Modelling of the blast furnace based on the multifluid concept with applications to advanced operations 多流体理論による高炉数学モデルの開発とその高度操業への応用
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著者
書誌事項
- タイトル
-
Modelling of the blast furnace based on the multifluid concept with applications to advanced operations
- タイトル別名
-
多流体理論による高炉数学モデルの開発とその高度操業への応用
- 著者名
-
Peter Richard Austin
- 著者別名
-
ピーター リチャード オースティン
- 学位授与大学
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東北大学
- 取得学位
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博士 (工学)
- 学位授与番号
-
乙第7352号
- 学位授与年月日
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1997-12-10
注記・抄録
博士論文
目次
- Table of Contents / p1 (0003.jp2)
- Chapter 1.Introduction / p1 (0007.jp2)
- 1.1 Description of the Blast Furnace Process / p1 (0007.jp2)
- 1.2 Literature Review of Blast Furnace Modelling / p3 (0009.jp2)
- 1.3 Literature Review of Powder Dispersion in Packed Beds / p7 (0013.jp2)
- 1.4 Purpose and Aims of Research / p9 (0015.jp2)
- Nomenclature / p12 (0018.jp2)
- References / p12 (0018.jp2)
- Chapter 2.Mathematical Formulation of a Multiphase Model of the Blast Furnace / p15 (0021.jp2)
- 2.1 Introduction / p15 (0021.jp2)
- 2.2 General Conservation Equation and Conserved Quantities / p15 (0021.jp2)
- 2.3 Interphase Momentum Transfer / p19 (0025.jp2)
- 2.4 Interphase Convective Heat Transfer / p21 (0027.jp2)
- 2.5 Chemical Reactions and Phase Transformations / p23 (0029.jp2)
- 2.6 Estimation of Phase Properties / p24 (0030.jp2)
- 2.7 Boundary Conditions / p31 (0037.jp2)
- 2.8 Discretisation and Solution of the General Conservation Equation / p32 (0038.jp2)
- Nomenclature / p33 (0039.jp2)
- References / p35 (0041.jp2)
- Chapter 3.Powder Dispersion in a Packed Bed / p38 (0044.jp2)
- 3.1 Introduction / p38 (0044.jp2)
- 3.2 Experimental Apparatus, Method and Analysis / p38 (0044.jp2)
- 3.3 Experimental Observations and Results / p43 (0049.jp2)
- 3.4 Discussion and Analysis of Results / p48 (0054.jp2)
- 3.5 Summary / p53 (0059.jp2)
- Nomenclature / p54 (0060.jp2)
- References / p54 (0060.jp2)
- Chapter 4.Four Phase Motion and Heat Transfer in the Blast Furnace / p55 (0061.jp2)
- 4.1 Introduction / p55 (0061.jp2)
- 4.2 Simplified Reaction Rates and Chemistry / p55 (0061.jp2)
- 4.3 Physical Properties / p58 (0064.jp2)
- 4.4 Base Case Calculations / p61 (0067.jp2)
- 4.5 Case Study-Effects of Burden Distribution / p64 (0070.jp2)
- 4.6 Case Study-Effects of PC Rate / p66 (0072.jp2)
- 4.7 Summary / p69 (0075.jp2)
- Nomenclature / p71 (0077.jp2)
- References / p72 (0078.jp2)
- Chapter 5.Four Phase Blast Furnace Reaction Analysis-Model Validation and Submodel Case Studies / p73 (0079.jp2)
- 5.1 Introduction / p73 (0079.jp2)
- 5.2 Assumptions and Simplifications / p74 (0080.jp2)
- 5.3 Analysis of Conventional Blast Furnace Operation / p74 (0080.jp2)
- 5.4 Base Case Calculation / p77 (0083.jp2)
- 5.5 Case Study-Effect of Silicon Transfer / p81 (0087.jp2)
- 5.6 Case Study-Effect of Static Liquid Holdup / p83 (0089.jp2)
- 5.7 Summary / p89 (0095.jp2)
- Nomenclature / p90 (0096.jp2)
- References / p91 (0097.jp2)
- Chapter 6.Prediction of Blast Furnace Performance Under Novel Operating Methods / p92 (0098.jp2)
- 6.1 Introduction / p92 (0098.jp2)
- 6.2 Top Gas Recycling / p92 (0098.jp2)
- 6.3 Charging of Metallics with the Burden / p106 (0112.jp2)
- 6.4 Summary / p114 (0120.jp2)
- Nomenclature / p116 (0122.jp2)
- References / p117 (0123.jp2)
- Chapter 7.Conclusions and Recommendations / p118 (0124.jp2)
- Nomenclature For Appendices / p123 (0129.jp2)
- Appendix A.Reaction Rate Equations / p127 (0133.jp2)
- Appendix B.Thermochemical Data / p136 (0142.jp2)
- Appendix C.Transformation and Solution of the General Conservation Equation / p139 (0145.jp2)
- Appendix D.Numerical Grid Calculation Method / p145 (0151.jp2)
- Appendix E.Flowchart for the Blast Furnace Model / p151 (0157.jp2)
- Appendix F.Reaction Rate Equations for the Simplified Blast Furnace Model / p154 (0160.jp2)
- Publications / p160 (0166.jp2)
- Acknowledgments / p162 (0168.jp2)