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                   loss through the mouth, converter wall, heat taken up by lance cooling water, bottom

                   blowing gas, heat of formation of solid slag precipitates such as C2S (2CaO.SiO2),

                   C3P (3CaO.P2O5), or undissolved fluxes, heat of dust, loss on ignition) and

                   additional heat that can be utilized for scrap melting,. The results were validated with

                   the plant data from Tata Steel. The analysis quantifies that as the amount Si in hot

                   metal is increased from 0.4% to 0.8%, the upper limit of scrap quantity increased
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                   from 26% to 30% with a predicted heat loss of approximately 1.2%. Furthermore, the

                   paper highlights various possibilities for process optimization by quantifying the                  ᇏݓࣁඋ࿐߶

                   effect of different parameters on heat loss.




                          原文参考CMISI数据库： AISTech 2021—Proceedings of the Iron & Steel

                                  Technology Conference 29 June-1 July 2021,Nashville, Tenn., USA





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                   CSM 中国金属学会                                               CMISI 冶金工业信息标准研究院
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