Hydrocarbon adsorber apparatus and fixation method thereof

I claim: 1. An engine air intake system, the system comprising: a housing, the housing including an inlet and an outlet, the outlet being configured to be affixed to an intake of an engine; an adsorbent material; a frame, the frame including a first portion and a second portion forming a cavity therebetween, the cavity containing the adsorbent material, the frame being permanently affixed to an interior of the housing between the inlet and the outlet, wherein air escaping from the outlet in a reverse flow condition is configured to come into contact with the adsorbent material contained within the frame such that hydrocarbons contained in the air are adsorbed by the adsorbent material, the first portion and the second portion having a plurality of corresponding apertures; wherein the housing comprises one or more pins configured to extend through the one or more apertures, the one or more pins configured to be deformed so as to form an interfering lip in an affixed configuration; wherein the adsorbent material is contained in the frame in such a manner that removal of the adsorbent material from the frame would result in destruction of the frame or housing; and wherein the frame extends only about a portion of an interior perimeter of the housing providing a free bypass between the inlet and the outlet. 2. The engine air intake system of claim 1 , wherein the first portion and the second portion of the frame connected to one another about a corresponding edge. 3. The engine air intake system of claim 2 , wherein the first portion and the second portion are rotationally connected. 4. The engine air intake system of claim 2 , wherein the first portion is provided with an open support matrix provided across a surface thereof, the open support matrix being configured to provide structural support to the adsorbent material while allowing contact between the adsorbent material and air passing thereby. 5. The engine air intake system of claim 2 , wherein at least one of the plurality of corresponding apertures is provided about an opposing edge of the first portion and an opposing edge of the second portion, the opposing edge being opposite the corresponding edge. 6. The engine air intake system of claim 1 , wherein each of the one or more pins are heat staked so as to mushroom a distal end of each pin and thus create an associated interfering lip which cannot pass through an associated one or more corresponding aperture. 7. The engine air intake system of claim 2 , wherein an opposing edge of the first portion and an opposing edge of the second portion are welded into an interior of the housing with the frame being in a closed position. 8. The engine air intake system of claim 2 , wherein the corresponding edge of the first portion and the second portion is provided as a film hinge. 9. An adsorber containment and support system, the system comprising: an adsorbent material; a frame, the frame including a first portion and a second portion forming a cavity therebetween, the cavity containing the adsorbent material, the frame being permanently affixed to an interior of a housing of an air intake system between an inlet and an outlet, wherein air escaping from the outlet in a reverse flow condition is configured to come into contact with the adsorbent material contained within the frame such that hydrocarbons contained in the air are adsorbed by the adsorbent material; the first portion and the second portion having a plurality of corresponding apertures which align with one another in a closed configuration; wherein the frame surrounds and captures the adsorbent material within the frame; wherein the second portion has a plurality of tabs formed on an outer edges of the frame and projecting outward away from the frame and adsorbent material, wherein the plurality of tabs are spaced apart from each other on the outer edges of the frame; wherein the first portion has a flange formed on an outer edge of frame of the first portion; wherein the plurality of tabs and the flange each have one or more apertures configured to receive mounting pins therethrough to mount the adsorber into an interior of an air intake system, the one or more apertures configured to receive one or more pins which are deformed so as to form an interfering lip in an affixed configuration; and wherein the frame surrounds and captures the adsorbent material within the frame, the frame having one or more apertures configured to receive mounting pins therethrough to mount the adsorber into an interior of an air intake system, the one or more apertures configured to receive one or more pins which are deformed so as to form an interfering lip in an affixed configuration; and wherein the adsorbent material is contained in the frame in such a manner that removal of the adsorbent material from the frame would result in destruction of the frame. 10. The adsorber containment and support system of claim 9 , wherein the first portion and a second portion are connected to one another about a corresponding edge. 11. The adsorber containment and support system of claim 10 , wherein the first portion and a second portion are rotationally connected. 12. The adsorber containment and support system of claim 10 , wherein the first portion is provided with an open support matrix provided across a surface thereof, the open support matrix being configured to provide structural support to the adsorbent material while allowing contact between the adsorbent material and air passing thereby. 13. The adsorber containment and support system of claim 10 , further comprising a plurality of corresponding apertures provided about an opposing edge of the first portion and an opposing edge of the second portion. 14. The adsorber containment and support system of claim 13 , wherein the one or more apertures align in a closed configuration so as to receive one or more pins configured to extend therethrough and maintain the frame in a closed configuration, and wherein the one or more pins are heat staked so as to mushroom at least one end and thus create an interfering lip which cannot pass through an associated one or more corresponding apertures through which each pin extends. 15. The adsorber containment and support system of claim 10 , wherein an opposing edge of the first portion and an opposing edge of the second portion are welded together in a closed orientation. 16. The adsorber containment and support system of claim 10 , wherein the corresponding edge of the first portion and the second portion is provided as a film hinge. 17. A method of providing an adsorber within an engine air intake system, the method comprising: providing a housing, the housing including an inlet and an outlet, the outlet being configured to be affixed to an intake of an engine, the housing including one or more pins; providing a frame, the frame having a first portion and a second portion forming a cavity therebetween; providing an adsorbent material; placing the adsorbent material into the cavity; providing a plurality of corresponding apertures about the frame; extending the one or more pins through one or more of the plurality of corresponding apertures; affixing the frame to an interior of the housing in a permanent manner by deforming the one or more pins so as to form an interfering lip about a distal portion thereof so as to retain a relative position between the frame and the housing; wherein the frame extends only about a portion of an interior perimeter of the housing providing a free bypass