Author Biography
Foreword
Preface
Acknowledgments
1�� Introduction
1��1 Dynamism
1��2 Structurity
1��3 Continuity
1��4 Embedding
1��5 Synergism
1��6 Functionalism
References

2�� Concept and Theory of Dynamic Operation
of the Manufacturing Process
2��1 Process System and Basic Concepts
2��1��1 Process Manufacturing Industry
2��1��2 Spatiotemporal Scales of the Processes
2��1��3 Processes and Manufacturing Process
2��2 Process Engineering and Manufacturing Process Engineering
2��2��1 Engineering and Engineering Science
2��2��2 Process Engineering
2��2��3 Manufacturing Process Engineering
2��3 Physical Essence of Dynamic Operation of the Manufacturing
Process System
2��3��1 Features of Manufacturing Process
2��3��2 Essence and Functions of Steel Manufacturing Process
2��4 Operation Process and Physical Levels of Dynamic
Process System
2��4��1 Physical Features of Dynamic Running of
Manufacturing Process
2��4��2 Three Kinds of Physical Systems
2��5 Evolution of Thermodynamics
2��5��1 From Thermomechanics to Thermodynamics
2��5��2 Classification of Thermodynamic System
2��5��3 Irreversibility
2��5��4 Processing Within Steady State����Near
Equilibrium Region
2��5��5 Linear Irreversible Process
2��6 Open System and Dissipative Structure
2��6��1 What Is the Dissipative Structure
2��6��2 Features of the Dissipative Structure
2��6��3 Formation Conditions of Dissipative Structure
2��6��4 Fluctuations�� Nonlinear Interaction�� and
Self-Organization in Engineering System
2��6��5 Critical Point and Critical Phenomenon
References

3�� Basic Elements of Dynamic Operation of the Steel
Manufacturing Process
3��1 "Flow" in the Manufacturing Processes����Mass Flow��
Energy Flow�� Information Flow
3��2 Relationship Between Mass Flow and Energy Flow
3��3 Mass Flow/Energy Flow and Information Flow
3��4 "Network" of Manufacturing Process
3��4��1 What Is the "Network"
3��4��2 How to Study "Network"
3��5 "Program" of Manufacturing Process Running
3��6 Dissipation in Dynamic-Orderly Operation System
3��6��1 "Flow" Patterns and Dissipation
3��6��2 Operation Rhythm and Dissipation
3��6��3 Distribution of Procedure's Functions and Dissipation
3��7 Forms and Connotation of Time Factors in Steel
Manufacturing Process
3��8 Contents and ObJectives for Dynamic Operation of Steel
Manufacturing Process
3��8��1 Recognition Thinking Way
3��8��2 Research Contents of the Discipline
3��8��3 Strategic Objectives of Research
References

4�� Characteristics and Analysis of the Dynamic
Operation of Steel Manufacturing Process
4��1 Research Method of Dynamic Operation Process
4��1��1 Evolution of Vision and Conception
4��1��2 Research Method of Process Engineering
4��2 Dynamic Operation and Structure Optimization of
Process System
4��2��1 Process System and Structure
4��2��2 Connotations of Steel Plant Structure and the Trend
of Steel Plant Restructuring
4��2��3 Dynamic Mechanics and Rules of the Macroscopic
Operation in Manufacturing Process
4��2��4 The Relationship Between Dynamic Operation and
Structure Optimization of Process
4��3 Self-Organization of Manufacturing Process and
Hetero-Organization with Information
4��3��1 Self-Organization and Hetero-Organization of Process
4��3��2 Self-Organization Phenomenon in Steel Manufacturing
Process
4��3��3 Self-Organization and Hetero-Organization in Process
Integration
4��3��4 Impact of Informatization on Self-Organization and
Hetero-Organization
4��4 Dynamic Operation of Mass Flow and Time-Space
Management
4��4��1 Dynamic Regulation of the Time and the Dynamic
Operation Gantt Chart
4��4��2 Conception of Clean Steel and the High-Efficiency
and Low-Cost Clean Steel Production Platform
4��4��3 High-Efficiency and Low-Cost Clean Steel Production
Platform and the Dynamic Operation Gantt Chart
4��4��4 Laminar Type or Stochastic Type Running of Mass Flow
in Steel Production Processes
4��5 Function and Behavior of Energy Flow�� and Energy Flow
Network in the Steel Manufacturing Process
4��5��1 The Deeper Understanding of Physical Essence and
Operation Rules of the Steel Manufacturing Process
4��5��2 Research Method and Feature of Energy Flow in the
Process
4��5��3 Energy Flow and Energy Flow Network in Steel Plants
4��5��4 Macroscopic Operation Dynamics of the Energy Flow
in the Steel Manufacturing Process
4��5��5 Energy Flow Network Control System and Energy
Control Center
References

5�� Dynamic Tailored Design and Integration Theory of Steel Plants
5��1 Traditional Design and its Present Status
5��1��1 How to Recognize Design
5��1��2 Situation of Design Theory and Design Method
5��1��3 Present Status of Design Theory and Methodology for Steel Plants in China
5��2 Engineering Design
5��2��1 Engineering and Design
5��2��2 Innovation View of Engineering Design
5��2��3 Engineering Design and Knowledge Innovation
5��2��4 Engineering Design and Dynamic Tailored Solution
5��3 Design Theory and Methodology for Steel Plants
5��3��1 Background for Innovation of Steel Plant Design Theory and Method
5��3��2 Theory�� Concept�� and Development Trend of Steel Plant Design
5��3��3 Innovation Roadmap of Steel Plant Design Method
5��3��4 Dynamic Coupling in Steel Manufacturing Process's Dynamic-Orderly Operation
5��3��5 Energy Flow Network of Steel Manufacturing Process
5��4 Dynamic Tailored Design for Steel Plant
5��4��1 Difference Between Traditional Static Design and Dynamic Tailored Design for Steel Plant
5��4��2 Process Model for the Dynamic Tailored Design
5��4��3 Core Idea and Step of the Dynamic Tailored Design
5��5 Integration and Structure Optimization
5��5��1 Integration and Engineering Integration
5��5��2 Structure of Steel Plant
References

6�� Case Study
6��1 Process Structure Optimization in Steel Plant and BF Enlargement
6��1��1 Development Trend of BF Ironmaking
6��1��2 BF Enlargement with the Premise of the Optimization of Process Structure in Steel Plants
6��1��3 A Comparison of Technological Equipment of BFs with Different Volumes
6��1��4 Discussions
6��2 Interface Technology Between BF-BOF and Multifunctional Hot Metal Ladle
6��2��1 General Idea of Multifunction Hot Metal Ladle
6��2��2 Multifunction Hot Metal Ladle and Its Practice at Shougang Jingtang Steel
6��2��3 Practice of Multifunction Hot Metal Ladle at Shagang Group
6��2��4 Discussions
6��3 De[S]-De[Si]/[P] Pretreatment and High-Efficiency and Low-Cost Clean Steel Production Platform
6��3��1 Why Adopt the De[S]-De[Si]/[P] Pretreatment
6��3��2 Analysis-Optimization of Procedure Functions and Coordination-Optimization of Procedure Relationships in the De[S]-De[Si]/[P] Pretreatment
6��3��3 A Case Study on Full Hot Metal Pretreatment���� Steelmaking Plant in Wakayama Iron & Steel Works of Former Sumitomo Metal Industries
6��3��4 Different Types of Steel Plants with De[S]-De[Si]/[P] Pretreatment in Japan
6��3��5 Development of De[S]-De[Si]/[P] Pretreatment in Korea
6��3��6 Design and Operation of De[S]-De[Si]/[P] Pretreatment at Shougang Jingtang Steel in China
6��3��7 A Conceived High-Efficiency and Low-Cost Clean Steel Production Platform ��Large-Scale Full Sheet Production Steelmaking Plant��
6��3��8 Theoretical Significance and Practical Value of De[S]-De[Si]/[P] Pretreatment
6��4 Optimization of Interface Technology Between CC and Bar Rolling Mill
6��4��1 Technological Base of Billet Direct Hot Charging
6��4��2 Practical Performance of Billet Direct Hot Charging Between No��6 Caster and No��1 Bar Rolling Mill
6��4��3 Practical Performance of Billet Direct Hot Charging Between No��5 Caster and No��2 Bar Mill
6��4��4 Progress on Fixed Weight Mode
6��4��5 Discussions
Appendix A�� Turnover Time Statistics of Steel Ladle in No��2
Steelmaking and Hot rolling Plant in Tangsteel
References
7�� Engineering Thinking and a New Generation of Steel Manufacturing Process
7��1 Engineering Thinking
7��1��1 Relationship Among Science�� Technology�� and Engineering
7��1��2 Characteristics of Thinking Mode in Chinese Culture
7��1��3 An Engineering Innovation Road in the "Reductionism" Deficiency
7��2 Engineering Evolution
7��2��1 Concept and Definition of Evolution
7��2��2 Technology Advancement and Engineering Evolution
7��2��3 Integration and Engineering Evolution
7��3 Thinking and Study of a New Generation of the Steel Manufacturing Process
7��3��1 Conception Study of Steel Manufacturing Process
7��3��2 Study of Top Level Design in the Process
7��3��3 Process Dynamic Tailored Design
7��3��4 Study of the Entire Process Dynamic Operation Rules
7��3��5 Some Recognization for the New Generation of the Steel Manufacturing Process
7��4 Development Direction of Metallurgical Engineering in the View of Engineering Philosophy
References
Index