Pellet substrates configured for use with a vapor delivery device to vaporize and deliver an aerosol to a user include a semi-porous base material formed of activated alumina pellets, activated carbon pellets, hulled millet grains that have a generally rounded shape or cellulose paper that has a generally disc shape. The pellet substrates are formed by mixing the base material with a liquid solution of an aerosol former and at least one of a tobacco extract mixture and a tobacco powder blend until the liquid solution is absorbed onto the exposed surfaces of the base material with or without drying by applying heat. The base material may be coated with a liquid hydrocolloid gum solution, namely a water soluble gum, such as sodium carboxymethyl cellulose, and distilled water to reduce fracturing, cracking, chipping and dusting of the pellet substrates.

Devices, cartridges, and method are described herein for emulating smoking wherein a device generates an aerosol for inhalation by a subject by heating a viscous material that can have a tactile response in the mouth or respiratory tract, while reducing Hoffman analytes and mutagenic compounds delivered to the user as compared to a common tobacco cigarette.

A system for filtering vaporized medicinal compounds includes a vaporizer configured to release one or more volatilized medicinal compounds in gaseous form, together with solid or semi-solid particulate byproducts, and one or more removable filters for efficiently removing at least a portion of the particulate byproducts while allowing passage of medicinally active volatilized compounds. The vaporizer includes a mouthpiece through which one or more volatilized medicinal compounds may be drawn. The filter is made of a chemically inert material (e.g., polypropylene or other polyolefin) and may be configured to detachably interface with an exposed surface of a vaporizer mouthpiece. The filter acts to remove solid or semi-solid particulate matter passing through the mouthpiece with minimal chemical and/or physical interference with volatilized medicinal compounds, which pass through the filter. The removable filter can also prevent cross-contamination by multiple users of the vaporizer.

A device for storing oil or another vaporizable substance can include a porous body adapted to absorb a volume of liquid and to retain the volume of liquid for vaporization. A porous body can include a matrix of pores adapted to take up and retain oil by capillary action. A method of vaporizing oil can include storing the oil in a porous body and heating the body.

Devices for generating and releasing vapor. In particular, described herein are portable devices for generating a low-temperature inhalable vapor having an elongated tubular body containing a vaporization chamber and a battery-powered heater, a removable mouthpiece covering the vaporization chamber, a display configured to indicate the temperature of the vaporization chamber; a microcontroller configured to regulate the temperature of the vaporization chamber, and a control to select from among a variety of temperature settings.

An exothermal vaporizer is provided. The exothermal vaporizer has a body including an air and vapor mix port, a fluid inlet port in communication with a reservoir, an air inlet, and a wicking material. A mouthpiece is coupled to the body and a temperature indicating cap is removable from the body. A counter flow design exothermal vaporizer, a modular exothermal vaporizer, and a vaporizer which is adjustable to modulate and/or regulate the flow ratio of dilution air and produced vapor are also disclosed.

A vaporizer assembly is shaped and configured to fit partially into a downstem of a water pipe. The vaporizer assembly includes a housing including an upper portion and a lower portion. The lower portion has a smaller diameter, and fits in the downstem. The upper portion of the vaporizer assembly includes a bowl or dish, and a heat source is enclosed within the housing and positioned and configured to selectively heat the bowl or dish. A body of the vaporizer adjacent the bowl includes vapor passages. One or more passages are also formed in the lower portion. Thus, essential oils or waxes placed in the bowl can be vaporized by the heat. The generated vapor may flow from the bowl into and through the vapor passages and lower portion passage and into the waterpipe's downstem.

Devices for generating and releasing vapor. In particular, described herein are portable devices for generating a low-temperature inhalable vapor having an elongated tubular body containing a vaporization chamber and a battery-powered heater, a removable mouthpiece covering the vaporization chamber, a display configured to indicate the temperature of the vaporization chamber; a microcontroller configured to regulate the temperature of the vaporization chamber, and a control to select from among a variety of temperature settings.

Pellet substrates configured for use with a vapor delivery device to vaporize and deliver an aerosol to a user include porous, substantially inert activated carbon and activated alumina pellets that have generally spherical, semi-spherical and/or rounded shapes. The pellet substrates are formed by mixing the pellets together with a liquid solution of an aerosol former admixed with flavoring and/or nicotine, tobacco powder, or tobacco extract such that the liquid solution is absorbed into and/or adsorbed onto the porous structure of the pellets with or without the addition of heat. The pellets may be coated with an inert dry powder, such as calcium carbonate, to better adhere the liquid solution to the porous surfaces of the pellets. Alternatively, or in addition, the pellets may be coated with a liquid solution of a cellulose gum, such as sodium carboxymethylcellulose, and distilled water to reduce fracturing, cracking, chipping and dusting of the pellet substrates.

A method for producing a vaporisable material comprising plant fibres for use in a vapour generating device which generates a vapour by heating the vaporisable material is disclosed. The method comprises reducing the particle size of the plant fibres to less than 1.5 mm and mixing plant fibres of at least two ranges of particle size. The invention also relates to vaporisable material for use in a vapour generating device obtainable by the method.