Liquid vapor phase separation apparatus

We claim: 1. A phase separation apparatus for separating a two-phase fluid flow into a liquid phase portion and a vapor phase portion, comprising: a shell having an upper end cap and a lower end cap and defining an interior volume having an upper region, a lower region and a central region between the upper region and the lower region; an auger assembly disposed within the interior volume defined by said shell, the auger assembly having an elongated support tube extending along a central vertical axis of said shell and a helical spiral member extending about said support tube and defining in association with said shell a continuous spiral fluid flow passage within the interior volume, said support tube having an open upper end and at least one fluid flow outlet in a sidewall of said support tube spaced from the open upper end and opening into the central region of the interior volume, the at least one flow outlet separate from the open upper end, the at least one fluid flow outlet positioned at a middle portion of the support tube; a vapor outlet penetrating through the upper end cap to open in fluid communication with the upper region of the interior volume; a liquid outlet penetrating through the lower end cap to open through an upper surface of the lower end cap in fluid communication with the lower region of the interior volume; and a fluid inlet penetrating through the upper end cap to open in fluid communication into the open upper end of said support tube to convey fluid from the fluid inlet to the fluid flow outlet in the sidewall of said support tube. 2. The phase separation apparatus as recited in claim 1 wherein the at least one outlet in a sidewall of said support tube comprises an oblong hole having a longitudinal dimension and a lateral dimension, the longitudinal dimension being greater than the lateral dimension. 3. The phase separation apparatus as recited in claim 1 wherein said at least one outlet in a sidewall of said support tube comprises a pair of diametrically opposed openings in the sidewall of said support tube. 4. The phase separation apparatus as recited in claim 1 wherein said fluid inlet tube has a first internal diameter and said support tube has a second internal diameter, the second internal diameter being greater than the first internal diameter. 5. The phase separation apparatus as recited in claim 4 wherein the at least one outlet defines a first flow area and said support tube defines a second flow area, the first flow area being greater than the second flow area. 6. The phase separation apparatus as recited in claim 1 further comprising a flow stopper disposed within said support tube at a position subadjacent the at least one outlet.