Kam. Apr 18th, 2024

CATHODIC PROTECTION AND CORROSION CONTROL

Materi

  • Characteristics of the Corrosion Cells and Corrosion Mechanism of Underground Pipeline and Onshore Surface Facility
  • Physical & Metallurgical Conditions of Pipeline Metals and Chemical Composition of Soil & Water that Promote Corrosion
  • Soil Corrosiveness Parameters, its Measurement Technique, Devices, Analysis and Interpretation of the Results
  • Cathodic Protection Criteria and the NACE Standard and Recommended Practice for Underground Onshore Pipeline
  • NACE Standard and Recommended Practice for Application of Coating and Wrapping Materials for Underground Onshore Pipeline
  • Selection of Cathodic Protection System to be Applied, Design Calculation and Choice of the Anode
  • Consideration in the use of Sacrificial Anode or Impressed Current Anode
  • Choice of Additional Materials to be used in Cathodic Protection Installation
  • Practical Approach to Avoid Cathodic Protection Current Interference and Stray Current Damage
  • Cathodic Protection Criteria and the NACE Standard & Recommended Practice for Offshore Platform, Pipeline, Facility and Structure
  • Seawater Corrosiveness Parameters, its Measurement Technique, Devices, Analysis and Interpretation of the Results
  • NACE Standard and Recommended Practice for Application of Coating, Lining and Cladding Materials
  • Selection of Paint & Coatings Systems and its Application for Marine Atmospheric Corrosion of the Topside Structure
  • Selection of Paint & Coatings Systems and its Application for the Very Corrosive Splash Zone
  • Selection of Coatings System and its Application for Underwater Pile and Structure
  • Selection of the Sacrificial Anode, Design Calculation and the Anode Location for Under Water Application
  • The use of Bracelet Type Anode and the Extra Protection to Resist Concrete Casing Corrosion
  • NACE Standard and Recommended Practice for Industrial Corrosion Control
  • Soil & Water Resistivity, its Measurement Technique, Devices, Analysis and Interpretation of the Results
  • Coating Resistance, Coating Defect and the use of Coating Parameter for SACP Design
  • Potential Measurement Technique, Devices, Half-Cell & Materials, Analysis and Interpretation of the Results
  • Measurement Technique and Practical Guidelines for Determination of Protection Current Requirement
  • Practical Measurement Technique to Test Individual Anode Condition and Anode Ability to Transmit Protection Current before Purchasing
  • Design of SACP Backfill, Cable Connection, Test Post and Potential & Current Monitoring Point
  • Inspection Technique, Monitoring, Maintenance and Evaluation of SACP Performance
  • Determination of Protection Current Requirement and Location of the Remote Anode System
  • Design Calculation for the Application of Transformer/Rectifier and the Prevention of Over Protection
  • Practical Guidelines for the Selection of Effective ICCP Anode Type and Material
  • Design Calculation of Transformer/Rectifier and the ICCP Electrical Component and the Prevention of Coating Damage
  • Design of ICCP Ground Bed, Cable Connection, Test Post and Potential & Current Monitoring Point
  • Inspection Technique, Monitoring, Adjustment and Evaluation of ICCP Performance
  • Anticipating ICCP Failure or Damage due to Foreign Pipeline Crossing
  • Anticipating Hazard in Working with Transformer/Rectifier ICCP

 

Waktu & Tempat

Hari/Tanggal     : 17 – 19 April 2017

Pukul                : 08.00 – 16.00 WIB

Tempat             : Bandung

Informasi
Kontak Dago Consultant

 

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