Double wall self-contained liner

What is claimed is: 1. An engine assembly, comprising: a cylinder liner clamped between a cylinder head and a crankcase; said cylinder liner including an outer wall surrounding a center axis and extending longitudinally along said center axis from an outer upper end engaging said cylinder head to an outer lower end engaging said crankcase, an inner wall surrounding said center axis and disposed between said outer wall and said center axis, said inner and outer walls presenting a cooling chamber therebetween, and said outer wall including at least one liner fluid port for conveying cooling fluid to or from said cooling chamber; and a manifold disposed along a portion of said outer wall between said cylinder head and said crankcase, and said manifold including at least one manifold fluid port aligned with said at least one liner fluid port and at least one channel coupled to said at least one manifold fluid port and extending longitudinally past said outer lower end of said outer wall for conveying said cooling fluid to or from said cooling chamber. 2. The assembly of claim 1 , wherein said manifold is cast integral with said crankcase and along only a portion of said outer wall for allowing the remainder of said outer wall to be exposed. 3. The assembly of claim 1 , wherein said manifold is disposed adjacent said cylinder head and is disposed along only a portion of said outer wall for allowing the remainder of said outer wall to be exposed. 4. The assembly of claim 1 including a plurality of tie rods connecting said cylinder head to said crankcase for maintaining said cylinder liner clamped between said cylinder head and said crankcase, and said tie rods being spaced from said outer wall. 5. The assembly of claim 1 including a main bearing cradle disposed along said crankcase opposite said cylinder liner, a plurality of tie rods connecting said cylinder head to said main bearing cradle for maintaining said cylinder liner clamped between said cylinder head and said crankcase, and said tie rods being spaced from said outer wall of said cylinder liner. 6. The assembly of claim 1 including a main bearing cradle disposed along said crankcase opposite said cylinder liner, and an oil sump connected to said main bearing cradle opposite said crankcase. 7. The assembly of claim 1 , wherein each of said walls of said cylinder liner extend longitudinally along said center axis from an upper end to a lower end and present a thickness extending from an inner surface facing said center axis to an oppositely facing outer surface, and said thickness of at least one of said walls varies between said upper end and said lower end. 8. The assembly of claim 1 , wherein said cylinder liner is formed from an aluminum-based material. 9. The assembly of claim 1 , wherein said cylinder head is formed from an aluminum-based material. 10. The assembly of claim 1 , wherein said outer wall of said cylinder liner includes a plurality of said liner fluid ports for conveying the cooling fluid to said cooling chamber, and said manifold includes a plurality of said manifold fluid ports for conveying the cooling fluid to said liner fluid ports. 11. The assembly of claim 1 , wherein said inner wall of said cylinder liner extends from an inner upper end engaging said cylinder head to an inner lower end engaging said crankcase; said cylinder liner includes a base wall connecting said outer lower end of said outer wall to said inner lower end of said inner wall; and said upper ends of said walls present an opening to said cooling chamber. 12. The assembly of claim 1 , wherein said walls of said cylinder liner are free of any attachment features extending into said walls. 13. The assembly of claim 1 including a cooling fluid, and wherein said cooling fluid includes a sodium-potassium alloy (NaK). 14. The assembly of claim 1 , wherein said cylinder liner is formed from an aluminum-based material or an iron-based material; said outer wall of said cylinder liner extends longitudinally along said center axis from an outer upper end engaging said cylinder head to an outer lower end engaging said crankcase; said outer wall of said cylinder liner includes a plurality of said liner fluid ports for conveying cooling fluid to said cooling chamber; said inner wall of said cylinder liner extends parallel to said outer wall from an inner upper end engaging said cylinder head to an inner lower end engaging said crankcase; said cylinder liner includes a base wall connecting said outer lower end to said inner lower end; said upper ends of said walls present an opening to said cooling chamber; said manifold has a cylindrical shape surrounding only a portion of said outer wall adjacent said outer lower end of said cylinder liner for allowing the remainder of said outer wall to be exposed; said manifold is cast integral with said crankcase; said manifold is a hydraulic manifold formed from an aluminum-based material or an iron-based material; said manifold includes a plurality of said manifold fluid ports for conveying cooling fluid to said liner fluid ports; said cylinder head is formed from an aluminum-based material or an iron-based material; said crankcase is formed from an aluminum-based material or an iron-based material; and further including: a main bearing cradle connected to said crankcase opposite said cylinder liner; an oil sump connected to said main bearing cradle opposite said crankcase; a gasket disposed between said upper ends of said cylinder liner and said cylinder head; and a plurality of tie rods connecting said cylinder head to said crankcase for maintaining said cylinder liner clamped between said cylinder head and said crankcase, said tie rods being spaced from said outer surface of said outer wall. 15. A method for manufacturing an engine assembly, comprising the steps of: clamping a cylinder liner between a cylinder head and a crankcase, the cylinder liner including an outer wall surrounding a center axis and extending longitudinally along the center axis from an outer upper end engaging the cylinder head to an outer lower end engaging the crankcase, an inner wall surrounding the center axis and disposed between the outer wall and the center axis, the inner and outer walls presenting a cooling chamber therebetween, and the outer wall of the cylinder liner including at least one liner fluid port for conveying cooling fluid to or from the cooling chamber; and disposing a manifold having at least one channel extending longitudinally past the outer lower end of the outer wall and coupled to at least one manifold fluid port along a portion of the outer wall between the cylinder head and the crankcase, and aligning the at least one manifold fluid port of the manifold with the at least one liner fluid port for conveying the cooling fluid to or from the liner fluid port. 16. The method of claim 15 including connecting the cylinder head to the crankcase with a plurality of tie rods to maintain the cylinder liner clamped between the cylinder head and the crankcase such that the tie rods are spaced from the outer wall of the cylinder liner. 17. The method of claim 15 including disposing a main bearing cradle along the crankcase such that the main hearing cradle is spaced from the cylinder liner by the crankcase, and connecting the cylinder head to the main bearing cradle with a plurality of tie rods to maintain the cylinder liner clamped between the cylinder head and the crankcase such that the tie rods are spaced from the outer wall of the cylinder liner. 18. The method of claim 1