This program is designed to provide the participant with a complete, comprehensive, simplified, and practical understanding of the ASME B31 Code with reference to Existing Petroleum Process Piping Inspection, Maintenance, Repair, and Integrity.
ASME PCC-2 provides methods for repair of equipment, piping, pipelines, and associated ancillary equipment within the scope of ASME Pressure Technology Codes and Standards after it has been placed in service. These repair methods include relevant design, fabrication, examination, and testing practices and may be temporary or permanent, depending on the circumstances. The methods provided in this Standard address the repair of components when a repair is deemed necessary based on appropriate inspection and flaw assessment. These inspection and flaw evaluation methods are not covered in this document but are covered in other post-construction codes and standards. Only technical procedures and information are provided; administrative or policy requirements are outside of the scope of this Standard.
A five-day course on the practical aspects of piping and pipeline design, integrity, maintenance, and repair. The participants will obtain an in-depth understanding of the ASME B31 code rules and API standards, their technical basis, and practical application to field conditions.
This program is designed to provide the participant with a complete, comprehensive, simplified, and practical understanding of the ASME B31 Code with reference to Existing Petroleum Process Piping Inspection, Maintenance, Repair, and Integrity.
A five-day course on the practical aspects of piping and pipeline design, integrity, maintenance, and repair. The participants will obtain an in-depth understanding of the ASME B31 code rules and API standards, their technical basis, and practical application to field conditions.
The ASME Plant Inspector Level 1 training course provides the fundamental principles of the inspection, assessment, and management of fixed pressure equipment. The content of the course is delivered in a systematic manner, from the inspection planning process to inspection practices and evaluation of the associated equipment. It is aimed at the upstream and downstream Petrochemical industry but is equally relevant to stakeholders from other sectors that utilize pressure equipment. This intensive course covers the in-service inspection methodologies and requirements for piping, pressure vessels, and above ground storage tanks.
ASME Plant Inspector Level 1 Course provides the fundamental principles of the inspection, assessment, and management of fixed pressure equipment. The content of the course is delivered in a systematic manner, from the inspection planning process to inspection practices and evaluation of the associated equipment. It is aimed at the upstream and downstream Petrochemical industry but is equally relevant to stakeholders from other sectors that utilize pressure equipment.
ASME PCC-2 provides methods for repair of equipment, piping, pipelines, and associated ancillary equipment within the scope of ASME Pressure Technology Codes and Standards after it has been placed in service. These repair methods include relevant design, fabrication, examination, and testing practices and may be temporary or permanent, depending on the circumstances. The methods provided in this Standard address the repair of components when a repair is deemed necessary based on appropriate inspection and flaw assessment. These inspection and flaw evaluation methods are not covered in this document but are covered in other post-construction codes and standards. Only technical procedures and information are provided; administrative or policy requirements are outside of the scope of this Standard.
Pressure equipment such as boilers, pressure vessels, heat exchangers, pressure piping, and associated safety equipment are widely used in many industries (e.g., hydrocarbon processing, chemical, power, pharmaceutical, and manufacturing). Pressure vessels and piping store energy and potentially hazardous fluids and thus have inherent safety risks. Pressure equipment designs are performed in compliance with applicable Regulations, Codes, and Standards and follow sound engineering practices to ensure structural integrity and safeguard public safety. The design covers material selection, stress analysis, fabrication, testing, inspection, operation and failure analysis, codes, standards, and regulations.