.