Coaxial gas-liquid heat exchanger with thermal expansion connector

What is claimed is: 1. A concentric tube heat exchanger, comprising: a) a radially outer tube having a first end and a second end; b) a radially inner tube concentric with the outer tube, the inner tube having a first end and a second end; c) a middle tube located between, and concentric with, the inner and outer tubes, wherein the middle tube has a first end and a second end, wherein an annular gas flow passage is formed between the inner tube and the middle tube, wherein an annular coolant flow passage is formed between the middle tube and the outer tube, and wherein the outer, inner and middle tubes extend along a longitudinal axis; d) a connector comprising: (i) a radially inner connecting portion rigidly connected to the first end of the inner tube; (ii) a radially outer connecting portion having a radially inner surface and a radially outer surface, both of which surfaces are parallel to the longitudinal axis, with the outer surface being rigidly connected to a radially inner surface of the middle tube; (iii) one or more webs extending angularly relative to both a radial direction and the longitudinal axis, and extending between the inner connecting portion and the outer connecting portion, wherein each of the one or more webs has a radially inner end rigidly connected to the inner connecting portion and a radially outer end rigidly connected to the outer connecting portion, and wherein the one or more webs permit gas to flow into the annular gas flow passage; and (iv) a blocking portion which blocks the first end of the inner tube, wherein the inner connecting portion and the blocking portion together form a central plug portion which is rigidly connected to the first end of the inner tube, wherein the inner connecting portion and the blocking portion are integrally formed, wherein the central plug portion is in the shape of a cup with the inner connecting portion forming a cylindrical side wall of the cup and the blocking portion forming a bottom of the cup, wherein the cup has an open top facing outwardly of the first end of the inner tube, and wherein the blocking portion is recessed inwardly along the longitudinal axis from the first end of the inner tube; and e) a turbulence-enhancing insert provided in the gas flow passageway, wherein the insert is in contact with a radially outer surface of the inner tube and a radially inner surface of the middle tube, and wherein the turbulence enhancing insert in the annular gas flow passage is a corrugated fin, and wherein the fin is joined to the inner surface of the middle tube by brazing, and is not brazed or otherwise rigidly attached to the outer surface of the inner tube. 2. The concentric tube heat exchanger of claim 1 wherein, in a plane which is transverse to the longitudinal axis of the tubes, the one or more webs have a combined area which is a minor amount of the total area of the gas flow passage. 3. The concentric tube heat exchanger of claim 1 , wherein the connector includes at least two of said webs, and wherein said webs are spaced evenly about the circumference of the inner tube. 4. The concentric tube heat exchanger of claim 1 , wherein the cup further comprises a circumferential lip which is distal from the blocking portion and protrudes beyond the end of the inner tube, and wherein the inner ends of the webs are connected to the circumferential lip. 5. The concentric tube heat exchanger according to claim 1 , wherein the inner connecting portion of the connector comprises a longitudinally extending cylindrical ring, and wherein the inner ends of the one or more webs are rigidly connected to the inner connecting portion. 6. The concentric tube heat exchanger of claim 5 , wherein the inner connecting portion has an outside diameter slightly less than an inside diameter of the first end of the inner tube, wherein the inner connecting portion has a radially outer surface along which it is rigidly connected to a radially inner surface of the first end of the inner tube; or wherein the inner connecting portion has an inside diameter slightly greater than an outside diameter of the first end of the inner tube, wherein the inner connecting portion has a radially inner surface along which it is rigidly connected to a radially outer surface of the first end of the inner tube. 7. The concentric tube heat exchanger of claim 1 , wherein the outer connecting portion of the connector comprises a longitudinally extending cylindrical ring, and wherein the outer ends of the one or more webs are rigidly connected to the outer connecting portion. 8. The concentric tube heat exchanger of claim 1 , wherein the connector includes a plurality of said webs and a plurality of said outer connecting portions, wherein the outer end of each said web is rigidly connected to one of said outer connecting portions. 9. The concentric tube heat exchanger of claim 1 , wherein the connector includes a plurality of said webs and a plurality of said inner connecting portions, wherein the inner end of each said web is rigidly connected to one of said inner connecting portions. 10. The concentric tube heat exchanger of claim 1 , wherein each of the ends of the middle tube is adapted for connection to a gas flow conduit, wherein the first end of the inner tube is located inside the middle tube; and wherein the inner tube is shorter than the middle tube, and wherein both the first and second ends of the inner tube are located inside the middle tube. 11. The concentric tube heat exchanger of claim 1 , wherein the outer tube is shorter than the middle tube, and wherein the outer tube is sealed at its first and second ends to the outer surface of the middle tube. 12. The concentric tube heat exchanger of claim 1 , wherein the outer tube is provided with inlet and outlet openings for a liquid coolant. 13. The concentric tube heat exchanger of claim 1 , wherein the annular coolant flow passage is provided with a turbulence enhancing insert which is in contact with the outer surface of the middle tube and the inner surface of the outer tube. 14. The concentric tube heat exchanger of claim 13 , wherein the turbulence enhancing insert in the annular coolant flow passage is a turbulizer, and wherein the turbulizer is joined to the outer surface of the middle tube by brazing, and is not brazed to the inner surface of the outer tube. 15. The concentric tube heat exchanger of claim 1 , wherein the inner connecting portion of the connector is rigidly connected to the first end of the inner tube by brazing, and the outer surface of the outer connecting portion of the connector is rigidly connected to the inner surface of the middle tube by brazing. 16. A hot gas cooling system comprising: (A) a first concentric tube heat exchanger comprising: a) a first radially outer tube having a first end and a second end; b) a first radially inner tube concentric with the first outer tube, the first inner tube having a first end and a second end; c) a first middle tube located between, and concentric with, the first inner tube and the first outer tube, wherein the first middle tube has a first end and a second end, wherein a first annular gas flow passage is formed between the first inner tube and the first middle tube, wherein a first annular coolant flow passage is formed between the first middle tube and the first outer tube, and wherein the first outer tube, the first inner tube and the first middle tube extend along a longitudinal axis; d) a first connector comprising: (i) a radially inner connecting portion rigidly connected to the first end of the first inner tube; (ii) a radiall