Edition |
Second edition. |
Description |
1 online resource (1 volume.) |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
Series |
European Federation of Corrosion publications
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Note |
Includes index. |
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Print version record. |
Contents |
Intro -- Corrosion in Amine Treating Units -- Copyright -- Contents -- European Federation of Corrosion publications: Series introduction -- Volumes in the EFC series -- Chapter 1: Introduction -- 1.1. Introduction -- Chapter 2: Introduction to amine sweetening processes -- 2.1. Introduction -- 2.2. Alkanolamine process -- 2.3. Amine process chemistry -- 2.4. Amine solvent technology evolution -- 2.4.1. Triethanolamine (TEA) -- 2.4.2. Monoethanolamine (MEA) -- 2.4.3. Diglycolamine (DGA) -- 2.4.4. Diethanolamine (DEA) -- 2.4.5. Diisopropanolamine (DIPA) -- 2.4.6. Methyldiethanolamine (MDEA) -- 2.5. Review of new technology and design improvements -- 2.6. Summary -- References -- Chapter 3: Corrosion and degradation mechanisms -- 3.1. Introduction -- 3.2. Main degradation mechanisms -- 3.2.1. Amine corrosion -- 3.2.2. Erosion-corrosion -- 3.2.3. Wet CO2, wet H2S, light organic acids (acetic/formic) corrosion -- 3.2.4. Ammonium-bisulfide (NH4HS) corrosion -- 3.2.5. Stress corrosion cracking and localized corrosion -- 3.2.5.1. Amine stress corrosion cracking (ASCC) of C-steel -- 3.2.5.2. Carbonate SCC -- 3.2.5.3. ``Wet H2S service´´ (``sour service´´) -- 3.2.5.4. Chloride induced localized corrosion of stainless steels -- 3.2.6. Cold brittle fracture -- 3.2.7. External corrosion and corrosion under insulation -- References -- Chapter 4: Integrity operating windows, inspection, and corrosion monitoring -- 4.1. Integrity operating windows (IOWs) -- 4.2. Inspection -- 4.3. Corrosion monitoring -- Chapter 5: Corrosion and corrosion control in amine units-Corrosion loop descriptions -- 5.1. Corrosion loop -- 5.2. System (systemization) -- 5.3. Corrosion loop 0: Feed section -- 5.3.1. Degradation mechanisms -- 5.3.2. Material of construction -- 5.3.3. Typical IOWs -- 5.4. Corrosion loop 1: Cold rich amine -- 5.4.1. Degradation mechanisms. |
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5.4.2. Construction materials -- 5.4.3. Typical IOWs -- 5.4.4. Example of inspection techniques -- 5.5. Corrosion loop 2: Hot rich amine -- 5.5.1. Degradation mechanisms -- 5.5.2. Typical IOWs -- 5.5.3. Example of inspection techniques -- 5.6. Corrosion loop 3: Amine regenerator overhead system -- 5.6.1. Degradation mechanisms -- 5.6.2. Typical materials of construction -- 5.6.3. Typical IOWs -- 5.6.4. Example of inspection techniques -- 5.7. Corrosion loop 4: Hot lean amine -- 5.7.1. Degradation mechanisms -- 5.7.2. Typical IOWs -- 5.7.3. Example of inspection techniques: -- 5.8. Corrosion loop 5: Cool lean amine -- 5.8.1. Degradation mechanisms -- 5.8.2. Materials of construction -- 5.8.3. Solvent quality -- 5.8.4. Example of inspection techniques -- 5.9. Corrosion loop 6: Treated gas/absorber overhead system -- 5.9.1. Degradation mechanisms -- 5.9.2. Materials of construction -- 5.9.3. Typical IOWs -- 5.9.4. Example of inspection techniques -- 5.10. Corrosion loop 7: Reclaimer circuit -- Chapter 6: Inhibition in amine service -- Chapter 7: Corrosion modeling in lean and rich amine systems -- 7.1. Introduction -- 7.2. Modeling approach -- 7.2.1. Wall shear stress (WSS) -- 7.2.2. Iso-corrosion diagrams -- 7.2.3. Correction factors for process parameters -- 7.3. High level analytics in prediction systems -- 7.4. Corrosion prediction in real time and ``software´´ sensor concept -- References -- Chapter 8: Coatings in amine systems -- 8.1. Paint coating systems -- 8.2. Thermal sprayed metal coatings -- 8.2.1. Electric arc wire spray coatings for protection against amine corrosion -- References -- Chapter 9: Amine corrosion-Literature survey (1999-2016) -- 9.1. Amine corrosiveness -- 9.1.1. MEA -- 9.1.2. DEA -- 9.1.3. DGA -- 9.1.4. MDEA/MDEA+DEA -- 9.1.5. Special solvents -- 9.1.6. Areas of corrosion concern, materials and monitoring -- References. |
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Chapter 10: Amine corrosion industry experience survey 2019 -- 10.1. Survey results review-Corrosion and corrosiveness in specific amine unit circuits -- 10.1.1. Feed section -- 10.1.1.1. Materials of constructions (MOC) -- 10.1.1.2. Corrosion issues -- 10.1.2. Absorber bottom section and rich amine circuit -- 10.1.2.1. Materials of constructions (MOC) -- 10.1.2.2. Corrosion issues -- 10.1.3. Rich amine feed, lean/rich exchanger and regenerator feed section -- 10.1.3.1. Materials of constructions (MOC) -- 10.1.3.2. Corrosion issues -- 10.1.4. Regenerator top and OVHD -- 10.1.4.1. Materials of constructions (MOC) -- 10.1.4.2. Corrosion issues -- 10.1.5. Regenerator bottom and reboiler section -- 10.1.5.1. Materials of constructions (MOC) -- 10.1.5.2. Corrosion issues -- 10.1.6. Lean amine to absorber -- 10.1.6.1. Materials of constructions (MOC) -- 10.1.6.2. Corrosion issues -- 10.1.7. Absorber OVHD -- 10.1.7.1. Materials of constructions (MOC) -- 10.1.7.2. Corrosion issues -- Summary -- Further reading -- Appendix A -- A. Amine corrosion industry experience survey 2007 -- A.1. Experiences of ten plants using methyldiethanolamine -- A.2. Experiences of 21 plants using diethanolamine -- A.3. Experiences of four plants using monoethanolamine -- A.4. Experiences of one plant using diisopropanolamine -- Index. |
Subject |
Desulfurization -- Equipment and supplies -- Corrosion.
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Steel -- Corrosion.
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Steel -- Corrosion -- Prevention.
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Desulfurization.
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Acier -- Corrosion.
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Désulfuration.
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Desulfurization
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Steel -- Corrosion
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Steel -- Corrosion -- Prevention
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Added Author |
Roij, Johan van, editor.
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Other Form: |
Print version: Corrosion in amine treating units. Second edition. Oxford : Woodhead Publishing, 2021 9780323915496 (OCoLC)1263794444 |
ISBN |
9780323915502 (electronic bk.) |
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0323915507 (electronic bk.) |
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9780323997249 |
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0323997244 |
Standard No. |
AU@ 000070531596 |
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