The invention relates to a method of determining power consumption of an electrical heating system, where the power consumption is defined by a reading of information from a conductor (4, 6) within a thermostat (1). The invention further relates to a thermostat comprising an element for determining the power consumption of an electrical heating system, where the thermostat (1) is provided with a reading element (5) for reading current from a conductor (4, 6) and a reading element (28) reading voltage from a transformer output.

An electric heating system is provided including first and at least second electric heating devices. The first and at least second electric heating devices each include or have associated therewith communication means, whereby data concerning all or one or more of the heating devices can be communicated directly to or between the first and at least second electric heating devices.

A hot water system includes an electrical water heater for instantly heating up cold water running in pipe. The electrical water heater is installed with a bypass switch for users to switch off the system if necessary. To prevent water damage caused by leaking, a pressure relief valve is installed on the outgoing water pipe of the water heater and a drain saddle valve is installed on the drain pipe. Both valves are connected with a water hose. The hot water system will save a lot of time and clean water while waiting for hot water coming from the main water heater. The system allows the user to access instant hot water safely and achieve a much easier and more comfortable life.

An apparatus and method to selectively create a heat transfer effect and sensation of cooling with fluid flow that is directed within bedding on a mattress or within the mattress or within a region between the bedding and the mattress. A programmable application is accessible on a wireless network and is programmed to provide appropriate settings to attain changes over time of the region. In response to receipt of signals indicative of fluid flow rate, temperature and duration settings, a heat transfer device carries out the heat transfer in accord with an initial one of the temperature settings for an initial one of the duration settings and then in accord with a subsequent one of the temperatures settings for a subsequent one of the duration settings. The subsequent one of the temperature settings constitutes a change in the temperature setting from the initial one of the temperature settings.

A method of managing a combi radiator (1), the method comprising the following steps that are repeated for each current day, and for each current period taken from a predetermined set constituted by at least one successive period defined in the current day:

acquiring a predetermined indication from a predefined table (30), said predetermined indication being associated with said current period and being taken from a list comprising a first indication for which only the electrical radiator system (2) is to be activated, and/or a second indication for which only the hot-water radiator system (3) is to be activated, and/or a third indication for which both the electrical radiator system and the hot-water radiator system are to be activated;

controlling the radiator as a function of the predetermined indication.

The present invention relates to a heating paint which can be used to generate a surface heating device on a wall. The invention further relates to a surface heating device which is suitable in particular for heating a room, and also to a kit for producing a surface heating device on a wall. The invention relates, moreover, to uses of the subjects of the invention, especially for producing a surface heating device and, respectively, for heating a room, and to corresponding methods.

An adapter device and/or a thermostat device for use during installation and testing of in-floor heating systems. The adapter device allows for temporary electrical interconnection between a mat and an AC power source, and includes at least one switch configured to actuate based on a user-supplied force (e.g., a finger press) to temporarily electrically couple the mat to an AC power source. The at least one switch is further configured to automatically de-actuate in the absence of the user-supplied force to electrically decouple the mat from the AC power source. The thermostat device includes at least one integrated power measurement circuit for testing and diagnostics of an in-floor heating system.

A heater is described. The heater includes a fuel cell to produce heated air, electricity and water vapor. The heater further includes a heating element operatively coupled to the fuel cell to convert the electricity to heat and a control system operatively coupled to the fuel cell and the heating element, the control system being configured to monitor and control the fuel cell and heating element.

Some deck or patio areas constructed of payers mourned on adjustable pedestal supports must remain snow and ice free on their top surfaces. The pedestal-mounted paver heating system is designed to allow easy installation of electric heating cable that is positioned against the bottom surface of pavers so that heat generated by the cable is efficiently transferred up into the payers to raise their temperature enough to prevent the accumulation of snow and ice on their top surfaces.

A heating system having: i) at least one resistive heat element; ii) at least two terminals for receiving a grid voltage from a power grid, and iii) a controller for being connected to the terminals for receiving the grid voltage, the controller connected to the at least one resistive heat element and being configured for controlling a load current through the at least one resistive heat element, wherein the controller is configured controlling the load current though the at least one resistive heat element. The controller comprises an FCFO-bidirectional power switch connected in series with the at least one resistive element for controlling the load current that is received from the power grid. A method is for controlling the load current through the at least one resistive element, which applies a certain algorithm to avoid inrush current, shortens the length of a cold start and solves problems such as EML.