Table of Contents
1 Cover
5 Preface
8 2 A Short Review of Some Important Aspects of the Science of Corrosion 2.1 Introduction 2.2 Important Technical Treatment Strategies for Corrosion Treatment 2.3 Conclusion References
9 3 Smart Corrosion Management Elements 3.1 Introduction 3.2 Management of Corrosion and COVID19 3.3 Environment 3.4 Application of Management of Corrosion Scheme to Underground Fire Water Ring4 3.5 Damage Management 3.6 Algorithm 3.7 Final Remarks References
10 4 Economics and Corrosion 4.1 Introduction 4.2 Economics 4.3 Corrosion Economics 4.4 Corrosion and Sustainability 4.5 Conclusion 4.6 Summary References
11 5 Effective Management of Process Additives (EMPA) 5.1 Introduction 5.2 A Gas Plant 5.3 Utilities 5.4 Process Additives (Chemicals) 5.5 Effective Management of Process Additives (EMPA) 5.6 Misleading Trends with Corrosion Conclusions 5.7 Chemicals, Their Corrosion, and Impacts of Their Corrosions on the Environment 5.8 Configuring EMPA 5.9 Setting up an EMPA 5.10 Consumption 5.11 Reporting 5.12 Documentation 5.13 Summary References
12 6 Application of TRIZ for Corrosion Management 6.1 Introduction 6.2 Basic Structure of TRIZ 6.3 Level of Invention 6.4 History of TRIZ 6.5 About the Founder of TRIZ 6.6 Contradiction as a Means to Formulate an Inventive Problem 6.7 Procedure of Inventive Design 6.8 Concept Development Using TRIZ 6.9 Contradiction Matrix (39 × 39) 6.10 Using the TRIZ Matrix 6.11 Physical Contradiction Resolution 6.12 Ideality and the Ideal Final Result (IFR) 6.13 TRIZ Crossover QMS 6.14 The Evolutionary S‐Curve 6.15 Nine Windows 6.16 Trends of Engineering System Evolution 6.17 Geometric Evolution of Linear Constructions 6.18 Trimming 6.19 Input–Output–Trimming Operator (I–O–T) 6.20 Resource Analysis 6.21 Function Analysis 6.22 Substance‐Field Analysis 6.23 Tool‐Object‐Product (TOP) Function Analysis 6.24 Generic Model of a Function 6.25 TRIZ Offers Five Basic Function Models 6.26