Fluid flow machine using a gaseous medium for temperature control of a dry gas seal

What is claimed is: 1. A fluid flow machine, comprising: a housing having defined therein at least one of a recess and a bore for a gaseous medium; a rotor mounted in the housing; and a dry gas seal for sealing the rotor relative to the housing directly adjacent to the rotor and the housing, a single surface of the dry gas seal being in direct contact with the housing and a second surface of the dry gas seal that is perpendicular to the single surface being in direct contact with the rotor, wherein the gaseous medium provides temperature control for the dry gas seal and is directly conducted into a gas space formed between the housing and the dry gas seal via the at least one of the recess and the bore, wherein the gas space formed between the housing and the dry gas seal is bounded on two perpendicular sides by the housing and on two perpendicular sides by the dry gas seal. 2. The fluid flow machine according to claim 1 , wherein the at least one of the recess and the bore is arranged at an angle deviating from 90° to a circumferential direction of a boundary wall of the gas space on a housing side in a region of the at least one of the recess and the bore. 3. The fluid flow machine according to claim 2 , wherein the angle is smaller than 80° in the region of the at least one of the recess and the bore. 4. The fluid flow machine according to claim 3 , wherein the angle is smaller than 80° and greater than 20°. 5. The fluid flow machine according to claim 4 , wherein the angle is smaller than 70° and greater than 30°. 6. The fluid flow machine according to claim 2 , wherein the at least one of the recess and the bore is arranged substantially tangentially to one of a boundary wall of the rotor and a boundary wall of the dry gas seal radially bounding the gas space. 7. The fluid flow machine according to claim 1 , wherein dry gas seal is L-shaped in cross section. 8. A fluid flow machine, comprising: a housing defining at least one of a recess and a bore for a gaseous medium, wherein the at least one of the recess and the bore has a shoulder at a first end and opens to a gas space at a second end; a guide tube for the gaseous medium arranged in the at least one of the recess and the bore, wherein the guide tube comprises a collar configured to seat in the shoulder and extends to at least the second end of the one of the recess and the bore; a rotor mounted in the housing; and a dry gas seal for sealing the rotor relative to the housing, wherein the gaseous medium is conducted into the gas space; wherein the gas space is bounded by the housing and the dry gas seal, the dry gas seal in contact with the housing and the rotor via perpendicular walls, and the gas space configured to temperature control the dry gas seal. 9. The fluid flow machine according to claim 8 , wherein a free space is formed between the guide tube and a wall of the at least one of the recess and the bore that receives the guide tube. 10. The fluid flow machine according to claim 9 , wherein the free space is coupled to the gas space via a second bore defined by the housing. 11. The fluid flow machine according to claim 9 , wherein the free space is coupled to an interior space of the guide tube via a bore introduced in the guide tube. 12. The fluid flow machine according to claim 8 , wherein the gaseous medium is directly conducted into the gas space formed between the housing and the dry gas seal via the guide tube. 13. The fluid flow machine according to claim 12 , wherein the guide tube terminates flush with a boundary wall of the gas space on a housing side. 14. The fluid flow machine according to claim 13 , wherein a section of the guide tube facing the gas space is configured to receive a nozzle. 15. The fluid flow machine according to claim 12 , wherein the guide tube projects into the gas space relative to the boundary wall of the gas space on a housing side. 16. The fluid flow machine according to claim 15 , wherein a section of the guide tube facing the gas space is configured to receive a nozzle. 17. A fluid flow machine, comprising: a housing defining at least one of a recess and a bore for a gaseous medium; a guide tube for the gaseous medium arranged in the at least one of the recess and the bore; a rotor mounted in the housing; and a dry gas seal for sealing the rotor relative to the housing, wherein the gaseous medium is conducted into a gas space formed between the housing and the dry gas seal and temperature controls the dry gas seal, wherein the gaseous medium is directly conducted into the gas space formed between the housing and the dry gas seal via the guide tube, wherein the guide tube projects into the gas space relative to the boundary wall of the gas space on a housing side wherein a section of the guide tube projecting into the gas space is bent over in circumferential direction.