System for facilitating fluid movement in closed molds

What is claimed is: 1. A vacuum bagging system, comprising: a layer assembly defining a fluid flow channel and including: a contact layer mounted to a composite part positionable within an outer mold line tool and having a contact layer width defined by opposing contact layer side edges; an inner layer mounted to the contact layer and having inner layer side edges located between the contact layer side edges; the fluid flow channel formed by a combination of the inner layer and the contact layer and extending along at least a portion of the composite part to at least one part end; an internal vacuum bag positionable against the inner layer; an inner mold line tool supporting the internal vacuum bag; and the contact layer width being less than an inner mold line tool width. 2. The vacuum bagging system of claim 1 wherein: the layer assembly is positioned such that a contact layer side edge is located adjacent to and outside of an inside corner of the composite part. 3. The vacuum bagging system of claim 1 wherein: the contact layer has a contact layer width of between 0.5 and 3.0 inch. 4. The vacuum bagging system of claim 1 wherein: the contact layer has a contact layer thickness of no greater than approximately 0.005 inch. 5. The vacuum bagging system of claim 1 wherein: the contact layer is formed of fluorinated ethylene propylene. 6. The vacuum bagging system of claim 1 wherein: the inner layer has an inner layer thickness of no greater than approximately 0.050 inch. 7. The vacuum bagging system of claim 1 wherein: the internal vacuum bag has a thickness of no greater than approximately 0.020 inch. 8. The vacuum bagging system of claim 1 wherein: the contact layer, the inner layer, and the internal vacuum bag have a collective layer assembly thickness of no greater than approximately 0.10 inch. 9. The vacuum bagging system of claim 1 wherein: at least one of the contact layer and the inner layer is removably secured to the composite part at one or more discrete locations along a contact layer length. 10. The vacuum bagging system of claim 9 wherein: at least one of the contact layer and the inner layer is removably secured to the composite part with pressure-sensitive adhesive tape. 11. The vacuum bagging system of claim 1 wherein: the inner layer comprises a plurality of inner layers. 12. The vacuum bagging system of claim 1 wherein: the internal vacuum bag is comprised of at least two layers including a part-side bag layer and a non-part side bag layer; the part-side bag layer being in contact with the inner layer, and the non-part side bag layer being in contact with the inner mold line tool; and the part-side bag layer being formed of material that is chemically non-reactive with composite part material. 13. A vacuum bagging system, comprising: a layer assembly defining a fluid flow channel and including: a contact layer mounted to a composite part positionable within an outer mold line tool and having a contact layer width defined by opposing contact layer side edges; an inner layer mounted to the contact layer and having inner layer side edges located between the contact layer side edges; the fluid flow channel formed by a combination of the inner layer and the contact layer and extending along at least a portion of the composite part to at least one part end; an internal vacuum bag positionable against the inner layer; an inner mold line tool supporting the internal vacuum bag and having an inner mold line tool width being greater than the contact layer width; and an external vacuum bag mounted to the outer mold line tool and fluidly coupling the fluid flow channel to a vacuum source. 14. The vacuum bagging system of claim 13 wherein: the layer assembly is positioned such that a contact layer side edge is located adjacent to and outside of an inside corner of the composite part. 15. The vacuum bagging system of claim 13 wherein: at least one of the contact layer and the inner layer is removably secured to the composite part at one or more discrete locations along a contact layer length. 16. The vacuum bagging system of claim 13 wherein: the contact layer is porous in a through-thickness direction. 17. The vacuum bagging system of claim 13 wherein: the contact layer is porous along a lengthwise direction of the composite part. 18. The vacuum bagging system of claim 13 wherein: the inner layer is porous along a through-thickness direction. 19. The vacuum bagging system of claim 13 wherein: the inner layer is porous along a lengthwise direction of the composite part. 20. A vacuum bagging system for processing a composite part, comprising: a layer assembly defining a fluid flow channel and including: a strip of contact layer mounted along a first portion of an inner surface of a composite part having a three-dimensional geometry and being positionable within an outer mold line tool, the strip of contact layer extending from a part interior of the composite part to at least one part end of the composite part and having a contact layer width defined by opposing contact layer side edges, the strip of contact layer being located adjacent to and outside of a second portion of the composite part such that an internal vacuum bag positioned on a side of the inner layer opposite the contact layer applies vacuum pressure directly onto the inner surface of the second portion not covered by the strip of contact layer; a plurality of strips of inner layer each having an inner layer width that is no greater than the contact layer width and being positioned between the contact layer side edges; the fluid flow channel formed by a combination of the strip of contact layer and the strips of inner layer and extending along at least a portion of the composite part to the at least one part end; an inner mold line tool supporting the internal vacuum bag on a side thereof opposite the strips of inner layer and having an inner mold line tool width, the inner mold line tool configured as at least one of a bag carrier and a mandrel for supporting the internal vacuum bag and being configured complementary to the inner surface of the composite part; and the contact layer width being less than the inner mold line tool width.