Method for hydrofining of middle distillates of Fischer-Tropsch synthetic full-range distillates

The invention claimed is: 1. A method for hydrofining of middle distillates of Fischer-Tropsch synthetic full-range distillates, the method comprising: 1) separating middle distillates of Fischer-Tropsch synthetic full-range distillates to yield light distillates, heavy distillates, and intermediate distillates; wherein a boiling range of the light distillates lies below 180° C.; a boiling range of the intermediate distillates is between 180° C. and 360° C.; and a boiling range of the heavy distillates lies above 360° C.; 2) metering using a metering pump the light distillates, the heavy distillates, and the intermediate distillates; providing a hydrogenation reactor filled with a hydrofining catalyst and comprising a first feed inlet, a second feed inlet, and a third feed inlet from the top down, wherein each of the first feed inlet, the second feed inlet, and the third feed inlet communicates with a hydrogen inlet, a height of the hydrogenation reactor is represented by H, the first feed inlet is disposed on a top of the hydrogenation reactor, the second feed inlet is disposed on the hydrogenation reactor at a height between ⅓ H and ½ H as measured from the top of the hydrogenation reactor, and the third feed inlet is disposed below the second feed inlet at a height between ⅙ H and ⅓ H as measured from the second feed inlet; introducing the light distillates and hydrogen into the hydrogenation reactor via the first feed inlet, introducing the heavy distillates and hydrogen into the hydrogenation reactor via the second feed inlet, and introducing the intermediate distillates and hydrogen into the hydrogenation reactor via the third feed inlet; a reaction pressure in the hydrogenation reactor being between 4 MPa and 8 MPa, a ratio of the hydrogen to distillates being between 100:1 and 2000:1, a liquid hourly space velocity being between 0.1 h −1 and 5.0 h −1 , and a reaction temperature being between 300° C. and 420° C.; and 3) introducing products from 2) to a gas-liquid separator to yield hydrogen and liquid products, returning the hydrogen to the hydrogenation reactor via the first feed inlet, the second feed inlet, and the third feed inlet, respectively, to mix with the light distillates, the heavy distillates, and the intermediate distillates, and introducing the liquid products to a fractionating column for further separation. 2. The method of claim 1 , wherein in 2), the reaction pressure in the hydrogenation reactor is between 5 MPa and 7.5 MPa, the ratio of the hydrogen to distillates is between 700:1 and 1200:1, the liquid hourly space velocity is between 0.5 h −1 and 2.0 h −1 , and the reaction temperature is between 320° C. and 400° C. 3. The method of claim 1 , wherein in 1), a boiling range of the light distillates lies below 150° C.; a boiling range of the intermediate distillates is between 180° C. and 350° C.; and a boiling range of the heavy distillates is lies above 360° C. 4. The method of claim 2 , wherein in 1), a boiling range of the light distillates lies below 150° C.; a boiling range of the intermediate distillates is between 180° C. and 350° C.; and a boiling range of the heavy distillates lies above 360° C.