Study and Application of Bottom Blowing Technique of Combined Blowing Converter
The water modelling experiments of 300 t converter concerning combined blowing parameters, the number, and configuration of bottom nozzles are carried out. The results show that the arrangement of 16 bottom nozzles at 0. 40D and 0. 45D (hearth diameter) concentric circles is the reasonable solution....
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| Published in | Journal of iron and steel research, international Vol. 21; no. 1; pp. 41 - 45 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Singapore
Elsevier Ltd
2014
Springer Singapore |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1006-706X 2210-3988 |
| DOI | 10.1016/S1006-706X(14)60007-8 |
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| Abstract | The water modelling experiments of 300 t converter concerning combined blowing parameters, the number, and configuration of bottom nozzles are carried out. The results show that the arrangement of 16 bottom nozzles at 0. 40D and 0. 45D (hearth diameter) concentric circles is the reasonable solution. The combined blowing steel- making technique of 300 t converter has been developed through experiments and studies relating to optimizing the top-bottom combined blowing pattern, the number and configuration of the bottom nozzles, the type selection of bot- tom nozzle, and bottom nozzle maintenance techniques. The results show that the product of w[c] " w[o] at endpoint is reduced from 0. 002 62 to 0. 002 43, average TFe content is decreased by %, phosphorus distribution is raised from 70.85 to 78.95, sulfur distribution is raised from 3.43 to 4.32 and manganese content is raised by 0.02%. |
|---|---|
| AbstractList | The water modelling experiments of 300 t converter concerning combined blowing parameters, the number, and configuration of bottom nozzles are carried out. The results show that the arrangement of 16 bottom nozzles at 0. 40
D
and 0. 45
D
(hearth diameter) concentric circles is the reasonable solution. The combined blowing steelmaking technique of 300 t converter has been developed through experiments and studies relating to optimizing the top-bottom combined blowing pattern, the number and configuration of the bottom nozzles, the type selection of bottom nozzle, and bottom nozzle maintenance techniques. The results show that the product of
w
[C]
•
w
[O]
at endpoint is reduced from 0. 002 62 to 0. 002 43, average TFe content is decreased by 2%, phosphorus distribution is raised from 70. 85 to 78. 95, sulfur distribution is raised from 3. 43 to 4. 32 and manganese content is raised by 0. 02%. The water modelling experiments of 300 t converter concerning combined blowing parameters, the number, and configuration of bottom nozzles are carried out. The results show that the arrangement of 16 bottom nozzles at 0. 40D and 0. 45D (hearth diameter) concentric circles is the reasonable solution. The combined blowing steelmaking technique of 300 t converter has been developed through experiments and studies relating to optimizing the top-bottom combined blowing pattern, the number and configuration of the bottom nozzles, the type selection of bottom nozzle, and bottom nozzle maintenance techniques. The results show that the product of w[c] times w[o] at endpoint is reduced from 0.00262 to 0.00243, average TFe content is decreased by 2%, phosphorus distribution is raised from 70. 85 to 78. 95, sulfur distribution is raised from 3.43 to 4.32 and manganese content is raised by 0. 02%. The water modelling experiments of 300 t converter concerning combined blowing parameters, the number, and configuration of bottom nozzles are carried out. The results show that the arrangement of 16 bottom nozzles at 0.40D and 0.45D (hearth diameter) concentric circles is the reasonable solution. The combined blowing steel-making technique of 300 t converter has been developed through experiments and studies relating to optimizing the top-bottom combined blowing pattern, the number and configuration of the bottom nozzles, the type selection of bottom nozzle, and bottom nozzle maintenance techniques. The results show that the product of w sub([c]) [middot] w sub([o]) at endpoint is reduced from 0.00262 to 0.00243, average TFe content is decreased by 2%, phosphorus distribution is raised from 70.85 to 78.95, sulfur distribution is raised from 3.43 to 4.32 and manganese content is raised by 0.02%. The water modelling experiments of 300 t converter concerning combined blowing parameters, the number, and configuration of bottom nozzles are carried out. The results show that the arrangement of 16 bottom nozzles at 0. 40D and 0. 45D (hearth diameter) concentric circles is the reasonable solution. The combined blowing steel- making technique of 300 t converter has been developed through experiments and studies relating to optimizing the top-bottom combined blowing pattern, the number and configuration of the bottom nozzles, the type selection of bot- tom nozzle, and bottom nozzle maintenance techniques. The results show that the product of w[c] " w[o] at endpoint is reduced from 0. 002 62 to 0. 002 43, average TFe content is decreased by %, phosphorus distribution is raised from 70.85 to 78.95, sulfur distribution is raised from 3.43 to 4.32 and manganese content is raised by 0.02%. The water modelling experiments of 300 t converter concerning combined blowing parameters, the number, and configuration of bottom nozzles are carried out. The results show that the arrangement of 16 bottom nozzles at 0. 40D and 0. 45D (hearth diameter) concentric circles is the reasonable solution. The combined blowing steelmaking technique of 300 t converter has been developed through experiments and studies relating to optimizing the top-bottom combined blowing pattern, the number and configuration of the bottom nozzles, the type selection of bottom nozzle, and bottom nozzle maintenance techniques. The results show that the product of w[c] • w[o] at endpoint is reduced from 0.00262 to 0.00243, average TFe content is decreased by 2%, phosphorus distribution is raised from 70. 85 to 78. 95, sulfur distribution is raised from 3.43 to 4.32 and manganese content is raised by 0. 02%. |
| Author | Li-bin YANG Liu LIU Xing-li JIAO Pu-qiao TONG |
| AuthorAffiliation | Central Iron and Steel Research Institute, Beijing 100081, China No. 4 Steelmaking and Rolling General Plant, Masteel, Ma'anshan 243000, Anhui, China |
| Author_xml | – sequence: 1 givenname: Li-bin surname: YANG fullname: YANG, Li-bin email: libyangz@126.com organization: Central Iron and Steel Research Institute, Beijing 100081, China – sequence: 2 givenname: Liu surname: LIU fullname: LIU, Liu organization: Central Iron and Steel Research Institute, Beijing 100081, China – sequence: 3 givenname: Xing-li surname: JIAO fullname: JIAO, Xing-li organization: No. 4 Steelmaking and Rolling General Plant, Masteel, Ma'anshan 243000, Anhui, China – sequence: 4 givenname: Pu-qiao surname: TONG fullname: TONG, Pu-qiao organization: Central Iron and Steel Research Institute, Beijing 100081, China |
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| Cites_doi | 10.2355/isijinternational1966.27.560 10.1007/BF02654323 10.1007/s11015-007-0014-4 |
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| Keywords | water model bottom nozzle combined blowing product of carbon and oxygen maintenance technique |
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| Notes | 11-3678/TF The water modelling experiments of 300 t converter concerning combined blowing parameters, the number, and configuration of bottom nozzles are carried out. The results show that the arrangement of 16 bottom nozzles at 0. 40D and 0. 45D (hearth diameter) concentric circles is the reasonable solution. The combined blowing steel- making technique of 300 t converter has been developed through experiments and studies relating to optimizing the top-bottom combined blowing pattern, the number and configuration of the bottom nozzles, the type selection of bot- tom nozzle, and bottom nozzle maintenance techniques. The results show that the product of w[c] " w[o] at endpoint is reduced from 0. 002 62 to 0. 002 43, average TFe content is decreased by %, phosphorus distribution is raised from 70.85 to 78.95, sulfur distribution is raised from 3.43 to 4.32 and manganese content is raised by 0.02%. combined blowing; bottom nozzle; maintenance technique; water model; product of carbon and oxygen ObjectType-Article-2 SourceType-Scholarly Journals-1 ObjectType-Feature-1 content type line 23 ObjectType-Article-1 ObjectType-Feature-2 |
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| References | Aleksashin, Schnaltzger, Hollias (bib2) 2007; 51 Liu (bib5) 2005; 40 Combined Blowing Experts Research Department of Chinese Metallurgical Department (bib3) 1994 Jiao, Mao, Tong (bib8) 2009; 25 Yang, Liu, Jiao, Deng, Xu (bib15) 2011; 23 Wang (bib12) 1986 Liang, He, Hu, Xu, Tong (bib7) 2005; 21 Liu, Tong, Cui, Yu, Luo, Xu, Peng (bib4) 2002; 37 Ball, Ghosh (bib11) 1981; 12 Pehlke, Porter, Urban, Gaines (bib1) 1977 Suito, Inoue, Takada (bib13) 1981; 21 Qu (bib14) 1994 Sinha, Lahiri (bib10) 1987; 27 Deng, Yang (bib6) 2005 Su, Liu (bib9) 1999 PehlkeR DPorterW FUrbanR FGainesJ MBOF Steelmaking, Process Technology Division, Iron and Steel Society of the American Institute of Mining1977New YorkMetallurgical and Petroleum Engineers Y. Deng, L. B. Yang, in: W. X. Li, (Eds.), CSM 2005 Annual Meeting proceedings, 3rd, Metallurgical Industry Press, Beijing, 2005, pp. 130–134. SinhaA KLahiriA KTrans. ISIJ19872756056210.2355/isijinternational1966.27.560 JiaoX LMaoMTongP QSteelmaking20092557 Combined Blowing Experts Research Department of Chinese Metallurgical Department.Design Reference of Oxygen Top-Bottom Combined Blowing Converter1994BeijingMetallurgical Industry Press QuYSteelmaking Principles1994BeijingMetallurgical Industry Press LiuLTongP QCuiS XYuC HLuoZ HXuJ BPengW KIron and Steel2002371315 SuitoHInoueRTakadaMTrans. Iron Steel Inst.198121256 AleksashinA LSchnaltzgerIHolliasGMetallurgist200751606510.1007/s11015-007-0014-4 WangD ZDephophorization in Ironmaking and Steelmaking1986BeijingMetallurgical Industry Press SuT SLiuLConverter Slag Splashing Technique1999BeijingMetallurgical Industry Press LiuLIron and Steel20054015 LiangQHeH XHuC ZXuCTongP QSteelmaking20052148 YangL BLiuLJiaoX LDengYXuX WJ. Iron Steel Res.2011231821 BallN BGhoshAMetall. Trans. B19811252553410.1007/BF02654323 L Liu (2101041_CR5) 2005; 40 X L Jiao (2101041_CR8) 2009; 25 L B Yang (2101041_CR15) 2011; 23 A K Sinha (2101041_CR10) 1987; 27 Q Liang (2101041_CR7) 2005; 21 Combined Blowing Experts Research Department of Chinese Metallurgical Department. (2101041_CR3) 1994 T S Su (2101041_CR9) 1999 A L Aleksashin (2101041_CR2) 2007; 51 R D Pehlke (2101041_CR1) 1977 L Liu (2101041_CR4) 2002; 37 D Z Wang (2101041_CR12) 1986 H Suito (2101041_CR13) 1981; 21 2101041_CR6 N B Ball (2101041_CR11) 1981; 12 Y Qu (2101041_CR14) 1994 |
| References_xml | – volume: 25 start-page: 5 year: 2009 end-page: 7 ident: bib8 publication-title: Steelmaking – year: 1994 ident: bib14 publication-title: Steelmaking Principles – volume: 51 start-page: 60 year: 2007 end-page: 65 ident: bib2 publication-title: Metallurgist – start-page: 130 year: 2005 end-page: 134 ident: bib6 publication-title: CSM 2005 Annual Meeting proceedings – volume: 23 start-page: 18 year: 2011 end-page: 21 ident: bib15 publication-title: J. Iron Steel Res. – volume: 21 start-page: 256 year: 1981 ident: bib13 publication-title: Trans. Iron Steel Inst. – year: 1999 ident: bib9 publication-title: Converter Slag Splashing Technique – volume: 37 start-page: 13 year: 2002 end-page: 15 ident: bib4 publication-title: Iron and Steel – year: 1977 ident: bib1 publication-title: BOF Steelmaking, Process Technology Division, Iron and Steel Society of the American Institute of Mining – year: 1994 ident: bib3 publication-title: Design Reference of Oxygen Top-Bottom Combined Blowing Converter – volume: 40 start-page: 1 year: 2005 end-page: 5 ident: bib5 publication-title: Iron and Steel – volume: 21 start-page: 4 year: 2005 end-page: 8 ident: bib7 publication-title: Steelmaking – year: 1986 ident: bib12 publication-title: Dephophorization in Ironmaking and Steelmaking – volume: 12 start-page: 525 year: 1981 end-page: 534 ident: bib11 publication-title: Metall. Trans. B – volume: 27 start-page: 560 year: 1987 end-page: 562 ident: bib10 publication-title: Trans. ISIJ – reference: BallN BGhoshAMetall. Trans. B19811252553410.1007/BF02654323 – reference: LiangQHeH XHuC ZXuCTongP QSteelmaking20052148 – reference: PehlkeR DPorterW FUrbanR FGainesJ MBOF Steelmaking, Process Technology Division, Iron and Steel Society of the American Institute of Mining1977New YorkMetallurgical and Petroleum Engineers – reference: LiuLIron and Steel20054015 – reference: LiuLTongP QCuiS XYuC HLuoZ HXuJ BPengW KIron and Steel2002371315 – reference: SinhaA KLahiriA KTrans. ISIJ19872756056210.2355/isijinternational1966.27.560 – reference: Combined Blowing Experts Research Department of Chinese Metallurgical Department.Design Reference of Oxygen Top-Bottom Combined Blowing Converter1994BeijingMetallurgical Industry Press – reference: YangL BLiuLJiaoX LDengYXuX WJ. Iron Steel Res.2011231821 – reference: Y. Deng, L. B. Yang, in: W. X. Li, (Eds.), CSM 2005 Annual Meeting proceedings, 3rd, Metallurgical Industry Press, Beijing, 2005, pp. 130–134. – reference: SuT SLiuLConverter Slag Splashing Technique1999BeijingMetallurgical Industry Press – reference: AleksashinA LSchnaltzgerIHolliasGMetallurgist200751606510.1007/s11015-007-0014-4 – reference: SuitoHInoueRTakadaMTrans. Iron Steel Inst.198121256 – reference: JiaoX LMaoMTongP QSteelmaking20092557 – reference: WangD ZDephophorization in Ironmaking and Steelmaking1986BeijingMetallurgical Industry Press – reference: QuYSteelmaking Principles1994BeijingMetallurgical Industry Press – volume: 21 start-page: 4 year: 2005 ident: 2101041_CR7 publication-title: Steelmaking – volume: 37 start-page: 13 year: 2002 ident: 2101041_CR4 publication-title: Iron and Steel – volume: 27 start-page: 560 year: 1987 ident: 2101041_CR10 publication-title: Trans. ISIJ doi: 10.2355/isijinternational1966.27.560 – volume-title: Converter Slag Splashing Technique year: 1999 ident: 2101041_CR9 – volume: 25 start-page: 5 year: 2009 ident: 2101041_CR8 publication-title: Steelmaking – volume: 23 start-page: 18 year: 2011 ident: 2101041_CR15 publication-title: J. Iron Steel Res. – volume-title: Steelmaking Principles year: 1994 ident: 2101041_CR14 – volume: 40 start-page: 1 year: 2005 ident: 2101041_CR5 publication-title: Iron and Steel – volume: 12 start-page: 525 year: 1981 ident: 2101041_CR11 publication-title: Metall. Trans. B doi: 10.1007/BF02654323 – volume: 21 start-page: 256 year: 1981 ident: 2101041_CR13 publication-title: Trans. Iron Steel Inst. – volume: 51 start-page: 60 year: 2007 ident: 2101041_CR2 publication-title: Metallurgist doi: 10.1007/s11015-007-0014-4 – volume-title: Design Reference of Oxygen Top-Bottom Combined Blowing Converter year: 1994 ident: 2101041_CR3 – ident: 2101041_CR6 – volume-title: Dephophorization in Ironmaking and Steelmaking year: 1986 ident: 2101041_CR12 – volume-title: BOF Steelmaking, Process Technology Division, Iron and Steel Society of the American Institute of Mining year: 1977 ident: 2101041_CR1 |
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| SubjectTerms | Applied and Technical Physics Blowing Bottom blown converters bottom nozzle combined blowing Engineering Iron and steel industry Iron and steel making Machines maintenance technique Manufacturing Materials Engineering Materials Science Mathematical models Metallic Materials Nozzles Physical Chemistry Processes product of carbon and oxygen Steel converters Steel making Steels water model 应用 底吹 水模型试验 炼钢技术 维修技术 转炉 送风参数 顶底复合吹炼 |
| Title | Study and Application of Bottom Blowing Technique of Combined Blowing Converter |
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