An aerosol-generating system includes two substance sources, including a nicotine source and a second substance source, and a susceptor for heating any one of the two substance sources. The system also includes a power source connected to a load network, the load network including an inductor for being inductively coupled to the susceptor. The two substance sources are thermally coupled such that the other one of the two substance sources not heated by the susceptor is heatable by heat transfer from the one of the two substance sources that is heated by the susceptor. An aerosol-generating article includes a cartridge including a first compartment and a second compartment source, and a susceptor is arranged in any one of the first compartment or the second compartment.

A system and method can comprise a heat source, a plasma assisted vitrifier comprising a syphon valve; and a self-cleaning heat exchanger comprising a fired tube side and a water tube side. The self-cleaning heat exchanger can be configured to receive a heat source comprising an oxidized fossil fuel to one of the fire tube side or the water tube side and the self-cleaning heat exchanger can be further configured to receive a dirty water input on the other of the fire tube side and the water tube side to generate a steam. The plasma assisted vitrifier can be configured to process an organic or inorganic solid waste. The syphon valve is configured to assist in generating a reclaimed product, and the plasma assisted vitrifier is further configured to supply a portion of the process heat to the self-cleaning heat exchanger.

An induction humidification system is disclosed. The induction humidification system includes a base having a circumferential induction coil and a removable and replaceable cartridge received within the interior space defined by the induction coil. The canister has a nonmetallic housing, such as a plastic housing, within which a ferromagnetic member having a circumferential sidewall is disposed. When the canister is received within the base, the ferromagnetic member sidewall and the induction coil are radially overlapping such that a current applied to the induction coil causes the ferromagnetic member to be heated which in turn causes water held within the canister to be converted to steam. Once the ferromagnetic member has reached the end of its useful life, the canister can be simply replaced with a new canister that can be received by the original base.

An inductively heatable susceptor for use with an inductively heated aerosol-generating device or system includes an open-porous inductively heatable ceramic material configured to hold an aerosol-forming liquid and configured to heat the aerosol-forming liquid under the influence of an alternating electromagnetic field. A cartridge for use with an aerosol-generating device includes an aerosol-forming liquid and a susceptor. An aerosol-generating device includes a susceptor.

A triphase organic matter pyrolysis system includes multiple devices cooperating with each other. The feeding device delivers organic matters into the preheating device. The preheated organic matters are delivered into the pyrolysis and carbonization reaction device. The steam generating device produces a saturated steam which is delivered into the water ion generating device which heats the saturated steam into a superheated steam which is dissociated into water ions which are delivered into the pyrolysis and carbonization reaction device. The water ions cut, dissociates and carbonizes the organic matters to form carbon residues and gas-liquid wastes. The heat energy is recycled by the heat recycle device and is delivered into the preheating device. The gas-liquid wastes are processed by the gas-liquid separation device and the gas purifying device to form gas and liquid that are harmless.

A vaporizer device includes a housing, a wick element that is configured to contact a vaporizable substance, an induction heating element located within the housing and inductively coupled to the wick element and not in contact with the wick element, and a power source electrically connected to the induction heating element. The wick element is positioned such that the induction heating element is around the wick element and the wick element is surrounded by the induction heating element. The wick element is configured to heat the vaporizable substance based on induction heating. The induction heating element receives an alternating current from the power source and creates an electromagnetic induction field around the wick element, and the wick element generates heat based on the electromagnetic induction field.

A working-fluid generator comprising an electrically conductive vessel that is surrounded by an inductive coil and has conductive, longitudinal members that extend through the vessel. A fluid inlet passes through a one-way valve. Fluid heated by the interaction between the inductive coil and the combination of conductive vessel and conductive, longitudinal members is converted to working fluid in the form of a gas that builds pressure in the air-filled space inside the vessel. Air in the pressurized gas is released through a valve, leaving a working fluid. This fluid is controllably released through a solenoid valve and into a conduit leading to a working-fluid-driven machine. A renewable-energy resource may be used to preheat the fluid to be introduced to the working-fluid generator.

An energy recovery system is provided. The energy recovery system may comprise an inductive heating coil configured to have a cooling fluid flow through the inductive heating coil and a heat exchanger fluidly coupled to the inductive heating coil and configured to produce a steam source. The steam source drives a pump.

An inductively heatable susceptor for use with an inductively heated aerosol-generating device or system includes an open-porous inductively heatable ceramic material configured to hold an aerosol-forming liquid and configured to heat the aerosol-forming liquid under the influence of an alternating electromagnetic field. A cartridge for use with an aerosol-generating device includes an aerosol-forming liquid and a susceptor. An aerosol-generating device includes a susceptor.

The present disclosure discloses an atomizing device for an electronic cigarette and an electronic cigarette having the same. The atomizing device includes a housing and an electromagnetic induction heating device disposed in the housing. The electromagnetic induction heating device includes a plurality of electromagnetic induction coils and an induction heater, the plurality of electromagnetic induction coils being disposed on the periphery of the induction heater, the induction heater is configured to generate a corresponding vortex in a magnetic field which is generated by the plurality of electromagnetic induction coils, and the induction heater is configured to radiate heat from the periphery to heat and bake tobacco materials in the electromagnetic induction heating device. The atomizing device for an electronic cigarette according to the present disclosure has a high heating efficiency and is capable of sufficiently decomposing tobacco materials.