Thermoelectric generator system

What is claimed is: 1. A thermoelectric generator system comprising a plurality of thermoelectric generator units including first and second thermoelectric generator units, each of which includes a plurality of tubular thermoelectric generators, wherein each of the plurality of tubular thermoelectric generators has an outer peripheral surface, an inner peripheral surface and a flow path defined by the inner peripheral surface, and generates electromotive force in an axial direction of each said tubular thermoelectric generator based on a difference in temperature between the inner and outer peripheral surfaces, each of the first and second thermoelectric generator units further includes: a container housing the plurality of tubular thermoelectric generators inside, the container having fluid inlet and outlet ports through which a fluid flows inside the container, and a plurality of openings into which the respective tubular thermoelectric generators are inserted; a fluid conduit connected between the fluid outlet port of the container of the first thermoelectric generator unit and the fluid inlet port of the container of the second thermoelectric generator unit, through which fluid from the first thermoelectric generator unit is communicated into the second thermoelectric generator unit which is downstream of the first thermoelectric generator unit, wherein the fluid conduit defines a first medium path communicating with the fluid inlet and outlet ports of the container in the first thermoelectric generator unit and the fluid inlet and outlet ports of the container in the second thermoelectric generator unit; and a plurality of electrically conductive members providing electrical interconnection for the plurality of tubular thermoelectric generators, and the thermoelectric generator system further includes a buffer vessel which is arranged between the first and second thermoelectric generator units, the buffer vessel having a first opening communicating with the respective flow paths of the plurality of tubular thermoelectric generators in the first thermoelectric generator unit and a second opening communicating with the respective flow paths of the plurality of tubular thermoelectric generators in the second thermoelectric generator unit, wherein the buffer vessel defines a second medium path between the respective flow paths of the plurality of tubular thermoelectric generators in the first thermoelectric generator unit and the respective flow paths of the plurality of tubular thermoelectric generators in the second thermoelectric generator unit, wherein in the second medium path, fluid flows downstream from inside the plurality of tubular thermoelectric generators in the first thermoelectric generator unit through the buffer vessel and to inside the plurality of tubular thermoelectric generators in the second thermoelectric generator unit, and wherein in the first medium path, fluid flows downstream from an area inside the container of the first thermoelectric generator unit that is outside the plurality of tubular thermoelectric generators in the first thermoelectric generator unit, through the fluid conduit outside of the container of the first thermoelectric generator unit, and to an area that is inside the container of the second thermoelectric generator unit and outside the plurality of tubular thermoelectric generators in the second thermoelectric generator unit. 2. The thermoelectric generator system of claim 1 , wherein the buffer vessel contains a baffle structure therein. 3. The thermoelectric generator system of claim 2 , wherein, the baffle structure is shaped to change at least partially a flow direction of the fluid flowing in the second medium path into the buffer vessel. 4. The thermoelectric generator system of claim 3 , wherein the baffle structure includes at least one baffle plate. 5. The thermoelectric generator system of claim 3 , wherein the baffle structure has a movable portion. 6. The thermoelectric generator system of claim 3 , wherein the baffle structure is shaped to change the flow direction of the fluid flowing in the second medium path around a cross-sectional center of the buffer vessel. 7. The thermoelectric generator system of claim 3 , wherein the baffle structure is shaped to radially expand gradually in the flow direction of the fluid flowing in the second medium path. 8. The thermoelectric generator system of claim 3 , wherein a gap is left between an inner wall of the buffer vessel and an outer edge of the baffle structure. 9. The thermoelectric generator system of claim 3 , wherein the baffle structure is shaped to change the flow direction of the fluid flowing in the second medium path around an inner periphery of the buffer vessel so that the fluid flowing in the second medium path flows toward a cross-sectional center of the buffer vessel. 10. The thermoelectric generator system of claim 3 , wherein the baffle structure is a projection which is provided on an inner wall of the buffer vessel so as to project toward a cross-sectional center of the buffer vessel. 11. The thermoelectric generator system of claim 1 , wherein the container includes: a shell surrounding the plurality of tubular thermoelectric generators; and a pair of plates, each of which is fixed to the shell and at least one of which has a plurality of openings and channels, each channel housing one of the plurality of electrically conductive members, wherein respective ends of the tubular thermoelectric generators are inserted into the plurality of openings of the plates, and at least one of the channels has an interconnection which connects at least two of the plurality of openings together. 12. The thermoelectric generator system of claim 1 , wherein the plurality of electrically conductive members connect the plurality of tubular thermoelectric generators electrically in series together. 13. The thermoelectric generator system of claim 12 , further comprising: an electric circuit electrically connected to the plurality of tubular thermoelectric generators via at least one of the plurality of electrically conductive members. 14. The thermoelectric generator system of claim 12 , wherein the first and second thermoelectric generator units are electrically connected in series together. 15. A thermoelectric generator system comprising a plurality of thermoelectric generator units including first and second thermoelectric generator units, each of which includes a plurality of tubular thermoelectric generators, wherein each of the plurality of tubular thermoelectric generators has an outer peripheral surface, an inner peripheral surface and a flow path defined by the inner peripheral surface, and generates electromotive force in an axial direction of each said tubular thermoelectric generator based on a difference in temperature between the inner and outer peripheral surfaces, each of the first and second thermoelectric generator units further includes: a container housing the plurality of tubular thermoelectric generators inside, the container having fluid inlet and outlet ports through which a fluid flows inside the container, and a plurality of openings into which the respective tubular thermoelectric generators are inserted; a fluid conduit connected between the fluid outlet port of the container of the first thermoelectric generator unit and the fluid inlet port of the container of the second thermoelectric generator unit, through which fluid from the first thermoelectric generator unit is communicated into the second thermoelectric generator unit which is downstream of the first thermoelectric gen