A plasma heater includes a plasma heating section, an exhaust wasteheat heating section, a gas circulation pump, a water cooling system, and a treatment tank for waste gas and waste water. Flames emitted by plasma torches of plasma generators are directly sprayed onto first water pipes for heating. Exhaust generated after combustion of the plasma torches flows through the tail gas residual heat heating section in the metal cylindrical casing, then flows out of the metal cylindrical casing to enter the gas circulation pump, and flows back into the plasma generators through the gas circulation pump for recycling. After the circulating exhaust operates for more than 10 minutes, the discharged waste gas and waste liquid enter the recovering treatment tank.

A plasma heater includes a plasma heating section, an exhaust wasteheat heating section, a gas circulation pump, a water cooling system, and a treatment tank for waste gas and waste water. Flames emitted by plasma torches of plasma generators are directly sprayed onto first water pipes for heating. Exhaust generated after combustion of the plasma torches flows through the tail gas residual heat heating section in the metal cylindrical casing, then flows out of the metal cylindrical casing to enter the gas circulation pump, and flows back into the plasma generators through the gas circulation pump for recycling. After the circulating exhaust operates for more than 10 minutes, the discharged waste gas and waste liquid enter the recovering treatment tank.

The present invention provides a portable condensation-free temperature-adjustable radiant cooling board system. The system includes a supporting panel, a movable stand holding the supporting panel and an angle-adjuster. The supporting panel includes at least one water pipe layer, at least one insulation layer on one side of the at least one water pipe layer, at least one high emissivity radiative layer on the other side of the at least one water pipe layer and at least one low humidity layer in front of the at least one high emissivity radiative layer. The invented PRCB has high flexibility in the creation and adjustment of microthermal environments for diverse personal thermal comfort requirements, thus broaden the applicability of PRCSs in hot and humid climates.

A Mobile Soft Duct System includes a soft duct that can be extended and retracted along a track to deliver an air supply to various locations. A vent attached to a part of the soft duct system can include a flow control element that can be adjusted to direct air to a target location. Managing a soft duct system can include monitoring an environment to detect temperature hotspots and configuring the soft duct system, in response to detection of a hotspot at a particular location, to deliver air to the particular location to mitigate the hotspot. Configuring the soft duct system can include extending the soft duct along the track and adjusting a flow control element in a vent to direct air to the particular location. Soft duct system management can be implemented by one or more computer systems.

A Mobile Soft Duct System includes a soft duct that can be extended and retracted along a track to deliver an air supply to various locations. A vent attached to a part of the soft duct system can include a flow control element that can be adjusted to direct air to a target location. Managing a soft duct system can include monitoring an environment to detect temperature hotspots and configuring the soft duct system, in response to detection of a hotspot at a particular location, to deliver air to the particular location to mitigate the hotspot. Configuring the soft duct system can include extending the soft duct along the track and adjusting a flow control element in a vent to direct air to the particular location. Soft duct system management can be implemented by one or more computer systems.

A highly versatile control system which is able to control devices in a linked manner is provided.

The control system is configured to condition air of a single space 9, and includes: an air conditioner 2 and a floor heating apparatus 3 which cannot directly communicate with each other; a router 4 which is able to communicate with the air conditioner 2 and the floor heating apparatus 3 via communication lines 11 and 12; and a terminal device 5 which is connectable to the Internet 10 and is able to communicate with the router 4 via a communication line 13. The air conditioner 2 and the floor heating apparatus 3 are controlled in a linked manner by a control signal sent from the terminal device 5 via the router 4.

Various embodiments may relate to a recycling constant-temperature ceramic floor integrated system, including a floor tile. A plurality of grooves is formed in a bottom surface of the floor tile. The bottom surface of the floor tile is connected to a base plate. A support assembly is laid between each groove and the base plate. The support assembly includes a heat conducting piece and a locating support mounted in up-and-down lapping mode. A reflecting film is disposed between the heat conducting piece and the locating support. The base plate uses a net-structure plate piece, and buckle grooves and buckle blocks are disposed at the periphery of the base plate.

A system and method of recovering waste heat from an engine when the engine is not operating, which includes connecting a heater core to source of fluid heated due to operation of the engine with fluid lines, the flow of fluid from the source of heated fluid controlled by one or more pump, and operating the pumps when the engine is not operating to circulate the fluid from the source of heated fluid through the heater core. A second aspect includes a portable heat recovery system.

A system and method of recovering waste heat from an engine when the engine is not operating, which includes connecting a heater core to source of fluid heated due to operation of the engine with fluid lines, the flow of fluid from the source of heated fluid controlled by one or more pump, and operating the pumps when the engine is not operating to circulate the fluid from the source of heated fluid through the heater core. A second aspect includes a portable heat recovery system.

An indoor lighting and climate system includes a plurality of lighting units arranged in a dispersed manner in a room and a control unit arranged to control the operation of the lighting units in relation to preset climate settings and input signals from at least one temperature sensor, wherein each of said lighting units include a cup shaped housing with an opening, a lamp attachment fora lamp, an open inside space between said lamp and said cup shaped housing, and a fan arranged to produce a forced air flow in said space, characterized in that a circumferentially extending inner dividing wall member is arranged within said cup shaped housing, which circumferentially extending dividing wall separates said open inside space from a heat flow channel arranged within said cup shaped housing.