Cathodic corrosion protection systems a guide for oil and gas industries
Corrosion is a naturally occurring cost, worth billions in the oil and gas sector. New regulations, stiffer penalties for non-compliance and aging assets are all leading companies to develop new technology, procedures and bigger budgets catering to one prevailing method of prevention, cathodic prot...
| Otros Autores: | |
|---|---|
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Waltham, Massachusetts :
Elsevier
2014.
|
| Edición: | 1st edition |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009629634306719 |
Tabla de Contenidos:
- Front Cover; Cathodic Corrosion Protection Systems: A Guide for Oil and Gas Industries; Copyright; Dedication; Contents; Biography; Preface; Acknowledgments; 1 - Principle of Electrochemical Corrosion and Cathodic Protection; 1.1 Behavior of Buried or Immersed Metals in the Absence of CP; 1.2 Cathodic Protection; 1.3 Considerations Applicable to Most Types of Structures; 1.4 Safety Aspects; 2 - Application of Cathodic Protection; 2.1 Criteria for Cathodic Protection; 2.2 Buried Pipes; 2.3 Tanks Exteriors; 2.4 Submerged Pipelines; 2.5 Offshore Structures and Ship Hulls
- 2.6 Tank, Pipe, and Water Box Interiors2.7 Well Casings; 2.8 Types of Cathodic Protection Systems; 2.9 Equipment and Facilities for Impressed Current Systems; 2.10 Cathodic Protection of Buried Steel Pipes; 2.11 Cathodic Protection In-Plant Facilities; 2.12 Cathodic Protection of Vessel and Tank Internals; 2.13 Cathodic Protection of Marine Structures; 2.14 Anodic Protection; 3 - Design Considerations on Cathodic Protection for Buried Pipelines and Marine Structures; 3.1 Principles of Cathodic Protection; 3.2 Methods of Applying Cathodic Protection; 3.3 Protection Potentials
- 3.4 Current Density3.5 Coatings; 3.6 Calcareous Scales; 3.7 Choice of a Cathodic-Protection System; 3.8 Anode Resistance; 3.9 Impressed-Current System; 3.10 Galvanic Anode System; 3.11 Design Principle of Cathodic Protection for Marine Structures; 3.12 Anode Location; 3.13 Anodic Protection; 4 - Materials and Cathodic Protection Systems; 4.1 Impressed Current Anodes; 4.2 Manufacturing of Materials; 4.3 Anode Casting; 4.4 Lead Wire-to-Anode Connection; 4.5 Anode Lead Wire; 4.6 Properties; 4.7 Dimensions and Weights; 4.8 Carbonaceous Backfill for Impressed Current Anodes
- 4.9 Galvanic Anodes for Underground Applications (Magnesium and Zinc)4.10 Chemical Backfill for Galvanic Anodes; 4.11 Method for the Determination of the Anode-to-Core Resistance of Galvanic Anodes; 4.12 Galvanic Anodes for Submerged Applications (Magnesium and Zinc); 4.13 Method for the Determination of the Anode-to-Core Resistance of Galvanic Anodes; 4.14 Bracelet-Type Galvanic Anodes for Submarine Pipelines (Aluminum and Zinc); 4.15 Anode Core Steel Works; 4.16 Method for the Determination of the Anode-to-Core Resistance of Galvanic Anodes
- 4.17 Method for the Determination of the Consumption Rate of Aluminum Anode Alloys Immersed in Seawater4.18 Method for the Determination of the Closed-Circuit Potential of Aluminum Anodes Immersed in Seawater; 4.19 Cast Galvanic Anodes for Fixed Offshore Installations (Aluminum); 4.20 Requirements; 4.21 CP Cables; 4.22 Specific Cable Requirements; 4.23 Quality Assurance Provisions; 4.24 Tests; 4.25 Fabrication and Inspection of Monolithic Insulating Joints; 4.26 Approved Welding Processes; 4.27 Coating; 4.28 Quality Assurance Provisions; 4.29 Tests; 4.30 Flange Insulation Kit
- 4.31 Polypropylene Rope
