Advanced Process Equipment and Piping Systems

Introduction:

Advanced process equipment and piping systems represent the institutional frameworks that govern the design, operation, and integration of critical components in industrial facilities. Their importance lies in ensuring safety, efficiency, and compliance with engineering codes and international standards. This training program reflects the structured methods that link equipment design, piping system layout, and maintenance frameworks for operational continuity. It also presents models, strategies, and institutional structures that define advanced equipment and piping governance, design principles, and lifecycle management.

Program Objectives:

By the end of this program, participants will be able to:

• Analyze institutional foundations of process equipment and piping systems.

• Evaluate frameworks for designing and specifying advanced process equipment.

• Classify models for piping system design, layout, and integration.

• Assess institutional approaches to operation, maintenance, and reliability.

• Examine governance structures linking safety, compliance, and lifecycle management.

Target Audience:

• Process engineers and mechanical engineers.

• Maintenance and reliability engineers.

• Plant operators and technicians.

• Project managers and design engineers.

• Professionals involved in the design, operation, and maintenance process..

Program Outline:

Unit 1:

Fundamentals of Process Equipment and Piping Systems:

• Institutional role of process equipment in industrial facilities.

• Structural overview of piping systems and their components.

• Material selection frameworks for equipment and piping reliability.

• Foundational models of fluid dynamics and thermodynamics.

• Governance of international standards and codes for design and operation.

Unit 2:

Design and Specification of Process Equipment:

• Structural considerations in designing equipment such as heat exchangers, pumps, and compressors.

• Models of sizing and selection criteria for process equipment.

• Institutional approaches to equipment layout and piping arrangements.

• Governance measures of pressure vessel design and ASME code requirements.

• Frameworks for using computational tools and engineering software.

Unit 3:

Piping System Design and Layout:

• Institutional principles and models of piping system design.

• Structures for piping stress analysis and flexibility evaluation.

• Governance frameworks for pipe supports and hanger systems.

• Role of isometric drawings and interpretation methods.

• Models linking piping systems with equipment integration.

Unit 4:

Operation and Maintenance of Process Equipment:

• Frameworks of operating principles for process equipment.

• Models of maintenance strategies supporting equipment reliability.

• Structures for predictive and preventive maintenance governance.

• Institutional approaches to identifying and analyzing operational issues.

• Documentation and monitoring frameworks supporting maintenance oversight.

Unit 5:

Safety, Compliance, and Lifecycle Governance:

• Frameworks for safety standards in equipment and piping.

• Governance of compliance with ASME, API, and international codes.

• Models of lifecycle management for process equipment and piping systems.

• Structures integrating safety, reliability, and environmental sustainability.

• Institutional approaches to accountability and continuous improvement.