Gas atomization of molten steel

1 - 24 . (canceled) 25 . A process for the production of steel powders, the process comprising the steps of: providing molten iron from a blast furnace; refining the molten iron in a converter to form molten steel including up to 600 ppm C, up to 120 ppm S, up to 125 ppm P, up to 50 ppm N and up to 1200 ppm O; pouring the molten steel into a plurality of induction furnaces; adding, in each of the plurality of induction furnaces, at least one ferroalloy to adjust the steel composition to the one of a desired composition of a steel powder; pouring the molten steel at the desired composition of each induction furnace in a dedicated reservoir connected to at least one gas atomizer; and feeding the at least one gas atomizer of each reservoir in molten steel from each reservoir under pressure and gas atomizing the molten steel to form the steel powder at the desired composition. 26 . The process as recited in claim 25 wherein the molten steel includes up to 250 ppm C and/or up to 90 ppm P and/or up to 25 ppm N. 27 . The process as recited in claim 25 wherein, after refining the molten iron in the converter to form molten steel, the molten steel is further refined in a ladle metallurgy furnace to obtain a steel composition including up to 30 ppm O. 28 . The process as recited in claim 27 wherein the temperature in the ladle metallurgy furnace is maintained between 1520 and 1700° C. 29 . The process as recited in claim 27 wherein the refined molten steel is directly poured from the ladle metallurgy furnace to the plurality of induction furnaces. 30 . The process as recited in claim 27 wherein the refined molten steel is first poured in a tundish and then poured from the tundish to the plurality of induction furnaces. 31 . The process as recited in claim 30 wherein the tundish is capable of simultaneously pouring the refined molten steel in all the induction furnaces. 32 . The process as recited in claim 30 wherein the temperature in the tundish is maintained between 1520 and 1620° C. 33 . The process as recited in claim 30 wherein the tundish is purged with Argon to control the oxygen content in the tundish. 34 . The process as recited in claim 27 wherein, before or after refinement in the ladle metallurgy furnace, the molten steel is further treated in a vacuum tank degasser or a Vacuum Oxygen Decarburization vessel. 35 . The process as recited in claim 25 wherein the temperature in the plurality of induction furnaces is maintained between 1500 and 1700° C. 36 . The process as recited in claim 25 wherein the temperature in at least one of the plurality of induction furnaces is maintained between 1620 and 1650° C. 37 . The process as recited in claim 25 wherein the ferroalloy added in the induction furnaces is not pre-melted. 38 . The process as recited in claim 25 wherein scraps or Direct Reduced Iron or or silicide alloys or nitride alloys or pure elements or a mixture thereof are added in at least one of the plurality of induction furnaces. 39 . The process as recited in claim 25 wherein the induction furnaces are not atmospherically controlled. 40 . The process as recited in claim 25 wherein at least one of the plurality of induction furnaces is a vacuum induction furnace. 41 . The process as recited in claim 25 wherein the atmosphere in each of the dedicated reservoirs is Argon, Nitrogen or a mixture thereof. 42 . The process as recited in claim 25 wherein the temperature in each of the dedicated reservoirs is maintained between 1300 and 1750° C. 43 . The process as recited in claim 25 wherein the temperature in each of the dedicated reservoirs is at least 150° C. above the liquidus temperature of the molten steel. 44 . An installation for the production of steel powders comprising: a blast furnace; a converter capable of refining molten iron and form molten steel including up to 600 ppm C, up to 120 ppm S, up to 125 ppm P, up to 50 ppm N and up to 1200 ppm O; a plurality of induction furnaces; a ferroalloy feeding unit capable of feeding the plurality of induction furnaces in at least one ferroalloy; and a dedicated reservoir to each induction furnace, each dedicated reservoir being connected to at least one gas atomizer and capable of being pressurized. 45 . The installation as recited in claim 44 further comprising a ladle metallurgy furnace capable of refining the molten steel to obtain a steel composition including up to 30 ppm O. 46 . The installation as recited in claim 44 further comprising a tundish capable of simultaneously pouring the molten steel in all the induction furnaces. 47 . The installation as recited in claim 44 wherein the tundish is positioned above the plurality of induction furnaces. 48 . The installation as recited in claim 44 further comprising a vacuum tank degasser (VTD) or a Vacuum Oxygen Decarburization (VOD) vessel.