Apparatus and method for pressure dispensing of high viscosity liquid-containing materials

1 . A pressure dispensing apparatus comprising: a rigid container comprising a neck defining a container opening; a collapsible liner arranged within the container, the collapsible liner comprising an aperture-defining liner fitment arranged in or along the neck of the rigid container; a downwardly-extending dip tube arranged within the liner; a connector engaged to the neck of the rigid container and including a probe defining a fluid flow passage therethrough, wherein an upper portion of the dip tube is arranged to receive a lower portion of the probe, and wherein the lower portion of the probe is arranged to seat an upper portion of the dip tube against an inner surface of the fitment, the dip tube being in direct contact with the lower portion of the probe and in direct contact with the fitment to sealingly engage the dip tube between the probe and the fitment; and a stress concentrator that provides sealing engagement between the dip tube and at least one of the probe and the fitment. 2 - 4 . (canceled) 5 . The pressure dispensing apparatus of claim 1 , further comprising a fitment retainer positioned along the neck of the rigid container, wherein the fitment is retained proximate the neck by the fitment retainer. 6 . The pressure dispensing apparatus of claim 5 , wherein a circumferential sealing element is arranged along an outer wall of the probe to sealingly engage the fitment retainer. 7 . The pressure dispensing apparatus of claim 5 , wherein the circumferential sealing element comprises an elastomeric material. 8 . The pressure dispensing apparatus of claim 5 , wherein the upper portion of the dip tube is positioned at or below an upper end of the fitment retainer. 9 - 14 . (canceled) 15 . The pressure dispensing apparatus of claim 1 , wherein the stress concentrator engages the upper portion of the dip tube. 16 . The pressure dispensing system of claim 15 , wherein the stress concentrator projects radially outward from the lower portion of the probe. 17 . The pressure dispensing system of claim 15 , wherein the stress concentrator projects radially inward from the fitment. 18 . The pressure dispensing system of claim 15 , wherein the stress concentrator comprises a continuous rib. 19 . The pressure dispensing apparatus of claim 1 , wherein the stress concentrator engages at least one of the lower portion of the probe and the fitment. 20 - 26 . (canceled) 27 . A method for dispensing liquid-containing material, comprising: providing a pressure dispensing apparatus kit that includes (a) a rigid container including a neck defining a container opening, (b) a collapsible liner arranged within the container and comprising an aperture-defining liner fitment arranged in or along the neck of the rigid container, (c) a downwardly-extending dip tube arranged within the liner, (d) a connector including a probe defining a fluid flow passage therethrough, and (e) a stress concentrator that provides sealing engagement between the downwardly-extending dip tube and at least one of the probe and the aperture-defining liner fitment; providing a set of instructions on a tangible medium, the instructions comprising: threadably engaging the connector to the neck of the rigid container to cause a lower portion of the probe to seat an upper portion of the dip tube against an inner surface of the dip tube to sealingly engage the dip tube between the probe and fitment; and supplying pressurized gas through the connector to a compression space that is in fluid communication with the collapsible liner and the rigid container to compress the collapsible liner. 28 . The method of claim 27 , wherein the instructions further comprise removing a cap from the neck of the rigid container to expose a portion of the liner fitment and to expose a portion of the dip tube retained by the liner fitment before threadably engaging the connector to the neck of the rigid container. 29 . The method of claim 27 , wherein the stress concentrator provided in the step of providing the pressure dispensing apparatus kit projects from the lower portion of the probe and contacts the dip tube. 30 . The method of claim 27 , wherein the stress concentrator provided in the step of providing the pressure dispensing apparatus kit projects from the dip tube and contacts the lower portion of the probe. 31 . The method of claim 27 , wherein the stress concentrator provided in the step of providing the pressure dispensing apparatus kit projects from the dip tube and contacts the fitment. 32 . The method of claim 27 , wherein the stress concentrator provided in the step of providing the pressure dispensing apparatus kit projects from the fitment and contacts the dip tube. 33 - 63 . (canceled) 64 . A pressure dispensing apparatus comprising: a rigid container comprising a neck defining a container opening; a fitment retainer defining an aperture and arranged in or along the neck of the container; a collapsible liner arranged within the container, the collapsible liner comprising an aperture-defining liner fitment retained by the fitment retainer; a downwardly-extending dip tube arranged within the liner; and a connector including a probe defining a fluid flow passage therethrough, wherein a lower portion of the probe includes a stress concentrator arranged to directly engage an upper portion of the dip tube when the connector is secured to the neck of the rigid container to provide a liquid tight seal. 65 . The pressure dispensing apparatus of claim 64 , wherein the probe defines a flow passage that having an inner diameter that is at least 65% of an inner diameter of a portion of the liner fitment arranged within the aperture of the fitment retainer. 66 . The pressure dispensing apparatus of claim 64 , wherein each of the probe and the dip tube defines a flow passage having an inner diameter that is at least 0.62 inches. 67 . The pressure dispensing apparatus of claim 64 , wherein the stress concentrator of the probe is arranged to seat an upper portion of the dip tube against an inner surface of the fitment to sealingly engage the dip tube between the probe and the fitment. 68 . The pressure dispensing apparatus of claim 64 , further comprising a reverse flow prevention element associated with the dip tube. 69 . The pressure dispensing apparatus of claim 64 , wherein the stress concentrator comprises a continuous rib that projects radially outward from the probe.