Heat exchanger with improved plugging resistance

What is claimed is: 1. A heat exchanger assembly comprising: a first bar plate; a second bar plate; a plurality of individual discrete fins disposed between the first bar plate and the second bar plate and configured to receive a flow of a heat exchange fluid, each individual discrete fin, of the plurality of individual discrete fins, having a respective first end with a respective first tab that is configured to be received in a respective cooperative slot of the first bar plate, each individual discrete fin, of the plurality of individual discrete fins, having a respective first fillet on a respective first side of each individual discrete fin and a respective second fillet on a respective second side of each individual discrete fin, the respective first tab of each individual discrete fin disposed between the respective first fillet and the respective second fillet of each individual discrete fin. 2. The heat exchanger assembly of claim 1 , wherein each individual discrete fin, of the plurality of individual discrete fins, has a respective second end with a respective second tab that is configured to be received in a respective cooperative slot of the second bar plate. 3. The heat exchanger assembly of claim 2 , wherein each individual discrete fin, of the plurality of individual discrete fins, has a respective third fillet on the respective first side of each individual discrete fin and a respective fourth fillet on the respective second side of each individual discrete fin. 4. The heat exchanger of claim 3 , wherein the respective second tab of each individual discrete fin is disposed between the respective first fillet and the respective second fillet of each individual discrete fin. 5. The heat exchanger of claim 4 , wherein each individual discrete fin, of the plurality of individual discrete fins, extends diagonally from the respective first end to the respective second end. 6. The heat exchanger of claim 5 , wherein each respective first tab is perpendicular relative to a longitudinal axis of the first bar plate. 7. The heat exchanger of claim 1 , wherein each fillet comprises a concave cross-section. 8. The heat exchanger of claim 1 , wherein each individual discrete fin, of the plurality of individual discrete fins, are soldered to at least one of the first bar plate and second bar plate. 9. An individual discrete fin for a bar plate heat exchanger assembly, the individual discrete fin comprising: a first end; a first fillet at the first end and disposed on a first side of the individual discrete fin; a second fillet at the first end and disposed on a second side of the individual discrete fin; and a first tab disposed at the first end between the first fillet and the second fillet, and configured to be received by a cooperative slot of a first bar plate of the bar plate heat exchanger assembly. 10. The individual discrete fin of claim 9 , further comprising: a second end; a third fillet at the second end and disposed on the first side of the individual discrete fin; a fourth fillet at the second end and disposed on the second side of the individual discrete fin; and a second tab disposed at the second end between the third fillet and the fourth fillet, and configured to be received by a cooperative slot of a second bar plate of the bar plate heat exchanger assembly. 11. The individual discrete fin of claim 10 , wherein the individual discrete fin extends diagonally from the first end to the second end. 12. The individual discrete fin of claim 11 , wherein the first tab and the second tab extend from the first end and the second end, respectively, in a direction different from the diagonal direction that the discrete fin extends from the first end to the second end. 13. The individual discrete fine of claim 10 , wherein each fillet comprises a concave cross-section. 14. A heat exchanger assembly comprising: a first bar plate; a second bar plate; and a plurality of individual discrete fins, each individual discrete fin comprising: a respective first end and a respective second end; a respective first fillet at the respective first end and disposed on a respective first side of each individual discrete fin; a respective second fillet at the respective first end and disposed on a respective second side of each individual discrete fin; a respective third fillet at the respective second end and disposed on the respective first side of each individual discrete fin; a respective fourth fillet at the respective second end and disposed on the respective second side of each individual discrete fin; a respective first tab disposed at the respective first end between the respective first fillet and the respective second fillet of each individual discrete fin, and configured to be received by a respective cooperative slot of the first bar plate; and a respective second tab disposed at the respective second end between the respective third fillet and the respective fourth fillet of each individual discrete fin, and configured to be received by a respective cooperative slot of the second bar plate. 15. The heat exchanger assembly of claim 14 , wherein the respective first tab is disposed equidistantly between the respective first fillet and the respective second fillet of each individual discrete fin. 16. The heat exchanger assembly of claim 15 , wherein the respective second tab is disposed equidistantly between the respective third fillet and the respective fourth fillet of each individual discrete fin. 17. The heat exchanger assembly of claim 14 , wherein the respective cooperative slot of the first bar plate is laterally offset from the respective cooperative slot of the second bar plate relative to a longitudinal axis of the heat exchanger assembly. 18. The heat exchanger assembly of claim 14 , wherein each of the first, second, third and fourth fillets comprise a concave cross-section. 19. The heat exchanger assembly of claim 14 , wherein each individual discrete fin, of the plurality of individual discrete fins, extends diagonally from the respective first end to the respective second end. 20. The heat exchanger assembly of claim 19 , wherein the respective first tab of each individual discrete fin is perpendicular relative to a longitudinal axis of the first bar plate and the respective second tab of each individual discrete fin is perpendicular relative to a longitudinal axis of the second bar plate.