A heat conductor and a heated media line having an inner tubular fluid line and at least one heat conductor arranged on the periphery thereof. The heat conductor is formed by a braid made of twisted individual wires and, in particular, an outer protective sheath surrounding the heat conductor and the fluid line. The braid is formed by at least six individual wires surrounding a support element, of which at least one individual wire is made of a copper-nickel (CuNi) alloy, and the remaining individual wires are produced from copper (Cu) or from a nickel-chromium (NiCr) alloy. All of the individual wires have the same diameter.

A carbon nano tube (CNT) conduit heater system includes a CNT sheet having a first surface and a second surface. A first busbar is electrically coupled to the CNT sheet. A second busbar is electrically coupled to the CNT sheet. The second busbar is arranged substantially parallel to the first busbar. A first protective layer is disposed on the first surface and a second protective layer is disposed on the second surface, wherein the second protective layer is joined to the first protective layer encapsulating the CNT sheet the first busbar and the second busbar forming a heater assembly having a first side and a second side.

A plural component dispensing system includes a first heated hose, a second heated hose, a controller, and a dispensing device. The first heated hose and the second heated hose include electrical wires that supply heat to the first and second heated hoses to heat fluid components within the first and second heated hoses. The first and second heated hoses are electrically coupled to the controller and are fluidly coupled to the dispensing device. The controller is configured to control and alternate the electrical power supplied to the first heated hose and the second heated hose to heat the first heated hose independent of the second heated hose.

A plural component dispensing system includes a first heated hose, a second heated hose, a controller, and a dispensing device. The first heated hose and the second heated hose include electrical wires that supply heat to the first and second heated hoses to heat fluid components within the first and second heated hoses. The first and second heated hoses are electrically coupled to the controller and are fluidly coupled to the dispensing device. The controller is configured to control and alternate the electrical power supplied to the first heated hose and the second heated hose to heat the first heated hose independent of the second heated hose.

There is provided a method of manufacturing a heater assembly for an aerosol generating system, including providing a flexible wick; applying tension to the flexible wick; assembling a heating element around the flexible wick; and releasing the tension from the flexible wick.

There is provided a method of manufacturing a heater assembly for an aerosol generating system, including providing a flexible wick; applying tension to the flexible wick; assembling a heating element around the flexible wick; and releasing the tension from the flexible wick.

An electrically heated aerosol generating system for receiving an aerosol-forming substrate includes at least one electric heater for heating the aerosol-forming substrate to form the aerosol. The heater includes a heating element of a first cross section electrically connected to a plurality of elongate support elements. Each support element has a cross section greater than the first cross section. At least one of the support elements is integrally formed with the heating element.

An electrically heated aerosol generating system for receiving an aerosol-forming substrate includes at least one electric heater for heating the aerosol-forming substrate to form the aerosol. The heater includes a heating element of a first cross section electrically connected to a plurality of elongate support elements. Each support element has a cross section greater than the first cross section. At least one of the support elements is integrally formed with the heating element.

A heater for an aerosol-generating device is provided, the heater including: a flexible electrically insulating substrate including a first portion, a second portion, and a fourth portion, in which the flexible electrically insulating substrate is rolled into a tube; control electronics disposed on the first portion of the flexible electrically insulating substrate; a heating element including an induction coil and being disposed on the second portion of the flexible electrically insulating substrate; and a susceptor element arranged on the fourth portion of the flexible electrically insulating substrate. An aerosol-generating device is also provided, including a cavity to receive an aerosol-generating article including an aerosol-forming substrate, and the heater. A system is also provided, including the aerosol-generating device and the aerosol-generating article including the aerosol-forming substrate.

A heating device comprises a tubular carrier with an outside and an inside, an insulating layer on the outside of the carrier, heating conductors, conductor tracks, and contact fields on the insulating layer, and a connection device for an electrical connection of the heating device, wherein the connection device has a plurality of metallic contact feet. The connection device is attached at the contact fields with the contact feet and is electrically connected thereto. Additional electrical insulation is arranged between the connection device and the outside of the carrier. This can be, for example, one of several individual insulating layers that together form the entire insulating layer.