BS EN 12954:2019
$167.15
General principles of cathodic protection of buried or immersed onshore metallic structures
| Published By | Publication Date | Number of Pages |
| BSI | 2019 | 44 |
This document describes the general principles for the implementation and management of a system of cathodic protection against corrosive attacks on structures which are buried or in contact with soils, surface fresh waters or underground waters, with and without the interference of external electrical sources. It specifies the protection criteria to be achieved to demonstrate the cathodic protection effectiveness. For structures that cannot be electrically isolated from neighbouring influencing structures, it may be impossible to use the criteria defined in the present document. In this case, EN 14505 will be applied (see 9.4 “Electrical continuity/discontinuity”). To assist in forming a decision whether or not to apply cathodic protection the corrosion likelihood can be evaluated using Annex A. Annex A summarizes the requirements of EN 12501-1 [2] and EN 12501-2 [3]. Cathodic protection of structures immersed in seawater is covered by EN 12473 and a series of standards more specific for various applications. Cathodic protection for reinforced concrete structures is covered by EN ISO 12696. This document is applicable in conjunction with: – EN ISO 15589-1 for application for buried or immersed cathodically pipelines, – EN 50162 to manage d.c. stray currents, – EN ISO 18086 to manage corrosion due to a.c. interference from high voltage power sources and a.c. traction systems, – EN 13509 for cathodic protection measurement techniques – EN 50443 to manage protection for touch and step voltage.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 2 | National foreword |
| 8 | 1 Scope 2 Normative references |
| 9 | 3 Terms and definitions |
| 15 | 4 Abbreviations and symbols 5 Cathodic protection personnel competence |
| 16 | 6 Principles and criteria of cathodic protection 6.1 Principles of cathodic protection 6.2 Cathodic protection criteria |
| 18 | 6.3 Alternative method 6.3.1 100 mV cathodic potential shift |
| 19 | 6.3.2 Other methods 6.4 Criteria in presence of a.c 7 Prerequisites for application of cathodic protection 7.1 General 7.2 Electrical continuity 7.3 Electrical isolation |
| 20 | 7.4 External coating 8 Useful data and design considerations 8.1 General |
| 21 | 8.2 Structure details 8.3 Service conditions |
| 22 | 9 Design 9.1 General 9.2 Design lifetime 9.3 Adjacent structures and external electrical sources 9.4 Electrical continuity/discontinuity |
| 23 | 9.5 Protective coatings 9.6 Current demand |
| 24 | 9.7 Galvanic anode systems 9.7.1 General considerations 9.7.2 Utilization of galvanic anode systems 9.7.3 Design of a galvanic anode system |
| 25 | 9.7.4 Technical considerations and data for the design of a galvanic protection system 9.7.4.1 Anode materials |
| 29 | 9.7.4.2 Shape and size of galvanic anodes 9.7.4.3 Anode location and backfill |
| 30 | 9.8 A.C. and/or d.c. decoupling devices 9.9 Impressed current cathodic protection (ICCP) system |
| 31 | 9.10 Monitoring 9.11 Cable |
| 32 | 9.12 Impressed current groundbeds |
| 33 | 10 Installation of cathodic protection systems 11 Commissioning 11.1 General 11.2 Preliminary checking |
| 34 | 11.3 Start-up 11.4 Assessment of the cathodic protection effectiveness |
| 35 | 11.5 Documentations 12 Monitoring, inspection and maintenance 12.1 General |
| 36 | 12.2 Monitoring |
| 37 | 12.3 Inspection 12.4 Maintenance |
| 38 | Annex A (informative)Corrosion likelihood in soils |
| 40 | Annex B (informative)Reduction of the corrosion rate by using a 100 mV cathodic polarization — 100 mV cathodic potential shift B.1 Measurement method during polarization |
| 41 | B.2 Measurement method during depolarization |
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BS EN 12954:2019 – TC:2020 Edition
Tracked Changes. General principles of cathodic protection of buried or immersed onshore metallic structures Published…
