Blast furnace apparatus and operation method for blast furnace

The invention claimed is: 1. An operation method for a blast furnace apparatus, the blast furnace apparatus comprising: a rotating chute configured to charge a raw material into the blast furnace from a blast furnace top; a plurality of tuyeres configured to blow hot blast and pulverized coal into the blast furnace; a profile measurement device configured to measure surface profiles of a burden of the raw material charged into the blast furnace through the rotating chute; and a blowing amount controller configured to control a blowing amount of at least one of the hot blast or the pulverized coal in each of the plurality of tuyeres, wherein the profile measurement device comprises: a radio wave distance meter installed on the blast furnace top and configured to measure a distance to a surface of the burden in the blast furnace; an arithmetic unit configured to derive the surface profiles of the burden on a basis of distance data for the entire blast furnace related to distances to the surface of the burden obtained by scanning a detection wave of the radio wave distance meter in the blast furnace in a circumferential direction; and the arithmetic unit configured to calculate a descent speed of the burden over an entire circumference of the blast furnace on a basis of the surface profiles of the burden, and the operation method comprises: deriving, by the profile measurement device, the surface profiles of the burden in the blast furnace in the circumferential direction; in a case where variation in the surface profiles derived is beyond a predetermined range, calculating descent speeds of the burden on a basis of the surface profiles over an entire circumference of the blast furnace, determining a distribution of the descent speeds in the circumferential direction of the blast furnace, finding a circumferential position indicative of a descent speed having a deviation of 10% or more from an average descent speed in the circumferential direction, selecting, on a basis of the distribution of the descent speeds in the circumferential direction of the blast furnace, at least one of the plurality of tuyeres corresponding to the circumferential position and adjusting the blowing amount of at least one of hot blast or pulverized coal coming therefrom for suppressing the deviation. 2. The operation method for a blast furnace according to claim 1 , further comprising, in a case where variation in the surface profiles derived is within the predetermined range, measuring temperatures at the blast furnace top over the entire circumference of the blast furnace, selecting, on a basis of a distribution of the temperatures in the blast furnace in the circumferential direction, at least one of the plurality of tuyeres, and adjusting the blowing amount of at least one of the hot blast or pulverized coal coming therefrom for eliminating the distribution of the temperatures. 3. An operation method for a blast furnace apparatus, the blast furnace apparatus comprising: a rotating chute configured to charge a raw material into the blast furnace from a blast furnace top; a plurality of tuyeres configured to blow hot blast and pulverized coal into the blast furnace; a profile measurement device configured to measure surface profiles of a burden of the raw material charged into the blast furnace through the rotating chute; and a blowing amount controller configured to control a blowing amount of at least one of the hot blast or the pulverized coal in each of the plurality of tuyeres, wherein the profile measurement device comprises: a radio wave distance meter installed on the blast furnace top and configured to measure a distance to a surface of the burden in the blast furnace; a first arithmetic unit configured to derive the surface profiles of the burden on a basis of distance data for the entire blast furnace related to distances to the surface of the burden obtained by scanning a detection wave of the radio wave distance meter in the blast furnace in a circumferential direction; and a second arithmetic unit configured to calculate a descent speed of the burden over an entire circumference of the blast furnace on a basis of the surface profiles of the burden, and the operation method comprises: deriving, by the profile measurement device, the surface profiles of the burden in the blast furnace in the circumferential direction; in a case where variation in the surface profiles derived is beyond a predetermined range, calculating descent speeds of the burden on a basis of the surface profiles over an entire circumference of the blast furnace, determining a distribution of the descent speeds in the circumferential direction of the blast furnace, finding a circumferential position indicative of a descent speed having a deviation of 10% or more from an average descent speed in the circumferential direction, selecting, on a basis of the distribution of the descent speeds in the circumferential direction of the blast furnace, at least one of the plurality of tuyeres corresponding to the circumferential position and adjusting the blowing amount of at least one of hot blast or pulverized coal coming therefrom for suppressing the deviation. 4. The operation method for a blast furnace according to claim 3 , further comprising, in a case where variation in the surface profiles derived is within the predetermined range, measuring temperatures at the blast furnace top over the entire circumference of the blast furnace, selecting, on a basis of a distribution of the temperatures in the blast furnace in the circumferential direction, at least one of the plurality of tuyeres, and adjusting the blowing amount of at least one of the hot blast or pulverized coal coming therefrom for eliminating the distribution of the temperatures.