Pilihan Kota Training di Surabaya, Bandung, Yogyakarta, Jakarta, Malang, Balikpapan, Bali, Lombok, Batam, Semarang, Solo, Medan dan kota lain
Jadwal Training 23-25 Februari 2016 di Jakarta
PENDAHULUAN
Apilkasi yang sukses dalam system proteksi katodik membutuhkan tenaga kerja, peralatan & sumber daya. Pengetahuan & pengalaman sangat penting untuk mendapatkan hasil yang diinginkan di lapangan. Pelatihan ini akan membekali peserta mengenai pengetahuan praktis dalam menangani korosi khususnya penyebab external.
Aplikasinya dalam perminyakan akan lebih luas lagi yaitu pada tangki minyak, instalasi pipa & instalasi lainnya. Sedangkan aplikasi dalam manufactur & pertambangan dapat berupa perlindungan terhadap struktur baja, hopper (steel silo) dll, dan pendukung (tangki minyak bahan bakar, dermaga, kapal pengangkut, pipa air & minyak).
Pelatihan ini akan membekali peserta mengenai pengetahuan praktis dalam menangani korosi khususnya penyebab external., bagaimana memilih dan menerapkan cat dan pelapis untuk layanan atmosfer, pembungkus bahan untuk layanan bawah tanah dan bawah air, teknik khusus dan bahan untuk zona laut dan splash lingkungan korosif, dan pendekatan praktis yang sederhana untuk merancang dan menerapkan proteksi katodik untuk aplikasi daratan dan lepas pantai.
Apilkasi yang sukses dalam system proteksi katodik membutuhkan tenaga kerja, peralatan & sumber daya. Pengetahuan & pengalaman sangat penting untuk mendapatkan hasil yang diinginkan di lapangan. Pelatihan ini akan membekali peserta mengenai pengetahuan praktis dalam menangani korosi khususnya penyebab external.
Aplikasinya dalam perminyakan akan lebih luas lagi yaitu pada tangki minyak, instalasi pipa & instalasi lainnya. Sedangkan aplikasi dalam manufactur & pertambangan dapat berupa perlindungan terhadap struktur baja, hopper (steel silo) dll, dan pendukung (tangki minyak bahan bakar, dermaga, kapal pengangkut, pipa air & minyak).
Pelatihan ini akan membekali peserta mengenai pengetahuan praktis dalam menangani korosi khususnya penyebab external., bagaimana memilih dan menerapkan cat dan pelapis untuk layanan atmosfer, pembungkus bahan untuk layanan bawah tanah dan bawah air, teknik khusus dan bahan untuk zona laut dan splash lingkungan korosif, dan pendekatan praktis yang sederhana untuk merancang dan menerapkan proteksi katodik untuk aplikasi daratan dan lepas pantai.
GARIS BESAR PROGRAM
• 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
• 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
• 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
PENYELENGGARAAN
• TGL 23 – 25 FEBRUARI 2016
• Hotel Dreamtel Jakarta Pusat
• Jl Johar no. 17 – 19 Menteng Jakarta Pusat
• TGL 23 – 25 FEBRUARI 2016
• Hotel Dreamtel Jakarta Pusat
• Jl Johar no. 17 – 19 Menteng Jakarta Pusat
INVESTASI PELATIHAN
•Rp.6,400.000,-/peserta
•Termasuk: Modul (hardcopy materi), Flashdisk(softcopy materi), ATK Peserta, Tas(Backpack) atau Bolpoint PARKER, Sertifikat, Makan Siang(3x), Coffee Break, Instruktur yang berkualitas, Pre Test dan Post Test
•Harga belum termasuk penginapan dan pajak (apabila minta faktur pajak)
•Rp.6,400.000,-/peserta
•Termasuk: Modul (hardcopy materi), Flashdisk(softcopy materi), ATK Peserta, Tas(Backpack) atau Bolpoint PARKER, Sertifikat, Makan Siang(3x), Coffee Break, Instruktur yang berkualitas, Pre Test dan Post Test
•Harga belum termasuk penginapan dan pajak (apabila minta faktur pajak)