Packing for reaction tube, reaction tube, and reaction method using same

The invention claimed is: 1. A packing for a reaction tube, wherein the packing is to be placed near a reaction tube inlet side, and the packing together with a catalyst is to fill the reaction tube, wherein (i) a volume of the packing is continuously decreased from one end part at a side where a raw material fluid is introduced or midway toward another end part and the packing comprises an opening part to allow passage of fluids, or (ii) a volume of the packing is step-by-step decreased from one end part at a side where a raw material fluid is introduced or midway toward another end part and the packing comprises an opening part to allow passage of fluids, the opening part being on a boundary part between steps, and wherein a ratio of the opening part decreases from the one end part with a large volume to the other end part with a small volume. 2. The packing for a reaction tube according to claim 1 , wherein a figure of the packing is a pyramid, a truncated pyramid, a half ellipsoid, or a half spindle. 3. The packing for a reaction tube according to claim 2 , wherein the figure is a cone. 4. The packing for a reaction tube according to claim 1 , wherein the volume of the packing is step-by-step decreased, and the packing further comprises a plurality of circular tubes having different tube diameters, wherein the circular tubes are concentrically arranged in a step-by-step decreasing order of tube diameters from an outer periphery part to a center part. 5. A reaction tube comprising a structure therein, wherein (i) a volume of the structure is continuously decreased from one end part in an inlet side of the reaction tube into which a raw material fluid is introduced or midway toward another end part in an outlet side of the reaction tube and the structure comprises an opening part to allow passage of fluids, or (ii) a volume of the structure is step-by-step decreased from one end part in an inlet side of the reaction tube into which a raw material fluid is introduced or midway toward another end part in an outlet side of the reaction tube and the structure comprises an opening part to allow the passage of fluids, the opening part being on a boundary part between steps, wherein the structure is near the inlet side of the reaction tube, wherein a catalyst is filled between the structure and the reaction tube, and wherein a ratio of the opening part decreases from the one end part of the structure with a large volume to the other end part of the structure with a small volume. 6. The reaction tube according to claim 5 , wherein a maximum cross-sectional area of the structure is 10% or more and 100% or less of a cross-section area of the reaction tube, a minimum cross-sectional area of the structure is 0% or more and 50% or less of the cross-section area of the reaction tube, and a length of the structure is 10% or more and 90% or less of a length of a catalyst layer. 7. The reaction tube according to claim 5 , wherein a figure of the structure is a pyramid, a truncated pyramid, a half ellipsoid, or a half spindle. 8. The reaction tube according to claim 7 , wherein the figure of the structure is a cone. 9. The reaction tube according to claim 5 , wherein the volume of the structure is step-by-step decreased, and the structure comprises a plurality of circular tubes having different tube diameters, the circular tubes being concentrically arranged in a step-by-step decreasing order of tube diameters from an outer periphery part to a center part. 10. A heat exchange type reactor, comprising the reaction tube according to claim 5 . 11. The packing for a reaction tube according to claim 1 , wherein the volume of the packing is step-by-step decreased, and the packing includes at least two steps having different volumes that are coaxial and free from overlap. 12. The reaction tube according to claim 5 , wherein the volume of the structure is step-by-step decreased, and the structure includes at least two steps having different volumes that are coaxial and free from overlap.