Method of operating electric arc furnace

What is claimed is: 1. A method of operating an electric arc furnace, wherein the electric arc furnace comprises: (a) a furnace shell that includes a charging opening, a cylindrical circumferential wall portion and a furnace bottom portion, and a tapping hole and/or a slag door, (b) a furnace roof that has a plurality of electrodes provided so as to face downwards, and (c) a rotating apparatus that rotates the furnace shell around a vertical axis relative to the electrodes, in which a metal material charged into the furnace shell is melted by heat of arcs formed between the electrodes and the metal material, wherein the method comprises: charging the metal material into the furnace shell via the charging opening, and thereafter, rotating the furnace shell relative to the electrodes during melting of the metal material, and stopping the rotation when any one of the plurality of electrodes reaches a holding position that is previously set relative to the tapping hole or the slag door, and holding the furnace shell at the holding position, in the case where the holding position is set relative to the tapping hole, the holding position is set in such a position that an extension line of a line connecting a rotational center of the furnace shell to any one of the plurality of electrodes is positioned in a range within ±50° in a rotation direction of the furnace shell, centered at a line connecting the rotational center of the furnace shell to a center of the tapping hole, and in the case where the holding position is set relative to the slag door, the holding position is set in such a position that the extension line of the line connecting the rotational center of the furnace shell to any one of the plurality of electrodes one electrode is positioned in a range of an angle of less than 60° from an end of the slag door in the rotation direction of the furnace shell. 2. The method of operating an electric arc furnace according to claim 1 , wherein the electric arc furnace is an EBT furnace having the tapping hole, in which the furnace bottom portion has a protruding portion that partially protrudes outwards from an outer surface of the circumferential wall portion in a radial direction, and the tapping hole is configured by an opening that passes through the protruding portion in a vertical direction. 3. The method of operating an electric arc furnace according to claim 1 , wherein the electric arc furnace is a spout tapping electric arc furnace having the tapping hole, in which the tapping hole is configured by an opening that passes through the circumferential wall portion in an inward and outward direction, and the spout tapping electric arc furnace has a spout extending outwards from the tapping hole. 4. The method of operating an electric arc furnace according to claim 1 , wherein the rotating apparatus makes the furnace shell rotate in a circumferential direction while the electrodes are fixed with respect to a rotational direction. 5. The method of operating an electric arc furnace according to claim 1 , wherein, during said rotating, the furnace shell is made to rotate in a circumferential direction while the electrodes are fixed with respect to a rotational direction. 6. The method of operating an electric arc furnace according to claim 1 , wherein said rotating is performed after the electrode bores the scrap. 7. The method of operating an electric arc furnace according to claim 1 , wherein said charging is performed multiple times. 8. The method of operating an electric arc furnace according to claim 1 , wherein the electric arc furnace further comprises a burner provided on the furnace roof so as to face downwards in a position between the electrodes which are adjacent to each other in a circumferential direction, and wherein said rotating comprises rotating the furnace shell relative to the electrodes and the burner during melting of the metal material.