Method for producing chromium-containing molten iron

The invention claimed is: 1. A method for producing chromium-containing molten iron, the method comprising: charging, into an electric furnace, a charged material containing a metal raw material of at least one of ferrochrome containing metallic Si or ferrosilicon containing metallic Si, and unreduced slag containing Cr oxide generated by oxidative refining, as a mixture in which a mass ratio of an amount of the metallic Si, which is an amount of metallic silicon contained in the metal raw material, to an amount of the Cr oxide is from 0.30 to 0.40, and a C concentration is in a range of from 2.0% by mass to a saturation concentration; and after the charging, producing molten iron containing Cr obtained due to the Cr oxide undergoing reduction processing, such that, when the charged material is heated and melted in the electric furnace, an attainment temperature is set to from 1400° C. to 1700° C., a maximum average heating rate in any 80° C. interval from 1300° C. to the attainment temperature is set to 15.0° C./min or less, and a minimum average heating rate in any 80° C. interval from 1300° C. to the attainment temperature is set to 3.0° C./min or greater. 2. The method for producing chromium-containing molten iron according to claim 1 , wherein: the charged material includes a carbon source, a silicon source, a CaO source, and an Al 2 O 3 source, and, among the charged material, material other than the metal raw material is an auxiliary raw material; a content of the auxiliary raw material having a sieve mesh size of over 25 mm is 5% by mass or greater and 30% by mass or less with respect to the entire charged material, and a content of the auxiliary raw material having a sieve mesh size of under 3.15 mm is 3.0% by mass or greater with respect to the entire charged material; and the charged material is charged into the electric furnace such that the C concentration and an Si concentration in the molten iron after the reduction processing satisfy conditions of the following formula (1), and such that a relationship between a CaO concentration, an SiO 2 concentration and an Al 2 O 3 concentration in the slag after the reduction processing satisfies conditions of the following formula (2): [C]≥−29.4+0.015×( T+ 273)−0.003×( T+ 273)×log [Si]  (1) 0.04≤(CaO)/{(SiO 2 )×(Al 2 O 3 )}≤0.20  (2) wherein, [C] and [Si] respectively represent the C concentration in % by mass and the Si concentration in % by mass, in the molten iron after the reduction processing, (CaO), (SiO 2 ) and (Al 2 O 3 ) respectively represent the CaO concentration in % by mass, the SiO 2 concentration in % by mass, and the Al 2 O 3 concentration in % by mass, in the slag after the reduction processing, and T represents the attainment temperature (° C.). 3. The method for producing chromium-containing molten iron according to claim 2 , wherein a fluorine concentration, in terms of CaF 2 equivalent, in the slag after the reduction processing is 0.5% by mass or less, and the Al 2 O 3 concentration is 5.0% by mass or greater and 30.0% by mass or less. 4. The method for producing chromium-containing molten iron according to claim 3 , wherein 0.12 or more stirring gas blowing plugs per 1 m 2 of molten metal surface area are arranged at a furnace bottom of the electric furnace, and, when a distance between centers of adjacent stirring gas blowing plugs is designated as L, and a molten metal depth from the furnace bottom to the molten metal surface is designated as H, L/H is 0.50 or greater. 5. The method for producing chromium-containing molten iron according to claim 3 , wherein: the electric furnace comprises three electrodes; and viewing the electric furnace in a planar view from a central axis direction, a furnace center is arranged at a center of gravity of a triangle having respective centers of the three electrodes as vertices, and, viewing the electric furnace in a planar view from the central axis direction and assuming band regions each having a virtual line extending from the furnace center through a center of a respective one of the three electrodes to a furnace wall as a center line and having a diameter of the electrode as a width, stirring gas blowing plugs are positioned at a furnace bottom region excluding the band regions. 6. The method for producing chromium-containing molten iron according to claim 3 , wherein a stirring power density during operation of the electric furnace is 0.01 kW/ton or greater and 1.0 kW/ton or less. 7. The method for producing chromium-containing molten iron according to claim 3 , wherein the charged material that is charged into the electric furnace is melted such that a maximum attainment temperature for a surface temperature of a refractory furnace wall of the electric furnace in one charge is 1000° C. or higher and 1800° C. or lower, and such that, when the surface temperature of the refractory furnace wall is in a range of 1000° C. or higher and 1800° C. or lower, a heat flux from a surface of the refractory furnace wall to a furnace main body interior is 150 Mcal/m 2 /hr or less. 8. The method for producing chromium-containing molten iron according to claim 2 , wherein 0.12 or more stirring gas blowing plugs per 1 m 2 of molten metal surface area are arranged at a furnace bottom of the electric furnace, and, when a distance between centers of adjacent stirring gas blowing plugs is designated as L, and a molten metal depth from the furnace bottom to the molten metal surface is designated as H, L/H is 0.50 or greater. 9. The method for producing chromium-containing molten iron according to claim 2 , wherein: the electric furnace comprises three electrodes; and viewing the electric furnace in a planar view from a central axis direction, a furnace center is arranged at a center of gravity of a triangle having respective centers of the three electrodes as vertices, and, viewing the electric furnace in a planar view from the central axis direction and assuming band regions each having a virtual line extending from the furnace center through a center of a respective one of the three electrodes to a furnace wall as a center line and having a diameter of the electrode as a width, stirring gas blowing plugs are positioned at a furnace bottom region excluding the band regions. 10. The method for producing chromium-containing molten iron according to claim 2 , wherein a stirring power density during operation of the electric furnace is 0.01 kW/ton or greater and 1.0 kW/ton or less. 11. The method for producing chromium-containing molten iron according to claim 2 , wherein the charged material that is charged into the electric furnace is melted such that a maximum attainment temperature for a surface temperature of a refractory furnace wall of the electric furnace in one charge is 1000° C. or higher and 1800° C. or lower, and such that, when the surface temperature of the refractory furnace wall is in a range of 1000° C. or higher and 1800° C. or lower, a heat flux from a surface of the refractory furnace wall to a furnace main body interior is 150 Mcal/m 2 /hr or less. 12. The method for producing chromium-containing molten iron according to claim 1 , wherein 0.12 or more stirring gas blowing plugs per 1 m 2 of molten metal surface area are arranged at a furnace bottom of the electric furnace, and, when a distance between centers of adjacent stirring gas blowing plugs is designated as L, and a molten metal depth from the furnace bottom to the molten metal surface is designated as H, L/H is 0.50 or greater. 13. The method for producing chromium-containing molten iron according to claim 12 , wherein: the electric furnace comprises three electrodes;