Patent ID: 8069678

Claim:
A process for the continuous vaporization of cryogenic fluids and liquefied natural gas (LNG) using heat from the ambient air atmosphere, said process comprising the steps of: (a) arranging an array of ambient air vaporizer heat exchangers each of said exchangers having a plurality of vertically oriented parallel connected tubular heat exchange elements, wherein said arrangement of said heat exchangers are in vertical parallel relationship to each other into a spatial pattern of rows and lanes that are generally disposed at right angles to each other so as to provide uniform flow of the ambient air through such array from the top to the bottom thereof; (b) mounting each of the vaporizer heat exchangers on an extended base so as to provide spacing between the bottoms of the heat exchangers and the surface on which said array is supported so as to provide unrestricted flow to the ambient air downward through all of said heat exchangers of said array and discharging said atmospheric air from beneath the heat exchanger array; wherein said spatial pattern is such that the spatial ratio of the heat exchanger's width divided by the space between heat exchangers is between 1 and 2 and wherein said extended base is such that the height of the heat exchanger element divided by the height of the unobstructed distance for air discharge below said heat exchanger bottom is between 2.5 and 4, whereby said extended base is the sum of said unobstructed distance plus any obstruction to air flow on said surface in which said array is supported; (c) flowing and evenly distributing the cryogenic fluid to each of the all-parallel connected, vertical heat exchange elements of the heat exchangers within said array upward in counter-current flow to the downward natural convection flow of the ambient air; (d) dividing the array of heat exchangers into two or more banks and providing each of said banks with a flow switching valve utilizing said valve to divert the cryogenic fluid between said banks of heat exchangers thus permitting the natural defrost of one bank while the other bank or banks continue the vaporization process in order to achieve true continuous operation; (e) providing the individual heat exchanger elements of said heat exchangers with a continuous internal liner tube and inserting a vortex flow generator within the full length of said liner tube and installing a venturi-shaped flow restrictor into the entry portion of each of said heat exchange elements, all of said venturi-shaped flow restrictors being of the same physical size, shape and dimensions; (f) using a twisted metal tape vortex generator provided with a twist ratio for the 360Â° twist length divided by the tube internal diameter of between 2 and 3; and (g) wherein said venturi-shaped flow restrictor has a straight sided entry cone and a straight sided exit cone and is provided with a minimum internal throat diameter of between â…• and Â½ of said tube internal diameter.