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Ideal for engineers, technicians, and operators who require knowledge of CP techniques, through to more in-depth technical detail, plus an understanding of likely problem areas and an appreciation of cathodic protection methodology.
Ideal for engineers, technicians, and operators who require knowledge of CP techniques, through to more in-depth technical detail, plus an understanding of likely problem areas and an appreciation of cathodic protection methodology.
Basics of corrosion; terminology, electrode potential, reference cells polarisation diagrams, electrolytes (soil/water composition), methods of controlling corrosion, principles of coating of buried and immersed structures, sacrificial anode systems, impressed current systems; typical designs of CP system, CP materials, potential measurements; monitoring and maintenance.
Candidates should have a practical background in electricity, corrosion technology or engineering with a minimum of one year of relevant experience and must have successfully completed an approved course of training in cathodic protection at the appropriate level.
Ideal for engineers, technicians, and operators who require knowledge of CP techniques, through to more in-depth technical detail, plus an understanding of likely problem areas and an appreciation of cathodic protection methodology.
In addition to the knowledge of a Level I Engineer: criteria for CP and their limitations; Pourbaix diagram interpretation; surface film effects; polarisation diagrams; CP design considerations for sacrificial anode and impressed current systems; construction materials specification and quality control; safety considerations, attenuation calculations; commissioning a CP system; potential measurements.
Candidates should be qualified to Level 1 and subsequently have a minimum of one year of experience in cathodic protection or have a practical background in electricity, corrosion technology or engineering with a minimum of two years of experience in cathodic protection.
Candidates from either route must have successfully completed an approved course of training in cathodic protection at the appropriate level.
Ideal for engineers, technicians, and operators who require knowledge of CP techniques, through to more in-depth technical detail, plus an understanding of likely problem areas and an appreciation of cathodic protection methodology.
In addition to the knowledge of a Level II Engineer: problem areas and trouble shooting of CP systems, investigation of testposts or stations, insulating flanges and monoblocks; cased crossings; low potential readings; interference effects and mitigation. AC interference, DC interference, earthing structures; coatings and CP electro osmosis; holiday detection.
Candidates should be qualified to Level 2 and subsequently have a minimum of two years of experience in cathodic protection or have a practical background in electricity, corrosion technology or engineering with a minimum of three years of experience in cathodic protection.
Candidates from either route must have successfully completed an approved course of training in cathodic protection at the appropriate level.
A mature candidate route offering exemption from formal training is available for Level 2 and Level 3 candidates who are able to demonstrate at least three and five years respectively of recent continuous experience in cathodic protection.