Eco Friendly Corrosion Inhibitors Principles Designing and Applications 1st Edition by Lei Guo, Chandrabhan Verma, Dawei Zhang ISBN 0323911765‎ 978-0323911764

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Product details:

ISBN 10: 0323911765
ISBN 13:‎ 978-0323911764
Author: Lei Guo, Chandrabhan Verma, Dawei Zhang 

Eco-Friendly Corrosion Inhibitors: Principles, Designing, and Applications wraps up new developments in corrosion inhibitors and their current applications in real-life environments such as in strong acidic pickling and petroleum-based liquids. The book covers several types of environmentally-friendly corrosion inhibitors in detail. In addition, it highlights both established research and technology on industrial scale corrosion inhibitors and their rapidly emerging aspects and future research directions.

• Provides fundamental basics and applied practices of corrosion prevention at industrial scale
• Serves as a valuable reference for scientists and engineers who are searching modern design for industrial scale corrosion inhibitors
• Focuses on the most advanced industrial scale corrosion inhibitors, including current challenges during manufacturing
• Includes up-to-date reference material such as websites of interest and information about the latest research

Eco-Friendly Corrosion Inhibitors: Principles, Designing and Applications 1st Table of contents:

CHAPTER 1. General principles of industrial corrosion

Abstract

1.1 Introduction

1.2 Materials in industrial applications

1.3 General principles or theories of industrial corrosion

1.4 Different types of corrosion in industries

1.5 Corrosion of metal in industries

References

CHAPTER 2. Corrosion prevention and protection methods

Abstract

2.1 Introduction

2.2 Important considerations required for the corrosion prevention and control methods

2.3 Strategies of the corrosion prevention and control methods

2.4 Methods of corrosion control

Conclusion

Acknowledgment

Useful books

Useful websites

References

chapter 3. Development process for eco-friendly corrosion inhibitors

Abstract

3.1 Introduction

3.2 Process for development of eco-friendly synthesizing corrosion inhibitors

3.3 Process for development of eco-friendly extracting corrosion inhibitors

Conclusion

References

Chapter4. Acidizing corrosion inhibitors

Abstract

4.1 Introduction of acidizing corrosion inhibitors

4.2 Acidizing inorganic corrosion inhibitor

4.3 Acidizing organic corrosion inhibitor

4.4 New acidizing corrosion inhibitor

Conclusion

References

Chapter 5. Corrosion inhibitors used in alkaline environments

Abstract

5.1 Corrosion inhibitor used for alkaline metal-air battery

5.2 Corrosion inhibitors for rebar in concrete reinforcement

5.3 Corrosion inhibitors in other alkaline media

Summary and outlook

Acknowledgments

References

Chapter 6. Corrosion inhibitors in near neutral media

Abstract

6.1 Introduction

6.2 Metals corrosion and their inhibition in a neutral environment

6.3 Heterocyclic corrosion inhibitors for neutral environments

Acknowledgment

References

CHAPTER 7. Supramolecular corrosion inhibitors for cooling water systems

Abstract

7.1 Introduction to supramolecular corrosion inhibitors

7.2 Preparation of supramolecular corrosion inhibitors via molecular recognition and self-assembly

7.3 Assembly mechanism of the supramolecular corrosion inhibitor based on CDs

7.4 Characterizations of supramolecular corrosion inhibitors

7.5 Inhibition effect and mechanism of supramolecular corrosion inhibitors

7.6 Supramolecular corrosion inhibitor used in industrial water treatment

Conclusions

References

Chapter8. Corrosion inhibitors for oil and gas systems

Abstract

8.1 Well acidizing treatments in the oil and gas industry

8.2 Materials used for well construction in the oil and gas industry

8.3 Significance of corrosion and its associated agents in the oil and gas industry

8.4 Corrosion inhibitors and environmental concerns

8.5 Eco-friendly corrosion mitigation in the oil and gas industry

8.6 Developing the corrosion inhibitor formulation

Conclusion

Useful links

References

CHAPTER 9. Vapor inhibitors for corrosion protection

Abstract

9.1 Introduction

9.2 Mechanism of VCI action

9.3 Developed VCIs for ferrous and nonferrous metals

9.4 Some important techniques used for corrosion inhibition monitoring

9.5 Advantages of VCIs

9.6 Market growth

9.7 Methods of VCI application

Acknowledgment

References

Chapter10. Inhibitors for microbiologically influenced corrosion (MIC)

Abstract

10.1 Introduction

10.2 Microorganism species and MIC mechanism

10.3 MIC inhibitors

Conclusion

References

Chapter11. Corrosion inhibitors for Cu chemical mechanical planarization (CMP)

Abstract

11.1 Benzotriazole (BTA) used for Cu CMP

11.2 1,2,4-triazole (TAZ) used for Cu CMP

11.3 2,2’-[[(methyl-1H-benzotriazol-1-yl) methyl]imino]diethanol (TT-LYK) used for Cu CMP

11.4 Other inhibitors used for Cu CMP

11.5 The synergistic effects of mixed corrosion inhibitor used for Cu CMP

Conclusions

Useful links

References

Chapter 12. Heterocyclic corrosion inhibitors with multianchoring groups

Abstract

12.1 Introduction

12.2 Corrosion inhibition review of quinoline derivatives

12.3 Example of a complete study on the use of two heterocyclic inhibitors

Conclusion

References

Chapter 13. Pharmaceutical drugs as corrosion inhibitors I

Abstract

13.1 Introduction

13.2 General overview on drug synthesis and reuse

13.3 Application of drugs and expired drugs as corrosion inhibitors

Conclusions and future outlook

Acknowledgments

References

Chapter 14. Pharmaceutical drugs as corrosion inhibitors II

Abstract

14.1 Introduction

14.2 Industrial applications of drugs as corrosion inhibitors

14.3 Experimental section

Conclusion

Useful links

References

Chapter15. Pharmaceutical drugs protecting metals in aggressive environments

Abstract

15.1 Introduction

15.2 Corrosion inhibitors

15.3 Drugs as corrosion inhibitor: Literature survey

15.4 Experimental validation

15.5 Limitations and future directions

Conclusions

Acknowledgments

Useful links

References

Chapter16. Plant extracts as environmentally sustainable corrosion inhibitors I

Abstract

16.1 Preparation of plant extracts

16.2 Experimental methods of plant extracts

16.3 Mechanism of plant extracts

16.4 Recent advances of plant extracts

16.5 Modification of plant extracts

Summary and outlook

References

Chapter17. Plant extracts as environmentally sustainable corrosion inhibitors II

Abstract

17.1 Introduction

17.2 Prominent metrics for extract preparation

17.3 Plant extract as corrosion inhibitor

17.4 Mode of inhibitor adsorption on substrate

17.5 Effect of temperature and concentration

17.6 Techniques to evaluate corrosion inhibition efficiency

17.7 Advantage and disadvantages of green corrosion inhibitors

17.8 Future outlooks

Conclusion

Useful links

References

Chapter18. Amino acids and their derivatives as corrosion inhibitor

Abstract

18.1 Introduction

18.2 Classification and properties of amino acids

18.3 Corrosion inhibition mechanism by amino acids

18.4 Literature survey on amino acids and their derivatives

18.5 Challenges and recent progress

Conclusions

Websites related to the topic

References

Chapter19. Ionic liquids as green and sustainable corrosion inhibitors I

Abstract

19.1 ILs as environmental-friendly corrosion inhibitors

19.2 ILs are corrosion inhibitors for steel materials

19.3 ILs are corrosion inhibitors for copper

19.4 ILs are corrosion inhibitors for magnesium materials

19.5 ILs are corrosion inhibitors for other metallic materials

19.6 Inhibition mechanism of ILs

Conclusions

References

Chapter20. Ionic liquids as green and sustainable corrosion inhibitors II

Abstract

20.1 Introduction

20.2 ILs as corrosion inhibitors

20.3 Techniques for conducting corrosion experiments and deciphering the mechanism of corrosion

20.4 Contact angle measurements of ionic liquids

20.5 Mechanism for the corrosion inhibitive property of ionic liquids

Conclusion

Useful links

References

Chapter 21. Applications of nanomaterials in corrosion inhibitors

Abstract

21.1 Introduction

21.2 Nanomaterials and nanocomposites

21.3 Nanoparticles as corrosion inhibitors

21.4 Important issues related with anticorrosive nanomaterials

References

Chapter 22. Modern testing and analyzing techniques in corrosion

Abstract

22.1 Traditional used corrosion testing techniques

22.2 Potential corrosion detection approaches

Conclusions

References

Chapter23. Development of high temperature corrosion inhibitors

Abstract

23.1 Introduction

23.2 Plant extracts

23.3 Ionic liquids

23.4 Amino acids

23.5 Carbohydrates

23.6 Vegetable oils

23.7 Miscellaneous

Conclusions

Useful links

References

Chapter24. Smart corrosion inhibitor: Present status and future scenario

Abstract

24.1 Introduction

24.2 Controlled release inhibitor

24.3 pH-responsive inhibitor

24.4 Ion exchange inhibitor

24.5 Other smart inhibitor

Summary and future scenario

References

Chapter 25. Controllable fabrication of carbon dots based corrosion inhibitors with fluorescence properties

Abstract

25.1 Corrosion inhibitor used for metal protection

25.2 Introduction of carbon dots

25.3 Synthetic strategies of CDs

25.4 Corrosion inhibition performance of CDs

Useful links

References

Chapter 26. Computational methods used in corrosion inhibition research

Abstract

26.1 Introduction

26.2 Conceptual density functional theory (CDFT)

26.3 Some electronic structure principles and rules for corrosion inhibition research

26.4 Molecular dynamics and Monte Carlo simulations approaches in corrosion science

26.5 The application of first-principles calculation approach

Conclusions

References

Chapter 27. Corrosion inhibition strategy: Synergistic effects

Abstract

27.1 Problems and challenges in the study of synergistic effect of corrosion inhibitors

27.2 Advances of synergistic effect

27.3 Advances in theoretical research on synergistic effect of corrosion inhibitors

27.4 Significance and prospect of synergistic effect of corrosion inhibitor

References

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Tags: Lei Guo, Chandrabhan Verma, Dawei Zhang, Eco Friendly, Corrosion Inhibitors