Easy to remove cap design

What is claimed: 1. A dispensing assembly for dispensing flowable material from a container, the dispensing assembly comprising: a spout having an interior surface configured to communicate with the flowable material and an exterior surface defining a spout retention element; and a cap configured to releasably attach to the spout, the cap having: a first collar defining a cap retention element; a second collar spaced radially apart from the first collar; an end wall extending radially and connecting the first collar and the second collar, wherein the first collar and second collar extend approximately the same distance from the end wall; a gap defined radially between the first collar and the second collar; and a cap wall spaced radially away from the first collar and the second collar and located entirely on the side of the end wall from which the first collar and second collar extend, wherein the first collar, second collar, and cap wall are all perpendicular to the end wall, the cap wall defining an opening extending through the cap; and wherein the cap retention element is configured to contact the spout retention element such that the cap is affixed to the spout, wherein the cap is configured to receive the spout within the gap defined between the first collar and the second collar and to contact the spout with the first collar and with the second collar when the spout is within the gap; wherein the engagement between the cap retention element and the spout retention element occurs entirely within the gap, wherein the opening defined by the cap wall is in fluid communication with the interior surface of the spout, wherein the engagement between the cap retention element and the spout retention element is reversible, such that the cap is removed from contacting the spout. 2. The dispensing assembly of claim 1 , wherein the first collar defines a plurality of cap retention elements, each of the plurality of retention elements being spaced apart from one another. 3. The dispensing assembly of claim 1 , wherein the cap wall opening is configured to removably receive a plug therein, the plug being configured to form an aseptic seal with the cap between the plug and the cap wall. 4. The dispensing assembly of claim 3 , wherein the plug includes a handle that extends above a body of the plug such that there is a gap between the handle and body of the plug, wherein the handle is configured to receive a force in a first direction and a second direction opposite the first direction, wherein when force is applied in the first direction the plug is removed from the cap, and when force is applied in the second direction, the plug is attached to the cap. 5. The dispensing assembly of claim 3 , wherein the plug is connected to the dispensing assembly by a connector, and the end wall includes a groove configured to receive the connector. 6. The dispensing assembly of claim 1 , further including a valve configured to contact the second collar of the cap and configured to receive the flowable material therethrough. 7. The dispensing assembly of claim 1 , further comprising a plurality of ribs disposed on the first collar. 8. A method of introducing fluid into a container through a dispensing assembly, the method comprising the steps of: moving fluid into the container through a spout fixedly attached to the container; and affixing a cap to the spout, the cap having a first collar defining a cap retention element, a second collar spaced radially apart from the first collar, an end wall extending radially connecting the first collar and the second collar, wherein the first collar and second collar extend approximately the same distance from the end wall, and a gap defined radially between the first collar and the second collar, and a cap wall spaced radially away from the first collar and the second collar and located entirely on the side of the end wall from which the first collar and second collar extend, wherein the first collar, second collar, and cap wall are all perpendicular to the end wall, the step of affixing the cap to the spout including receiving the spout within the gap defined between the first collar and the second collar, contacting the spout with the first collar and the second collar, and contacting the cap retention element with a spout retention element disposed on the spout. 9. The method of claim 8 , further comprising inserting a plug into an opening defined by the cap wall such that a fluid-tight seal is formed between the plug and the cap wall, wherein the plug includes a cylindrical wall that is received in the opening of the cap wall. 10. A method of dispensing fluid from a collapsible bag using a dispensing assembly, the dispensing assembly having a spout fixedly attached to the collapsible bag and a cap attached to the spout, the cap having a first collar defining a cap retention element, a second collar spaced radially apart from the first collar, an end wall extending radially and connecting the first collar and the second collar, wherein the first collar and second collar extend approximately the same distance from the end wall, and a gap defined radially between the first collar and the second collar, and a cap wall spaced radially away from the first collar and the second collar and located entirely on the side of the end wall from which the first collar and second collar extend, wherein the first collar, second collar, and cap wall are all perpendicular to the end wall, the spout being disposed within the gap between the first collar and the second collar and being in contact with the first collar and the second collar, the spout having a retention element, wherein the engagement between the cap retention element and the spout retention element occurs entirely within the gap, the method comprising: opening the dispensing assembly such that the fluid is permitted to move from the collapsible bag through the spout and out of the dispensing assembly; and actuating movement of the fluid from the collapsible bag through and out of the dispensing assembly. 11. The method of claim 10 , wherein the step of opening the dispensing assembly includes removing a plug from an opening defined in the cap wall such that a fluid-tight seal between the plug and the cap does not exist, the method further comprising the step of inserting a dispensing component into the opening. 12. The method of claim 10 , wherein the step of opening the dispensing assembly includes applying a de-coupling force to the cap such that the cap is separated from the spout, the method further comprising the step of affixing a dispensing component to the spout. 13. A fitment for use on a collapsible bag for dispensing of fluids from the collapsible bag, the fitment comprising: a spout having an exterior surface defining a spout retention element, the spout further having a flange configured to engage with the collapsible bag; and a cap having: a first collar having a cap retention element thereon; a second collar; an end wall extending radially and connecting the first collar and the second collar, wherein the first collar and second collar extend approximately the same distance from the end wall; and a cap wall radially disposed on the cap and located entirely on the side of the end wall from which the first collar and second collar extend, wherein the first collar, second collar and cap wall are all perpendicular to the end wall, the cap wall defining an opening extending through the cap, and wherein the cap defines a gap radially between the first collar and the second collar; and wherein the cap retention element is configured to releasably engage with the sp