Cooling arrangement for a rack hosting electronic equipment and at least one fan

What is claimed is: 1. A cooling arrangement for a rack hosting electronic equipment and at least one fan, the cooling arrangement comprising: a first air-liquid heat exchanger unit mounted to the rack so that heated air expelled from the rack by the at least one fan flows through the first air-liquid heat exchanger unit, the first air-liquid heat exchanger unit comprising a first frame, a first liquid inlet mounted to the first frame and adapted to receive liquid from a first cold supply line, a first liquid outlet mounted to the first frame and adapted to return liquid to a first hot return line, and a first continuous internal conduit forming a first plurality of interconnected parallel sections extending within the first frame, the first continuous internal conduit connecting the first liquid inlet to the first liquid outlet; and a separate second air-liquid heat exchanger unit that is mounted to the first air-liquid heat exchanger unit so that air having flowed through the first air-liquid heat exchanger unit flows through the second air-liquid heat exchanger unit, the second air-liquid heat exchanger unit comprising a second frame, a second liquid inlet mounted to the second frame and adapted to receive liquid from the first cold supply line or from a second cold supply line, a second liquid outlet mounted to the second frame and adapted to return liquid to the first hot return line or to a second hot return line, and a second continuous internal conduit forming a second plurality of interconnected parallel sections extending within the second frame, the second continuous internal conduit connecting the second liquid inlet to the second liquid outlet; wherein: the mounting of the separate second air-liquid heat exchanger unit is arranged to have the second frame parallel and adjacent to the first frame, and one of the first plurality of interconnected parallel sections of the first continuous internal conduit nearest to the first liquid inlet is proximate one of the second plurality of interconnected parallel sections of the second continuous internal conduit nearest to the second liquid outlet; the first air-liquid heat exchanger unit and the second air-liquid heat exchanger unit are assembled in an anti-parallel configuration; an airflow between the first and second air-liquid heat exchanger units has a heterogeneous temperature profile; and the same airflow having passed through the second air-liquid heat exchanger unit has a substantially homogeneous temperature profile. 2. The cooling arrangement of claim 1 , wherein: the first liquid inlet and the first liquid outlet are connected on a same side of the first frame; and the second liquid inlet and the second liquid outlet are connected on a same side of the second frame. 3. The cooling arrangement of claim 1 , wherein the first liquid inlet and the second liquid inlet are located on a same side of the cooling arrangement. 4. The cooling arrangement of claim 1 , wherein the first and second pluralities of interconnected parallel sections of the first and second continuous internal conduits extend horizontally. 5. The cooling arrangement of claim 1 , wherein the first and second pluralities of interconnected parallel sections of the first and second continuous internal conduits extend vertically. 6. The cooling arrangement of claim 1 , wherein: a first one of the first plurality of interconnected parallel sections is connected to the first liquid inlet; each one of the first plurality of interconnected parallel sections except a last one of the first plurality of interconnected parallel sections is connected to a next one of the first plurality of interconnected parallel sections via one of a first plurality of U-shaped sections of the first continuous internal conduit; the last one of the first plurality of interconnected parallel sections is connected to the first liquid outlet; a first one of the second plurality of interconnected parallel sections is connected to the second liquid inlet; each one of the second plurality of interconnected parallel sections except a last one of the second plurality of interconnected parallel sections is connected to a next one of the second plurality of interconnected parallel sections via one of a second plurality of U-shaped sections of the second continuous internal conduit; and the last one of the second plurality of interconnected parallel sections is connected to the second liquid outlet. 7. The cooling arrangement of claim 1 , wherein: the first air-liquid heat exchanger unit is a first dual-flow air-liquid heat exchanger unit further comprising a third continuous internal conduit forming a third plurality of interconnected parallel sections extending within the first frame, the third continuous internal conduit connecting the first liquid inlet to the first liquid outlet; and the second air-liquid heat exchanger unit is a second dual-flow air-liquid heat exchanger unit further comprising a fourth continuous internal conduit forming a fourth plurality of interconnected parallel sections extending within the second frame, the fourth continuous internal conduit connecting the second liquid inlet to the second liquid outlet. 8. The cooling arrangement of claim 7 , wherein: a first portion of the first plurality of interconnected parallel sections is located in a first plane within the first frame; a second portion of the first plurality of interconnected parallel sections is located in a second plane within the first frame, the second plane being parallel to the first plane; a first portion of the third plurality of interconnected parallel sections is located in the second plane within the first frame; a second portion of the third plurality of interconnected parallel sections is located in the first plane within the first frame; a first portion of the second plurality of interconnected parallel sections is located in a third plane within the second frame; a second portion of the second plurality of interconnected parallel sections is located in a fourth plane within the second frame, the fourth plane being parallel to the third plane; a first portion of the fourth plurality of interconnected parallel sections is located in the fourth plane within the second frame; and a second portion of the fourth plurality of interconnected parallel sections is located in the third plane within the second frame. 9. The cooling arrangement of claim 1 , further comprising: the first cold supply line; and the first hot return line. 10. The cooling arrangement of claim 9 , wherein the first cold supply line and the first hot return line are connected to a secondary cooling system for the rack. 11. The cooling arrangement of claim 9 , further comprising: the second cold supply line; and the second hot return line; wherein the first cold supply line, the second cold supply line, the first hot return line and the second hot return line are connected to a secondary cooling system for the rack. 12. The cooling arrangement of claim 1 , wherein each one of the first and second air-liquid heat exchanger units is configured to reduce a temperature of the air expelled from the rack to less than a maximum rated air temperature when the other one of the first and second air-liquid heat exchanger units is taken out of service. 13. The cooling arrangement of claim 1 , further comprising a pair of hinges mounted on a lateral side of the first frame, the hinges being adapted for pivotally mounting the cooling arrangement on the rack. 14. The cooling arrangement of claim 1 , further comprising a temperature sensor mounted on an external