Adsorber

What is claimed is: 1. An adsorber comprising: a heat medium tube, through which heat medium flows; a metal powder particle sinter that is joined to an outer surface of the heat medium tube, wherein the metal powder particle sinter is porous and includes joined metal powder particles, which are joined together; and an adsorbent that is held by the metal powder particle sinter, wherein: a groove is formed in the outer surface of the heat medium tube, and a groove is formed in an inner surface of the heat medium tube, wherein the groove in the outer surface of the heat medium tube holds a corresponding portion of the metal powder particle sinter in an inside of the groove in the outer surface, and the joined metal powder particles of the corresponding portion of the metal powder particle sinter, which are other than the adsorbent, are joined to a recessed surface part of the groove in the outer surface. 2. The adsorber according to claim 1 , wherein the groove of the outer surface and the groove of the inner surface are spiral grooves, respectively, which extend in a direction that crosses an axial direction of the heat medium tube. 3. The adsorber according to claim 2 , wherein the groove of the inner surface satisfies a relationship of hi/di>0.058 where hi denotes a depth of the groove, and di denotes an inner diameter of the heat medium tube. 4. The adsorber according to claim 3 , wherein the groove of the inner surface satisfies a relationship of hi/di>0.070. 5. The adsorber according to claim 4 , wherein the groove of the inner surface satisfies a relationship of hi/di≥0.099. 6. The adsorber according to claim 2 , wherein the groove of the inner surface satisfies a relationship of hi/di<0.250, where hi denotes a depth of the groove, and di denotes an inner diameter of the heat medium tube. 7. An adsorber comprising: a heat medium tube, through which heat medium flows; a metal powder particle sinter that is joined to an outer surface of the heat medium tube, wherein the metal powder particle sinter is porous and includes joined metal powder particles, which are joined together; and an adsorbent that is held by the metal powder particle sinter, wherein: a plurality of grooves are formed in the outer surface of the heat medium tube and respectively extend in a direction that crosses an axial direction of the heat medium tube, and a plurality of grooves are formed in an inner surface of the heat medium tube and respectively extend in the direction that crosses the axial direction of the heat medium tube, wherein each of the plurality of grooves in the outer surface of the heat medium tube holds a corresponding portion of the metal powder particle sinter in an inside of the groove in the outer surface, and the joined metal powder particles of the corresponding portion of the metal powder particle sinter, which are other than the adsorbent, are joined to a recessed surface part of each of the plurality of grooves in the outer surface. 8. The adsorber according to claim 7 , wherein the plurality of grooves of the outer surface and the plurality of grooves of the inner surface are spiral grooves, respectively, which extend in the direction that crosses the axial direction of the heat medium tube. 9. The adsorber according to claim 8 , wherein each of the plurality of grooves of the inner surface satisfies a relationship of hi/di>0.058 where hi denotes a depth of the groove, and di denotes an inner diameter of the heat medium tube. 10. The adsorber according to claim 9 , wherein each of the plurality of grooves of the inner surface satisfies a relationship of hi/di>0.070. 11. The adsorber according to claim 10 , wherein each of the plurality of grooves of the inner surface satisfies a relationship of hi/di≥0.099. 12. The adsorber according to claim 8 , wherein each of the plurality of grooves of the inner surface satisfies a relationship of hi/di<0.250, where hi denotes a depth of the groove, and di denotes an inner diameter of the heat medium tube.