Capsules with integrated mouthpieces, heat-not-burn (HNB) aerosol-generating devices, and methods of generating an aerosol

The invention claimed is: 1 . A capsule for an aerosol-generating device, comprising: a base portion including an engagement assembly; a first cover configured to connect with the base portion via the engagement assembly, the first cover defining a first recess; a second cover configured to connect with the base portion and the first cover via the engagement assembly, the second cover defining a second recess, the first cover aligned with the second cover such that the first recess and the second recess collectively form a chamber; an aerosol-forming substrate within the chamber; and a heater extending from the base portion into the chamber and configured to heat the aerosol-forming substrate to generate an aerosol, wherein the first cover and the base portion define a first air inlet in between, the second cover and the base portion define a second air inlet in between, and the first air inlet and the second air inlet are in fluidic communication with the chamber. 2 . The capsule of claim 1 , wherein the engagement assembly is an integrally formed part of the base portion. 3 . The capsule of claim 1 , wherein the engagement assembly of the base portion includes a pair of mating members. 4 . The capsule of claim 3 , wherein each of the pair of mating members has a head section and a body section, the head section being wider than the body section. 5 . The capsule of claim 3 , wherein the pair of mating members are adjacent to opposite edges of the base portion. 6 . The capsule of claim 3 , wherein the heater is between the pair of mating members. 7 . The capsule of claim 1 , wherein the base portion defines a first indentation and a second indentation as part of the first air inlet and the second air inlet, respectively. 8 . The capsule of claim 1 , further comprising: an end cap configured to receive the first cover and the second cover, the end cap defining at least one aerosol outlet that is in fluidic communication with the chamber. 9 . The capsule of claim 8 , further comprising: at least one of a filter or a flavor medium within the end cap and downstream from the first cover and the second cover such that the aerosol generated passes through at least one of the filter or the flavor medium before exiting through the at least one aerosol outlet. 10 . The capsule of claim 1 , wherein the first cover further defines a first channel downstream from the first recess, the second cover further defines a second channel downstream from the second recess, and the first channel and the second channel collectively form an aerosol channel. 11 . The capsule of claim 10 , wherein the first cover further defines first grooves connecting the first recess to the first channel, and the second cover further defines second grooves connecting the second recess to the second channel. 12 . The capsule of claim 11 , wherein the first grooves and the second grooves are aligned and dimensioned so as to retain the aerosol-forming substrate within the chamber while allowing the aerosol generated to pass through to the aerosol channel. 13 . The capsule of claim 10 , wherein the first cover further defines a first slot oriented orthogonally to the first channel, the second cover further defines a second slot oriented orthogonally to the second channel, and the first slot and the second slot collectively form a compartment. 14 . The capsule of claim 13 , further comprising: at least one of a filter or a flavor medium within the compartment such that the aerosol generated in the chamber passes through at least one of the filter or the flavor medium before flowing through the aerosol channel. 15 . The capsule of claim 1 , wherein each of the first cover and the second cover has an upstream end and a downstream end, the upstream ends of the first cover and the second cover are engaged with the base portion, and the downstream ends of the first cover and the second cover form a tapered end defining an aerosol outlet. 16 . The capsule of claim 1 , wherein the aerosol-forming substrate includes a plant material. 17 . The capsule of claim 1 , wherein the heater has a planar and winding form. 18 . An aerosol-generating device, comprising: a capsule including a housing containing an aerosol-forming substrate and a heater configured to heat the aerosol-forming substrate to generate an aerosol, the housing including a base portion including an engagement assembly, a first cover configured to connect with the base portion via the engagement assembly, the first cover defining a first recess, and a second cover configured to connect with the base portion and the first cover via the engagement assembly, the second cover defining a second recess, the first cover and the second cover jointly defining therebetween a chamber, an aerosol channel, and an aerosol outlet, the aerosol-forming substrate disposed in the chamber, the heater supported by the base portion and extending into the chamber; and a device body configured to connect to the capsule, the device body including a power source configured to supply an electric current to the heater, wherein the first cover and the base portion define a first air inlet in between, the second cover and the base portion define a second air inlet in between, and the first air inlet and the second air inlet are in fluidic communication with the chamber. 19 . A method of generating an aerosol, comprising: supplying an electric current to a capsule including a housing containing an aerosol-forming substrate and a heater such that the heater undergoes resistive heating, the housing including a base portion including an engagement assembly, a first cover configured to connect with the base portion via the engagement assembly, the first cover defining a first recess, and a second cover configured to connect with the base portion and the first cover via the engagement assembly, the second cover defining a second recess, the first cover and the second cover jointly defining therebetween a chamber, an aerosol channel, and an aerosol outlet, the aerosol-forming substrate disposed in the chamber, the heater supported by the base portion and extending into the chamber, wherein the first cover and the base portion define a first air inlet in between, the second cover and the base portion define a second air inlet in between, and the first air inlet and the second air inlet are in fluidic communication with the chamber.