Advanced large scale field-erected air cooled industrial steam condenser

The invention claimed is: 1. The large scale field erected air cooled industrial steam condenser connected to an industrial steam producing facility, comprising: a single or plurality of condenser streets, each condenser street comprising a row of condenser modules, each condenser module comprising a plenum section having single fan or multiple fans drawing air through a plurality of heat exchanger panels supported in a heat exchange section, and each heat exchanger panel having a longitudinal axis and a transverse axis perpendicular to its longitudinal axis; each heat exchanger panel comprising a plurality of condenser tubes and a top bonnet connected to and in fluid communication with a top end of each said plurality of condenser tubes, a bottom bonnet connected to and in fluid communication with a bottom end of each said plurality of condenser tubes, each said bottom bonnet having a single steam inlet; each said condenser street having a single steam distribution manifold suspended from a bottom side of said heat exchanger section arranged along an axis that is perpendicular to a longitudinal axis of said heat exchanger panels at a midpoint of said heat exchanger panels and extending a length of said condenser street, said steam distribution manifold having at its top surface a plurality of steam outlets. 2. The large scale field erected air cooled industrial steam condenser according to claim 1 , wherein each heat exchanger panel comprises only a single stage in which all tubes in the heat exchanger panel receive steam from a bottom end of said tubes. 3. The large scale field erected air cooled industrial steam condenser according to claim 1 , wherein said top bonnet is configured to receive non-condensable gasses from said condenser tubes. 4. The large scale field erected air cooled industrial steam condenser according to claim 1 , wherein each said heat exchanger panel is suspended from the condenser module frame by a plurality of flexible hanging supports. 5. The large scale field erected air cooled industrial steam condenser according to claim 4 , wherein said flexible hanging supports each comprise a central rod connected at each end to a connection sleeve, and wherein one connection sleeve of each flexible hanging support is connected to said condenser module frame and a second connection sleeve of each flexible hanging support is connected to a tube sheet of said heat exchanger panel. 6. The large scale field erected air cooled industrial steam condenser according to claim 1 , wherein said plurality of condenser tubes have a length of 2.0 m to 2.8 m, a cross-sectional height of 120 mm and a cross-sectional width of 4-10 mm. 7. The large scale field erected air cooled industrial steam condenser according to claim 6 , wherein said condenser tubes have a cross-sectional width of 5.2-7 mm. 8. The large scale field erected air cooled industrial steam condenser according to claim 7 , wherein said condenser tubes have a cross-sectional width of 6.0 mm. 9. The large scale field erected air cooled industrial steam condenser according to claim 1 , wherein said plurality of condenser tubes have fins attached to flat sides of said tubes, said fins having a height of 9 to 10 mm, and spaced at 5 to 12 fins per inch. 10. The large scale field erected air cooled industrial steam condenser according to claim 1 , wherein said plurality of condenser tubes have fins attached to flat sides of said tubes, said fins having a height of 18 mm to 20 mm spanning a space between adjacent tubes and contacting adjacent tubes, said fins spaced at 5 to 12 fins per inch. 11. A method of assembling a large scale field erected air cooled condenser according to claim 1 , comprising: assembling a heat exchange section at ground level, including a heat exchange section frame and said heat exchanger panels; supporting said heat exchange section at a height from ground sufficient only to suspend a steam distribution manifold section directly beneath and adjacent said heat exchanger panels, assembling a plenum section with fan deck and fan assembly at ground level; raising said assembled heat exchange section and said steam distribution manifold section and placing it atop a corresponding understructure; connecting adjacent steam distribution manifold sections to one-another, and raising said assembled plenum section and placing it atop said heat exchange section. 12. The large scale field erected air cooled industrial steam condenser according to claim 1 , wherein all of the heat exchange panels in a single heat exchange section are oriented in the same direction. 13. The large scale field erected air cooled industrial steam condenser according to claim 1 , wherein all of the heat exchange panels in a single heat exchange section are oriented vertically. 14. The large scale field erected air cooled industrial steam condenser according to claim 1 , wherein all of the heat exchange panels in a single heat exchange section are oriented in the same direction, at the same angle relative to vertical. 15. The large scale field erected air cooled industrial steam condenser according to claim 1 , wherein all of the heat exchange panels on one side of a single heat exchange section are inclined relative to vertical in one direction, and all of the heat exchange panels on the other side of the single heat exchange section are inclined relative to vertical in an opposite direction. 16. The large scale field erected air cooled industrial steam condenser according to claim 1 , said plenum section comprising a plurality of fan deck plates resting on fan deck framework, said fan deck plates each comprising a plurality of fans, each fan drawing air across no more than two heat exchange panels.