Cryogenic process utilizing high pressure absorber column

What is claimed is: 1. A method of processing a feed gas, comprising: (a) separating the feed gas into a liquid portion and a gaseous portion; (b) expanding the liquid portion and feeding the expanded liquid portion directly into a distillation column; (c) supplying, separately from the liquid portion, the gaseous portion to a refluxed absorber as an absorber feed; (c1) wherein the method does not employ a turboexpander; (d) wherein the absorber receives an absorber reflux, and produces an absorber overhead product and an absorber bottoms product, the absorber having an absorber pressure that is greater than a pressure of the distillation column pressure; (d1) reducing pressure of the absorber bottoms product to generate refrigeration cold, and using the refrigeration cold in an exchanger to provide cooling to the absorber reflux; (e) supplying the absorber bottoms product as a distillation column feed, wherein the absorber bottoms product and the expanded liquid portion are fed to the distillation column at different locations, wherein the distillation column produces a distillation column overhead product and a distillation column bottoms product; (e1) separating the distillation overhead product into a liquid portion and a vapor portion, wherein the distillation column receives the liquid portion of the distillation column overhead product as a reflux stream: (f) compressing the vapor portion of the distillation column overhead product to produce a compressed distillation column overhead product vapor; and (g) at least partially condensing the compressed distillation column overhead product vapor to produce the absorber reflux. 2. The method of claim 1 , further comprising heating at least part of the absorber overhead product to produce a first product, wherein the step of heating is performed by the feed gas. 3. The method of claim 1 , further comprising cooling at least part of the gaseous portion and feeding the cooled gaseous portion to the absorber.