暂无评论
图文详情
- ISBN:9787502471682
- 装帧:暂无
- 册数:暂无
- 重量:暂无
- 开本:32开
- 页数:314
- 出版时间:2016-08-01
- 条形码:9787502471682 ; 978-7-5024-7168-2
内容简介
《冶金流程集成理论与方法(英文版)》是一本关于冶金过程工程理论与工程运行实践并重的专著。作者近年来对冶金流程动态运行的物理本质进行了深入的理论探索,以三类物理系统为理论基础,阐述了流程动态运行的基本概念、要素和规律,讨论了制造流程中物质流、能量流、信息流相互作用和协同运行的关系,提出了建立新一代钢铁制造流程的理论框架和钢厂动态精准设计的概念、理论和方法。从理论上论证了新一代钢铁制造流程应具有三个功能,即钢铁产品制造功能、能源转换功能、废弃物消纳—处理和再资源化功能。
目录
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
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
展开全部
本类五星书
浏览历史
本类畅销
-
中国建筑史
¥36.8¥75.0 -
工程制图及CAD
¥55.3¥79.0 -
电子操作工必读
¥2.3¥8.0 -
液压与气压传动
¥38.9¥54.8 -
住区交通规划与虚拟仿真实验
¥29.4¥49.0 -
电气二次回路工程通用标准图集(下册)
¥214.6¥298.0 -
大家小书:世界桥梁趣谈
¥18.2¥35.0 -
卫星信号电离层探测及应用技术
¥83.3¥119.0 -
电工(初级)
¥41.9¥59.8 -
汽车电气设备构造与维修
¥25.3¥46.0 -
汽车维修快速入门丛书汽车维修工实战28天
¥22.5¥46.0 -
汽车维修快速入门丛书汽车维修电工实战28天
¥31.9¥65.0 -
防火与防爆(第二版)
¥28.5¥38.0 -
爱车先懂车:汽车构造与原理知识问答(全彩版)
¥50.4¥69.0 -
赛先生的梦魇:新技术革命二十讲
¥41.8¥58.0 -
植物进化的故事
¥18.9¥59.0 -
《机动车机电维修技术(检测维修工程师)》
¥44.8¥128.0 -
安全驾驶从这里开始
¥13.6¥40.0 -
桥梁史话
¥20.4¥37.0 -
世界桥梁趣谈
¥10.6¥28.0