Condenser

The invention claimed is: 1. A condenser cooled by cooling medium, comprising at least one pipe/rib block having a plurality of pipe units, wherein each pipe unit comprises a plurality of flat pipes arranged in parallel to one another, wherein each flat pipe has a refrigerating-medium-side flow path characterized by a plurality of flow channels which extend beside each other in the transverse direction of the pipe, wherein each flat pipe has a cooling-medium-side flow path bounded by at least one intermediate element mechanically attached to the flat pipe in a thermally conducting manner, wherein (i) at least one refrigerating-medium-side flow path and (ii) at least one cooling-medium-side flow path bounded by the at least one intermediate element mechanically attached to the flat pipe of the at least one refrigerating-medium-side flow path are in counter-current with respect to one another, wherein between each pipe unit of the plurality of pipe units is arranged diversions for independently diverting the at least one refrigerating-medium-side flow path and the at least one cooling-medium-side flow path 180 degrees such that the at least one refrigerating-medium-side flow paths of at least one pair of adjacent pipe units flow in opposite directions and the at least one cooling-medium-side flow paths of at least one pair of adjacent pipe units flow in opposite directions, wherein the refrigerating-medium-side flow path is connected in a continuously degressive manner, in such a manner that a flow cross-section of a last refrigerating-medium-side flow path is at least slightly smaller than the refrigerating-medium-side flow path of a first flow path, wherein the plurality of flow channels define a refrigerating-medium-side hydraulic diameter (D hRefrigerating medium ), and wherein the at least one intermediate element defines a cooling-medium-side hydraulic diameter (D hcooling medium ), wherein a ratio of the two hydraulic diameters (D hCooling medium ) to (D hRefrigerating medium ) is greater than (>) 1.3, wherein the hydraulic diameters (D h ) of the cooling medium (D hCooling medium ) and refrigerating medium (D hRefrigerating medium ) are calculated using the equation: d h = 4 ⁢ A U = 4 ⁢ r hy wherein A is a cross-sectional area of flow, U is a wetted perimeter of a fluid flowing through the cross-sectional area, and r hy is the hydraulic radius of the cross-sectional area. 2. The condenser as claimed in claim 1 , wherein the ratio of the two hydraulic diameters (D hCooling medium ) to (D hRefrigerating medium ) is between 1.3 and 4. 3. The condenser as claimed in claim 1 , wherein the cooling-medium-side hydraulic diameter (D hCooling medium ) is between 1.5 mm and 3 mm. 4. The condenser as claimed in claim 1 , wherein the refrigerating-medium-side hydraulic diameter (D hRefrigerating medium ) is between 0.2 mm and 1.8 mm. 5. The condenser as claimed in claim 1 , wherein the intermediate element is constructed in the manner of a turbulence insert. 6. The condenser as claimed in claim 1 , wherein the flat pipes have a plurality of identically constructed flow channels which are arranged beside each other and which are orientated in the same direction, wherein a width (b) of each flow channel is at least slightly smaller than a height (h) thereof. 7. The condenser as claimed in claim 1 , wherein both the cooling-medium-side and the refrigerating-medium-side flow paths have a plurality of diversions when viewed in a flow course. 8. The condenser as claimed in claim 1 , wherein at least in the first and in the last flow path of the cooling-medium-side flow paths and the refrigerating-medium-side flow paths are in counter-current. 9. The condenser as claimed in claim 1 , wherein a depth (t) of a pipe/rib unit or a flat pipe is between 10 mm and 100 mm. 10. The condenser as claimed in claim 2 , wherein the ratio of the two hydraulic diameters (D hCooling medium ) to (D hRefrigerating medium ) is between 1.5 and 2.5. 11. The condenser as claimed in claim 1 , wherein the refrigerating-medium-side hydraulic diameter (D hRefrigerating medium ) is between 0.4 mm and 1.3 mm. 12. The condenser as claimed in claim 8 , wherein the cooling-medium-side flow paths and the refrigerating-medium-side flow paths are in counter-current in all flow paths. 13. The condenser as claimed in claim 9 , wherein a depth (t) of a pipe/rib unit or a flat pipe is between 16 mm and 35 mm.