Method of detecting slag in molten steel flow

1 . A method of detecting slag in a molten steel flow, comprising: an image capturing step of sequentially capturing a molten steel flow which is directed from a converter toward a ladle and includes molten steel and slag to acquire a plurality of captured images of the molten steel flow; a histogram creation step of creating a histogram, in which a density parameter corresponding to a density of each pixel constituting each captured image is shown on a horizontal axis and the number of pixels that is a total number of pixels each having the density parameter is shown on a vertical axis, for each captured image; a maximum peak point detection step of detecting a maximum peak point, in which the number of pixels is an absolute maximum value, for each histogram; and a maximum peak point type determination step of determining to which of the slag or the molten steel the maximum peak point of each histogram corresponds, wherein when a maximum peak point P n of a histogram of an nth (n≥2) captured image is determined in the maximum peak point type determination step, in a case where a variation ΔT of a density parameter T n at the maximum peak point P n with respect to a density parameter T n-1 at a maximum peak point P n-1 in a histogram of an n−1th captured image is equal to or more than a predetermined value, it is determined that the maximum peak point P n corresponds to the slag, and in a case where a variation ΔT is less than the predetermined value, if a variation ΔT′ of the density parameter T n with respect to a density parameter T j at a maximum peak point P j in a histogram of a jth (j≤n−1) captured image, in which a maximum peak point is determined as the molten steel, is equal to or more than the predetermined value, it is determined that the maximum peak point P n corresponds to the slag, and if a variation ΔT′ is less than the predetermined value, it is determined that the maximum peak point P n corresponds to the molten steel. 2 . The method of detecting slag in a molten steel flow according to claim 1 , wherein the maximum peak point type determination step includes, as the maximum peak point P j , using a maximum peak point in a histogram of a captured image which is acquired before the nth captured image and is closest in acquisition order to the nth captured image, and in which a maximum peak point is determined as the molten steel. 3 . The method of detecting slag in a molten steel flow according to claim 1 , further comprising: a first determination step of, in a case where it is determined that the maximum peak point corresponds to the slag in the maximum peak point type determination step, determining that a pixel having a density parameter less than a first threshold value determined based on the maximum peak point corresponds to the molten steel and a pixel having a density parameter equal to or more than the first threshold value corresponds to the slag; and a second determination step of, in a case where it is determined that the maximum peak point corresponds to the molten steel in the maximum peak point type determination step, determining that a pixel having a density parameter equal to or less than a second threshold value determined based on the maximum peak point corresponds to the molten steel and a pixel having a density parameter more than the second threshold value corresponds to the slag. 4 . The method of detecting slag in a molten steel flow according to claim 3 , wherein the first threshold value is represented by a first straight line, which passes through the maximum peak point and has a positive inclination, in the histogram, wherein the second threshold value is represented by a second straight line, which passes through the maximum peak point and has a negative inclination, in the histogram, and wherein an absolute value of an inclination of the second straight line is larger than an absolute value of an inclination of the first straight line. 5 . The method of detecting slag in a molten steel flow according to claim 4 , wherein the first straight line is a straight line which passes through a peak point having a maximum density parameter from among points having the number of pixels less than a threshold value of the number of pixels and a density parameter smaller by a predetermined value or more with respect to the density parameter at the maximum peak point, and the maximum peak point, and wherein the absolute value of the inclination of the second straight line is 1.5 to 2.5 times the absolute value of the inclination of the first straight line. 6 . The method of detecting slag in a molten steel flow according to claim 2 , further comprising: a first determination step of, in a case where it is determined that the maximum peak point corresponds to the slag in the maximum peak point type determination step, determining that a pixel having a density parameter less than a first threshold value determined based on the maximum peak point corresponds to the molten steel and a pixel having a density parameter equal to or more than the first threshold value corresponds to the slag; and a second determination step of, in a case where it is determined that the maximum peak point corresponds to the molten steel in the maximum peak point type determination step, determining that a pixel having a density parameter equal to or less than a second threshold value determined based on the maximum peak point corresponds to the molten steel and a pixel having a density parameter more than the second threshold value corresponds to the slag.