A gas phase type heating method includes loading an object into a vapor heating furnace or a heating furnace via a loading/unloading portion, cooling vapor of a heat transfer liquid by a cooler provided above the loading/unloading portion in the vapor heating furnace, and causing a gas to go in and out, making a pressure in a continuous furnace uniform, and heating the loaded object, by a connection portion that is provided above the cooler and has a pressure loss smaller than a pressure loss of the loading/unloading portion.

A heating system includes at least one electric heater disposed within the fluid flow system. A control device includes a microprocessor and is configured to determine a temperature of the at least one electric heater based on a model and at least one input from the fluid flow system. The control device is configured to provide power to the at least one electric heater based on the temperature of the at least one electric heater.

The present invention discloses a water dispensing device including a water tank and at least one heating module. Each heating module includes a body and a heating plate, the body includes a groove, an input terminal located one end of the groove and connected the water tank, an output terminal located other end of the groove, and a plurality of ribs. The ribs formed on the bottom surface of the groove and the height is less than a depth of the groove, two arms of the ribs connect the sidewalls of the groove, and the density of the arrangement is decremented from the input terminal to the output terminal. The heating plate is covered the groove and doesn't contact the ribs, and the surface of the heating plate which is deviated from the groove has a plurality of heating units, be used to convert the power into the heat energy.

A method for the manufacture of an electrical heating unit for use in an exhaust gas system and the use of an electrical heating unit obtainable by this method are described. The method comprises forming the electrical heating unit as a single piece by additive layer manufacturing. An exhaust gas system comprising the electrical heating unit and a downstream catalyst article is also described.

An air-heating type heat not burn heating device, a ceramic heating element and a preparation method thereof are provided. The ceramic heating element includes a honeycomb ceramic body and a heating printed circuit. Porous channels are arranged in the honeycomb ceramic body, and the porous channels are circular holes or polygonal holes. The heating printed circuit is arranged around an outer surface of the honeycomb ceramic body to heat the air passing through the porous channels. According to the ceramic heating element, the surface made of high purity alumina honeycomb ceramic has high compactness, it is able to effectively prevent absorption of smoke dust particles, thus to effectively preventing odd smell; the high-purity alumina honeycomb ceramic has good thermal conductivity, with a thermal conductivity of 33 W/mk; the wall thickness and pore diameter in the honeycomb ceramic structure are both very small, and the thermal conductivity is extremely excellent.

An aerosol delivery device is provided, and includes a control body serially engaged with a cartridge, the cartridge having an aerosol precursor source housing an aerosol precursor and defining a mouth opening configured to direct an aerosol therethrough to a user. A heater device is operably engaged with the cartridge, wherein the heater device comprises an electrically-conductive carbon element disposed adjacent to a heat-conductive substrate. The heater device is configured to receive the aerosol precursor from the aerosol precursor source onto the heat-conductive substrate, such that the aerosol precursor on the heat-conductive substrate forms the aerosol in response to heat from the electrically-conductive carbon element conducted through the heat-conductive substrate. An associated apparatus and method are also provided.

The present disclosure relates to a heating device for heating a cigarette The heating device includes a housing, a heating chamber arranged in the housing, at least one heating element, a control component, and a power supply. The housing defines an opening for insertion of the cigarette. The heating chamber is configured for partly receiving the cigarette. The at least one heating element is configured for heating the cigarette. The heating element is movably arranged in the heating chamber. The control component is configured for driving the at least one heating element to move, so that the at least one heating element abuts against an outer surface of the cigarette. The power supply is configured for supplying the at least one heating element power.

An electronic vaporizing device comprising at least one power source for power generation for operation of the device, wherein at least a portion of the power generated thereby may be provided to at least one other electronic device that may be connected or associated with the electronic vaporizing device. The electronic vaporizing device may include a power output control component that regulates the power provided to the vaporizing device and to the at least one other electronic device. A method is also provided for the provisioning of power generated by a power source of an electronic vaporizing device.

The invention relates to a vaporization assembly and an electronic cigarette; the vaporization assembly comprises an e-liquid cup assembly and a vaporization core arranged in the e-liquid cup assembly; the e-liquid cup assembly has an e-liquid storage chamber used for accommodating e-liquid; the vaporization core comprises a vaporization base and an electric heating wire assembly; the vaporization base is internally provided with a smoke passageway used for providing passage to the smoke produced by vaporization; the electric heating wire assembly is arranged on the smoke passageway; the electric heating wire assembly comprises an electric heating wire used for heating and vaporizing the e-liquid; the vaporization core comprises an insulating tube used for isolating the vaporization base from the electric heating wire; the insulating tube is interposed in the vaporization base, and supports the electric heating wire along the length of the vaporization base.

An atomization assembly and an electronic cigarette, the atomization assembly comprising an atomization core and an e-liquid cup assembly, the e-liquid cup assembly comprises an e-liquid storage sleeve and a vent pipe, and an e-liquid storage cavity is formed between them; the atomization core comprises an atomization sleeve and a heating wire assembly, a first e-liquid guide hole allowing e-liquid to flow is formed on a side wall of the atomization sleeve; the atomization core further comprises an e-liquid inlet control structure sleeved in the atomization sleeve rotatably or movably in an axial direction of the atomization sleeve, openings for mounting the heating wire assembly are arranged on the e-liquid inlet control structure, when the e-liquid inlet control structure is rotated or axially moved, the opening and the first e-liquid guide through-hole are communicated or completely staggered, so as to open or close the first e-liquid guide through-hole.