Three stage membrane separation with partial reflux

What is claimed is: 1. A method of recovering a first gas from a source gas comprising a minor amount of the first gas and an amount of a second gas at a higher concentration than that of the first gas, said method comprising the steps of: separating a first gas mixture with a first gas separation membrane into a first permeate and a first non-permeate; separating a second gas mixture with a second gas separation membrane into a second permeate and a second non-permeate; and separating the second non-permeate with a third gas separation membrane into a third permeate and a third non-permeate, wherein: each of the first, second, and third gas separation membranes includes a separating layer that is more permeable to the first gas than to the second gas; the third non-permeate is combined with a flow of gas from the source gas to provide the first gas mixture; the second permeate is divided into first and second portions, the second portion being a first product gas comprising the first gas; the first non-permeate is a second product gas comprising the second gas; the first portion and the third permeate are combined with the first permeate and their combination is compressed with a compressor to provide the second gas mixture; and a % recovery of the second gas is controlled by adjusting the allocation of the second permeate into the first and second portions with a valve assembly in a line receiving the second permeate. 2. The method of claim 1 , wherein the source gas is He-containing natural gas, the first gas is Helium, and the second gas comprises CH 4 , He being present at a concentration of less than 0.5 mol %. 3. The method of claim 2 , wherein: PG 2nd flow =a mass flow rate of the second product gas; PG 2nd purity =a concentration of the second gas in the second product gas; Source flow =a mass flow rate of the flow of the source gas; Source purity =a concentration of the second gas in the source gas; and the % recovery of the second gas is provided by the formula: recovery=(PG 2nd flow ×PG 2nd purity )/(Source flow ×Source purity ). 4. The method of claim 1 , wherein: PG 2nd flow =a mass flow rate of the second product gas; PG 2nd purity =a concentration of the second gas in the second product gas; Source flow =a mass flow rate of the flow of the source gas; Source purity =a concentration of the second gas in the source gas; the % recovery of the second gas is provided by the formula: recovery=(PG 2nd flow ×PG 2nd purity )/(Source flow ×Source purity ). 5. The method of claim 1 , wherein: the source gas is a vent gas from an air separation process; the first gas is He, Ne, or a mixture of He and Ne; and the second gas comprises a mixture of N 2 and O 2 . 6. The method of claim 1 , wherein: the source gas is a cooling gas from an optical fiber cooling tower; the first gas is He; and the second gas is a mixture of N 2 and O 2 .