System and method for cryogenic vaporization with parallel vaporizer arrangements

What is claimed is: 1. A cryogenic vaporization system, the system comprising: a first bank of ambient air vaporizer units configured for vaporizing a liquid cryogen and outputting a stream of cryogenic vapor; a second bank of ambient air vaporizer units configured for vaporizing the liquid cryogen and outputting another stream of cryogenic vapor, the second bank of ambient air vaporizer units connected in parallel with the first bank of ambient air vaporizer units; a third bank of ambient air vaporizer units configured for receiving the liquid cryogen and outputting yet another stream of cryogenic vapor, the third bank of ambient air vaporizer units connected in parallel with the first bank of ambient air vaporizer units and the second bank of ambient air vaporizer units; and a plurality of control valves configured to switch provision of the liquid cryogen between the first, second, and third banks of ambient air vaporizer units such that two of the first, second, and third banks of ambient air vaporizer units vaporize the liquid cryogen, while one of the first, second, and third banks of ambient air vaporizer units is idle. 2. The cryogenic vaporization system of claim 1 , wherein the plurality of control valves comprise a first control valve in a first line with the first bank of ambient air vaporizer units, a second control valve in a second line with the second bank of ambient air vaporizer units, and a third control valve in a third line with the third bank of ambient air vaporizer units. 3. The cryogenic vaporization system of claim 1 , further comprising a downstream vaporizer comprising a water bath vaporizer or a fourth bank of ambient air vaporizer units disposed downstream and in series with the first, second, and third banks of ambient air vaporizer units. 4. A method for controlling a cryogenic vaporization system, the method comprising the steps of: receiving, via a plurality of control valves, a liquid cryogen at banks of ambient air vaporizers selected from a first bank of ambient air vaporizer units, a second bank of ambient air vaporizer units, and a third bank of ambient air vaporizer units connected in parallel arrangement; and vaporizing the liquid cryogen in two of the first bank of ambient air vaporizer units, the second bank of ambient air vaporizer units, and/or the third bank of ambient air vaporizer units to create one or two streams of cryogenic vapor while concurrently defrosting one of the first bank of ambient air vaporizer units, the second bank of ambient air vaporizer units, and/or the third bank of ambient air vaporizer units; combining the one or two streams of cryogenic vapor; heating the combined streams of cryogenic vapor in a downstream vaporizer comprising a water bath vaporizer or a fourth bank of ambient air vaporizer units disposed downstream and in series with the first, second, and third banks of ambient air vaporizer units; and outputting a superheated vapor from the downstream vaporizer. 5. The method of claim 4 , wherein the plurality of control valves comprise a first control valve in a first line with the first bank of ambient air vaporizer units, a second control valve in a second line with the second bank of ambient air vaporizer units, and a third control valve in a third line with the third bank of ambient air vaporizer units.