Disclosed is a vaporizer with a heating element located on a side opposite the mouthpiece. The heating element can heat an herbal product that is located away from the vaporizer and not within a canister that may require multiple heatings of the same product, producing a burnt flavor. The heating element can be in the shape of a coiled straw-like structure or otherwise incorporate a tubular passageway to provide better air flow during inhalation. The air flow tip and the tube can also be a single piece to allow for easier cleaning and replacement, or removal of the air flow tip if the tip includes resin of a controlled substance.

Aspects of the present invention relate to a portable electronic vaporizing device for use in the vaporization of substances, as well as a container for holding and heating a vaporizable product. Methods of using such a device and a removably attachable vaporization module that is compatible with the device are provided. A method of heating vaporizable substances is also provided.

Aspects of the present invention relate to a portable electronic vaporizing device for use in the vaporization of substances, as well as a container for holding and heating a vaporizable product. Methods of using such a device and a removably attachable vaporization module that is compatible with the device are provided. A method of heating vaporizable substances is also provided.

A method of making a prepackaged, combustible unit of a plant based material for use in an inhalation system, metered dose inhaler, or dry powder inhaler. The method includes creating and shaping a combustible material packaging by processing leaves or plant fibers into a fibrous sheet, steaming the fibrous sheet, and using a female mold and a corresponding male mold to shape the combustible material packaging. The method further discloses filling pockets disposed within the combustible material packaging with the combustible material and sealing the combustible material packaging around the combustible material to create a prepackaged, combustible unit. Additional embodiments include various inhalation devices, inhalation systems, kits having instruction as to using the inhalation device, and methods of making the prepackaged combustible unit, and methods for using the inhalation devices.

A method of making a prepackaged, combustible unit of a plant based material for use in an inhalation system, metered dose inhaler, or dry powder inhaler. The method includes creating and shaping a combustible material packaging by processing leaves or plant fibers into a fibrous sheet, steaming the fibrous sheet, and using a female mold and a corresponding male mold to shape the combustible material packaging. The method further discloses filling pockets disposed within the combustible material packaging with the combustible material and sealing the combustible material packaging around the combustible material to create a prepackaged, combustible unit. Additional embodiments include various inhalation devices, inhalation systems, kits having instruction as to using the inhalation device, and methods of making the prepackaged combustible unit, and methods for using the inhalation devices.

A smoking article may include a cigarette incorporated within an electrically powered aerosol generating device that acts as a holder for that cigarette. The smoking article possesses at least one form of tobacco. The smoking article also possesses a mouth-end piece that is used by the smoker to inhale components of tobacco that are generated by the action of heat upon components of the cigarette. A representative smoking article possesses an outer housing incorporating a source of electrical power (e.g., a battery), a sensing mechanism for powering the device at least during periods of draw, and a heating device (e.g., at least one electrical resistance heating element) for forming a thermally generated aerosol that incorporates components of tobacco. During use, the cigarette is positioned within the device, and after use, the used cigarette is removed from the device and replaced with another cigarette.

A device comprises a sensor and processing circuitry coupled to the sensor. The sensor is configured to obtain authentication information from an identification label of a cartridge of an electronic vaping device. The processing circuitry is configured to perform authentication of the cartridge based on the authentication information; and determine whether to unlock a battery section of the electronic vaping device to power the cartridge based on a result of the authentication of the cartridge.

A device comprises a sensor and processing circuitry coupled to the sensor. The sensor is configured to obtain authentication information from an identification label of a cartridge of an electronic vaping device. The processing circuitry is configured to perform authentication of the cartridge based on the authentication information; and determine whether to unlock a battery section of the electronic vaping device to power the cartridge based on a result of the authentication of the cartridge.

An electrically operated aerosol-generating system is provided, including: an aerosol-generating device; an aerosol-forming cartridge including at least one aerosol-forming substrate, the aerosol-forming cartridge being at least partially received within the aerosol-generating device; at least one electric heater configured to heat the at least one aerosol-forming substrate; at least one air inlet and at least one air outlet; and an air flow channel extending between the at least one air inlet and the at least one air outlet, the air flow channel being in fluid communication with the aerosol-forming substrate, the air flow channel having an internal wall surface on which one or more flow disturbing devices are disposed, the flow disturbing devices being arranged to create a turbulent boundary layer in a flow of air drawn through the air flow channel.

An electrically operated aerosol-generating system is provided, including: an aerosol-generating device; an aerosol-forming cartridge including at least one aerosol-forming substrate, the aerosol-forming cartridge being at least partially received within the aerosol-generating device; at least one electric heater configured to heat the at least one aerosol-forming substrate; at least one air inlet and at least one air outlet; and an air flow channel extending between the at least one air inlet and the at least one air outlet, the air flow channel being in fluid communication with the aerosol-forming substrate, the air flow channel having an internal wall surface on which one or more flow disturbing devices are disposed, the flow disturbing devices being arranged to create a turbulent boundary layer in a flow of air drawn through the air flow channel.