Adsorption desulfurization process for hydrocarbons and a reaction apparatus therefor

The invention claimed is: 1. An adsorption desulfurization reaction apparatus, comprising: a fluidized bed reactor, a catalyst regenerator, a catalyst reducer, a catalyst fine powder catcher, and a fine powder classificator, the fluidized bed comprises a top-sealed reactor main body, at least one airflow particle sorter, and at least one stream inlet, wherein the reactor main body comprises a settling zone and a reaction zone, wherein the settling zone is disposed above the reaction zone and the at least one stream inlet is located at the bottom of the reaction zone, wherein the at least one airflow particle sorter comprises a top-sealed sorter main body, a discharge port, an outtake tube, and at least one directing-intake port, wherein the sorter main body comprises a straight tube zone and a cone zone, wherein the straight tube zone is disposed above the cone zone and is connected to a conical bottom of the cone zone, and the discharge port is located at the bottom of the cone zone, wherein the at least one directing-intake port is installed in an upper part of the straight tube zone in a tangential direction of the straight tube zone, and is in communication with an inner space of the sorter main body, wherein the outtake tube is hermetically inserted into the top of the sorter main body and extends downwardly to a lower part of the straight tube zone, and the outtake tube has a sealed bottom end, wherein the lower part of the outtake tube is provided with at least one directing-outtake port installed in a tangential direction of the outtake tube, connecting the outtake tube with the inner space of the sorter main body, wherein the sorter main body is located in the settling zone, the at least one directing-intake port is communicated with the settling zone, and the discharge port downward extends into the reaction zone, and the outtake tube hermetically passes through the fluidized bed reactor, wherein the catalyst fine powder catcher is provided outside of the reactor main body, the catalyst fine powder catcher comprises a feed port that communicates with the outtake tube of the at least one airflow particle sorter, and a discharge tube in communication with a feed port of the fine powder classificator, wherein the fine powder classificator comprises a discharge tube for receipt of catalyst particles sorted out by the fine powder classificator, hermetically passing through a side wall of the reactor main body and extending into the reaction zone. 2. The adsorption desulfurization reaction apparatus of claim 1 , wherein, in the fluidized bed reactor, a ratio between a total cross-section area perpendicular to the airflow direction of the at least one directing-intake port of the at least one airflow particle sorter to a horizontal cross-section area of the settling zone is 0.01-0.4:1. 3. The adsorption desulfurization reaction apparatus of claim 2 , wherein said ratio is 0.05-0.3:1. 4. The adsorption desulfurization reaction apparatus of claim 1 , wherein, in the at least one airflow particle sorter, a ratio between a length of the outtake tube inside the sorter main body to a length of the straight tube zone is in a range of 0.6-1:1, 0.7-1:1, 0.8-1:1, 0.9-1:1, or 0.95-1:1. 5. The adsorption desulfurization reaction apparatus of claim 1 , wherein, in the at least one airflow particle sorter, the cone zone is in a shape of an inverse truncated cone. 6. The adsorption desulfurization reaction apparatus of claim 1 , wherein, in the at least one airflow particle sorter, a ratio between a height of the straight tube zone to a height of the cone zone is in a range of 0.4-1.5:1, 0.5-1:1, or 0.6-0.8:1. 7. The adsorption desulfurization reaction apparatus of claim 1 , wherein, in the at least one airflow particle sorter, a number of the at least one directing-intake port and a number of the at least one directing-outtake port are identical. 8. The adsorption desulfurization reaction apparatus of claim 1 , wherein, in the at least one airflow particle sorter, when a distance from a lower edge of the at least one directing-intake port to a bottom of the straight tube zone is H 1 and a distance from the lower edge of the at least one directing-outtake port to a bottom of the straight tube zone is H 2 , then a ratio of H 1 /H 2 is in a range of 1:0.1-0.8 or 1:0.2-0.6. 9. The adsorption desulfurization reaction apparatus of claim 1 , wherein, in the at least one airflow particle sorter, an upper edge of the at least one directing-intake port is aligned with a top of the straight tube zone. 10. The adsorption desulfurization reaction apparatus of claim 1 , wherein, in the at least one airflow particle sorter, a lower edge of the at least one directing-outtake port is aligned with a bottom of the outtake tube. 11. The adsorption desulfurization reaction apparatus of claim 1 , wherein, in the at least one airflow particle sorter, when a difference between a horizontal cross-section area of the straight tube zone and a horizontal cross-section area of the outtake tube is A 0 , a total cross-section area perpendicular to the airflow direction of the at least one directing-intake port is A 1 , and the total cross-section area perpendicular to the airflow direction of the at least one directing-outtake port is A 2 , then A 1 /A 0 is in a range of 0.01-0.8:1 or 0.02-0.6:1, and A 2 /A 0 is in a range of 0.01-0.5:1 or 0.015-0.4:1. 12. The adsorption desulfurization reaction apparatus of claim 1 , wherein, in the at least one airflow particle sorter, a ratio between the cross-section area perpendicular to the airflow direction of the outtake tube to a horizontal cross-section area of the straight tube zone is in a range of 0.01-0.7:1 or 0.04-0.6:1. 13. The adsorption desulfurization reaction apparatus of claim 1 , wherein the at least one airflow particle sorter has more than one directing-intake ports distributed circumferentially about the straight tube zone. 14. The adsorption desulfurization reaction apparatus of claim 1 , wherein the at least one airflow particle sorter comprises more than one directing-outtake ports distributed circumferentially about the outtake tube. 15. An adsorption desulfurization process comprising: providing an adsorption desulfurization reactor apparatus of claim 1 ; contacting a sulfur-containing hydrocarbon feedstock and an adsorption desulfurization catalyst in the reaction zone of the fluidized bed reactor to form a hydrocarbon-catalyst mixture, wherein at least a portion of sulfur element in the hydrocarbon feedstock is adsorbed by the adsorption desulfurization catalyst; and subjecting the hydrocarbon-catalyst mixture successively to separation in the settling zone, the at least one airflow particle sorter, the catalyst fine powder catcher, and the fine powder classificator to obtain a hydrocarbon product stream and a spent catalyst. 16. The adsorption desulfurization process of claim 15 , wherein the reaction zone has an atmosphere that contains hydrogen gas. 17. The adsorption desulfurization process of claim 16 , wherein a molar ratio of the hydrogen gas to the sulfur-containing hydrocarbon feedstock is in range of 0.1-2:1, 0.15-1.5:1, or 0.2-1:1. 18. The adsorption desulfurization process of claim 15 , wherein reaction conditions inside the fluidized bed include a temperature of 300-500° C., a gauge pressure of 5-50 atm, a weight hourly space velocity of the sulfur-containing hydrocarbon feedstock of 1-15 h- 1 , and a density of a catalyst dense bed of 100-700 kg/m 3 . 19. The adsorption desulfurization proces