Ejector

The invention claimed is: 1. An ejector comprising: a nozzle that ejects a fluid, wherein the nozzle includes therein a fluid passage having a circular shape in cross section, the fluid passage includes: a throat portion that is smallest in cross-sectional area of the fluid passage, wherein the fluid is depressurized downstream thereof; a divergent portion that becomes larger in cross-sectional area toward a downstream end from the throat portion in a flow direction of the fluid; and an ejection port that is provided at the downstream end of the divergent portion and is a port through which the fluid in the divergent portion is ejected, a passage wall surface of the divergent portion includes a recess portion that is recessed from within outward in a radial direction of the passage wall surface, a first uninterrupted surface extending between the throat portion and the recess portion, and a second uninterrupted surface extending from the recess portion to the election port, the recess portion is located adjacent to the ejection port, the recess portion extends continuously in a circumferential direction of the passage wall surface to have an annular shape, a shape of the recess portion in cross section perpendicular to the circumferential direction is a V shape, and the V shape has a larger dimension in width along the flow direction than depth. 2. The ejector according to claim 1 , wherein the recess portion is provided at a position from 5 to 10% of a length of the divergent portion in its flow direction away from the ejection port toward the throat portion of the fluid. 3. The ejector according to claim 1 , wherein the recess portion has a sectional shape perpendicular to the circumferential direction such that an angle of a recess corner part positioned at a bottom part of the recess portion is smaller than an angle of a protrusion corner part positioned at a boundary between the passage wall surface and the recess portion. 4. The ejector according to claim 1 , wherein the first uninterrupted surface of the divergent portion includes a conical surface and the recess portion is recessed from the conical surface in the radial direction. 5. An ejector comprising: a nozzle that ejects a fluid, wherein the nozzle includes therein a fluid passage having a circular shape in cross section, the fluid passage includes: a throat portion that is smallest in cross-sectional area of the fluid passage, wherein the fluid is depressurized downstream thereof; a divergent portion that becomes larger in cross-sectional area toward a downstream end from the throat portion in a flow direction of the fluid; and an ejection port that is provided at the downstream end of the divergent portion and is a port through which the fluid in the divergent portion is ejected, a passage wall surface of the divergent portion includes a recess portion that is recessed from within outward in a radial direction of the passage wall surface, a first uninterrupted surface extending between the throat portion and the recess portion, and a second uninterrupted surface extending from the recess portion to the ejection port, the recess portion is located adjacent to the ejection port, the recess portion extends continuously in a circumferential direction of the passage wall surface to have an annular shape, and a shape of the recess portion in cross section perpendicular to the circumferential direction is a V shape. 6. The ejector according to claim 5 , wherein the recess portion is provided at a position from 5 to 10% of a length of the divergent portion in its flow direction away from the ejection port toward the throat portion of the fluid. 7. The ejector according to claim 5 , wherein the recess portion has a sectional shape perpendicular to the circumferential direction such that an angle of a recess corner part positioned at a bottom part of the recess portion is smaller than an angle of a protrusion corner part positioned at a boundary between the passage wall surface and the recess portion. 8. The ejector according to claim 5 , wherein the first uninterrupted surface of the divergent portion includes a conical surface and the recess portion is recessed from the conical surface in the radial direction.