Water block having hollow fins

What is claimed is: 1. A water block for cooling a heat-generating component, comprising: a body defining an internal fluid conduit for circulating a liquid within the water block, the body defining a fluid inlet and a fluid outlet for feeding the liquid into and discharging the liquid from the internal fluid conduit respectively, the body comprising: an external thermal transfer surface configured to be in thermal contact with the heat-generating component; an opposite external surface disposed in parallel with and on an opposite side of the body from the external thermal transfer surface, the internal fluid conduit comprises a lower fluid conduit portion disposed between the external thermal transfer surface and the opposite external surface, the lower fluid conduit portion configured with a plurality of longitudinally-extending sections that define a path for the liquid to flow through the internal fluid conduit between the fluid inlet and the fluid outlet; and at least one hollow fin extending from the opposite external surface, the at least one hollow fin defining at least one external fin passage and at least one internal fin recess having a longitudinally-extending configuration, wherein, the at least one hollow fin is positioned such that the longitudinally-extending configuration of the at least one internal fin recess is longitudinally overlaid on top of a corresponding section of the plurality of longitudinally-extending sections of the lower fluid conduit portion to matingly form the internal fluid conduit of the water block and enable the fluid liquid flow therethrough. 2. The water block of claim 1 , wherein: the body comprises a base portion and a cover portion affixed to one another, the base portion and the cover portion defining together the internal fluid conduit; the base portion comprises the external thermal transfer surface; and the cover portion comprises the opposite external surface. 3. The water block of claim 1 , wherein: the at least one hollow fin includes a plurality of hollow fins; the hollow fins are generally parallel to one another and are spaced apart from one another, the external fin passages being defined between consecutive ones of the hollow fins. 4. The water block of claim 1 , wherein a cross-sectional profile of each hollow fin, taken along a plane normal to a length of the hollow fin, is generally rectangular. 5. The water block of claim 1 , wherein the at least one hollow fin is configured to be in thermal contact with an external fluid to transfer heat from the heat transfer fluid circulating in the internal fluid conduit to the external fluid. 6. The water block of claim 3 , wherein: each hollow fin of the plurality of hollow fin extends, in a height direction, from the opposite external surface to an upper end of the hollow fin; the water block further comprises a fin cover interconnecting the upper ends of the hollow fins; and each of the fin passages is defined between two consecutive ones of the hollow fins, the opposite external surface and the fin cover. 7. The water block of claim 6 , wherein the fin cover extends generally parallel to the opposite external surface. 8. The water block of claim 3 , wherein: each hollow fin of the plurality of hollow fins has a length measured from a first longitudinal end to a second longitudinal end thereof; and the length of each hollow fin corresponds to at least a majority of a length of the body. 9. The water block of claim 3 , wherein: each hollow fin of the plurality of hollow fins has a length measured from a first longitudinal end to a second longitudinal end thereof; and the fin recess of each hollow fin of the plurality of hollow fins extends along at least a majority of the length thereof. 10. A heat transfer system for cooling a heat-generating component, the heat transfer system comprising: the water block of claim 1 , the internal fluid conduit of the water block being configured to circulate a first heat transfer liquid therethrough; and an immersion cooling tank containing the water block therein, the immersion cooling tank being configured to contain a second heat transfer liquid therein such that, in use, the water block is immersed in the second heat transfer liquid such that the second heat transfer liquid flows in the at least one external fin passage defined by the at least one hollow fin of the water block. 11. The heat transfer system of claim 10 , wherein the first heat transfer liquid is water and the second heat transfer liquid is a dielectric liquid. 12. A method of installing a heat transfer system for cooling a heat-generating component, the method comprising: providing an immersion cooling tank; installing a water block on the heat-generating component, the water block comprising: an internal fluid conduit for circulating a first heat transfer liquid through the water block; a plurality of longitudinally-extending internal sections that define a path for flow of the first heat transfer liquid; at least one hollow fin defining an internal fin recess having a longitudinally-extending configuration that is aligned to be longitudinally overlaid on top a corresponding section of the plurality of longitudinally-extending sections of the lower fluid conduit portion and matingly form the internal fluid conduit and facilitate the internal flow of the first heat transfer liquid therethrough; placing the heat-generating component and the installed water block in the immersion cooling tank; pumping the first heat transfer liquid through the internal fluid conduit of the water block; and filling the immersion cooling tank with a second heat transfer liquid such that the second heat transfer liquid flows within at least one external fin passage defined by the at least one hollow fin thereby transferring thermal energy from the first heat transfer liquid circulating in the internal fin recess of the at least one hollow fin to the second heat transfer liquid. 13. The method of claim 12 , wherein the first heat transfer liquid is water. 14. The method of claim 12 , wherein the heat-generating component is placed in the immersion cooling tank such that the at least one hollow fin of the water block extends generally vertically.