Heat exchanger arrangement, especially for a fuel-operated vehicle heater

What is claimed is: 1. A heat exchanger arrangement comprising: a first housing part comprising an outer circumferential wall, an inner circumferential wall and an inner bottom wall adjoining said inner circumferential wall in an inner circumferential wall end area, said outer circumferential wall, said inner circumferential wall and said inner bottom wall being integrally connected with one another to define a single, one-piece housing wall structure; and a second housing part comprising an outer bottom wall connected to said outer circumferential wall in an outer circumferential wall end area, said first housing part and said second housing part defining a pot-shaped heat exchanger housing that is elongated in a direction of a longitudinal axis and with a circumferential wall area and with a bottom wall area in an end area of said circumferential wall area and with a heat carrier medium flow space for heat carrier medium formed in said heat exchanger housing with a circumferential flow space and with a bottom flow space that is in connection with said circumferential flow space, said heat carrier medium flow space being enclosed by said first housing part and said second housing part, said inner circumferential wall and said outer circumferential wall defining at least a portion of said circumferential flow space, said outer bottom wall and said inner bottom wall defining at least a portion of said bottom flow space, said second housing part comprising an axially extending connection area in an outer edge area of said outer bottom wall, said second housing part being connected to said first housing part via a fluid-tight press fit connection, said axially extending connection area engaging said outer circumferential wall, wherein said axially extending connection area and said outer circumferential wall define at least a portion of said fluid-tight press fit connection, wherein said outer circumferential wall comprises an outer circumferential wall surface, said outer circumferential wall surface extending in a radial direction with respect to a longitudinal axis of said first housing, said outer bottom wall comprising an inner bottom wall surface, said inner bottom wall surface extending radially with respect to said longitudinal axis of said first housing, said inner bottom wall surface being in direct contact with said outer circumferential wall surface. 2. A heat exchanger arrangement in accordance with claim 1 , further comprising a heat carrier medium inlet and a heat carrier medium outlet at said outer circumferential wall, wherein said heat carrier medium inlet and said heat carrier medium outlet are offset in relation to one another in a circumferential direction. 3. A heat exchanger arrangement in accordance with claim 2 , wherein said first housing part comprises a partition extending in the direction of the longitudinal axis, between said inner circumferential wall and said outer circumferential wall, said another outer circumferential wall surface being perpendicular to said inner circumferential wall surface, said another housing surface being perpendicular to said second housing surface. 4. A heat exchanger arrangement in accordance with claim 3 , wherein: said first housing part comprises another partition extending in the direction of the longitudinal axis to provide two partitions; and said two partitions are arranged at spaced locations from one another in the circumferential direction to define a first circumferential flow space area that is in connection with said medium inlet and a second circumferential flow space area that is in connection with said heat carrier medium outlet. 5. A heat exchanger arrangement in accordance with claim 1 , wherein said first housing part comprises a guide projection on a side of said inner bottom wall facing said bottom flow space. 6. A heat exchanger arrangement in accordance with claim 4 , wherein: said first housing part comprises a guide projection on a side of said inner bottom wall facing said bottom flow space; and said guide projection extends in a direction from said first circumferential flow space area to said second circumferential flow space area. 7. A heat exchanger arrangement in accordance with claim 1 , wherein said second housing part comprises a second housing part guide projection on a side of said outer bottom wall facing said bottom flow space. 8. A heat exchanger arrangement in accordance with claim 1 , wherein said second housing part comprises a guide rib, which extends into said circumferential flow space. 9. A heat exchanger arrangement in accordance with claim 8 , wherein said guide rib, which extends into said circumferential flow space, touches at least one of said outer circumferential wall and said inner circumferential wall. 10. A heat exchanger arrangement in accordance with claim 8 , wherein said second housing part comprises additional guide ribs to provide a plurality of guide ribs which extend from an outer edge area into said circumferential flow space. 11. A heat exchanger arrangement in accordance with claim 1 , wherein at least one of said first housing part is made of metallic material and said second housing part is made of plastic material. 12. A vehicle heater, comprising: a burner area; and a heat exchanger arrangement for transferring heat of combustion provided in the burner area to a heat carrier medium, the heat exchanger arrangement comprising: a first housing part comprising an outer circumferential wall, an inner circumferential wall and an inner bottom wall adjoining said inner circumferential wall in an inner circumferential wall end area, said outer circumferential wall, said inner circumferential wall and said inner bottom wall being integrally connected with one another to define a single, one-piece housing wall structure; and a second housing part comprising an outer bottom wall connected to said outer circumferential wall in an outer circumferential wall end area, said first housing part and said second housing part defining a pot-shaped heat exchanger housing that is elongated in a direction of a longitudinal axis and with a circumferential wall area and with a bottom wall area in an end area of said circumferential wall area and with a heat carrier medium flow space for heat carrier medium formed in said heat exchanger housing with a circumferential flow space and with a bottom flow space that is in connection with said circumferential flow space, said heat carrier medium flow space being enclosed by said first housing part and said second housing part, said inner circumferential wall and said outer circumferential wall defining at least a portion of said circumferential flow space, said outer bottom wall and said inner bottom wall defining at least a portion of said bottom flow space, said second housing part further comprising an axially extending connection area in an outer edge area of said outer bottom wall, said second housing part being connected to said first housing part via a fluid-tight press fit connection, said axially extending connection area engaging said outer circumferential wall, wherein said axially extending connection area and said outer circumferential wall define at least a portion of said fluid-tight press fit connection, wherein said outer circumferential wall comprises an outer circumferential wall surface, said outer circumferential wall surface extending in a radial direction with respect to a longitudinal axis of said first housing, said outer bottom wall comprising an inner bottom wall surface, said inner bottom wall surface extending radially with respect to said longitudinal axis of said first housing, said inner bottom wall surface being