Segmented conformal heat exchanger

What is claimed is: 1. A heat exchanger, comprising: a plurality of heat exchanger elements, each said heat exchanger element having a principal axis and a transverse axis, and a fluid inlet, a fluid outlet and an internal flow path extending between and interconnecting said fluid inlet and fluid outlet; an inlet manifold element fluidly coupled to the fluid inlet of at least one of said plurality of heat exchanger elements; an outlet manifold element fluidly coupled to the fluid outlet of at least one of said plurality of heat exchanger elements; wherein said plurality of heat exchanger elements are interconnected, with each said heat exchanger element being connected to at least one adjacent said heat exchanger element to allow for expansion and/or contraction as well as rotational movement about said principal axis and/or said transverse axis. 2. The heat exchanger as claimed in claim 1 , wherein the plurality of heat exchanger elements includes a first heat exchanger element and a second heat exchanger element which are arranged transversely adjacent to one another, and wherein the internal flow paths of the first and second heat exchanger elements are fluidly coupled together. 3. The heat exchanger as claimed in claim 1 , wherein the plurality of heat exchanger elements includes a first heat exchanger element and a second heat exchanger element which are arranged transversely adjacent to one another, and wherein the first and second heat exchanger elements include lateral edge portions which interlock with one another so as to connect the first and second heat exchanger elements together. 4. The heat exchanger as claimed in claim 1 , wherein the plurality of heat exchanger elements includes a first heat exchanger element and a third heat exchanger element which are arranged longitudinally adjacent to one another, and wherein the first and third heat exchanger elements include longitudinal edge portions which interlock with one another so as to connect the first and third heat exchanger elements together. 5. The heat exchanger as claimed in claim 3 , wherein one of said fluid inlet and fluid outlet of each of said first heat exchanger element and said second heat exchanger element is in the form a protrusion extending away from the lateral edge portion of said first or second heat exchanger element, the other of said fluid inlet and fluid outlet being in the form of an opening adapted to slidingly receive the protrusion from the transversely adjacent first or second heat exchanger element so as to fluidly couple the internal flow path of the first heat exchanger element to the internal flow path of the second heat exchanger element. 6. The heat exchanger as claimed in claim 1 , wherein a sliding face seal is provided between the inlet manifold element and each said heat exchanger element having its fluid inlet coupled to the inlet manifold element, and a sliding face seal is provided between the outlet manifold element and each said heat exchanger element having its fluid outlet coupled to the inlet manifold element; said heat exchanger further comprising a sealing device arranged at each of the sliding face seals, said sealing devices providing a sliding interface over which said heat exchanger elements can slide when engaged with said inlet and outlet manifold elements. 7. The heat exchanger as claimed in claim 6 , wherein each said sliding face seal is formed between a fluid opening in one of the manifold elements and a fluid inlet or fluid outlet of one of said heat exchanger elements, and wherein the fluid inlet or outlet is provided along an exposed lateral edge of the heat exchanger element; and wherein the sealing element of each said sliding face seal comprises an O-ring which is received in an annular groove surrounding one of the fluid openings of one of the manifold elements or the fluid inlet or outlet of one of said heat exchanger elements. 8. The heat exchanger as claimed in claim 7 , wherein each said annular groove surrounds one of the fluid openings of one of the manifold elements, and wherein the fluid openings of the manifold elements have a larger diameter than the fluid inlets and outlets of the heat exchanger elements. 9. The heat exchanger as claimed in claim 7 , wherein each said manifold element has an inner surface along one or more of said fluid openings are provided; wherein a receiving groove is provided along the inner surface; wherein the exposed lateral edge of the heat exchanger element is formed on a mating outer edge portion of the heat exchanger element; and wherein said mating outer edge portion is adapted to be slidingly received in a tongue-and-groove arrangement in said receiving groove. 10. The heat exchanger as claimed in 1 , wherein at least one of said heat exchanger elements comprises: a bottom portion and a top portion enclosing a fluid cavity, said bottom portion having a generally planar bottom surface; said heat exchanger element having a first interlocking longitudinal end portion, a second interlocking longitudinal end portion generally opposed to said first interlocking longitudinal end portion, a first lateral interlocking edge portion and a second lateral interlocking edge portion generally opposed to said first lateral interlocking edge portion; wherein said fluid inlet extends through a first lateral side surface of the heat exchanger element to be in fluid communication with said fluid cavity, said fluid outlet extends through an opposed second lateral side surface of the heat exchanger element at a location generally opposed to and aligned longitudinally with said fluid inlet so as to be in fluid communication with said fluid cavity, said internal flow path being formed within said fluid cavity. 11. The heat exchanger as claimed in claim 10 , wherein said first longitudinal interlocking end portion of one said heat exchanger element is connected to the second longitudinal interlocking end portion of a longitudinally adjacent said heat exchanger element, and wherein the first lateral interlocking edge portion of one said heat exchanger element is connected to the second lateral interlocking edge portion of a transversely adjacent said heat exchanger element, the interlocking lateral edge portions of said adjacent heat exchanger elements establishing fluid communication between the internal flow paths of the heat exchanger elements. 12. The heat exchanger as claimed in claim 11 , wherein said first and second interlocking longitudinal end portions of the longitudinally adjacent heat exchanger elements each comprise a through-hole extending therethrough, the through-hole in one of the first and second interlocking longitudinal end portions being larger than the through-hole formed in the other of the first and second interlocking longitudinal end portions, said through-holes formed in said first and second interlocking longitudinal end portions overlapping when said longitudinally adjacent heat exchanger elements are arranged in interlocking relationship; and wherein a locating rod is inserted through said overlapping through-holes. 13. The heat exchanger as claimed in claim 12 , wherein said locating rod is securely fixed in one of said overlapping through-holes for securing the corresponding heat exchanger element to said locating rod; and wherein said locating rod has a diameter which is smaller than the other of said overlapping through-holes, the corresponding heat exchanger element being movable with respect to the longitudinally adjacent heat exchanger element about said locating rod. 14. The heat exchanger as claimed in claim 13 , wherein the interlocking longitudin