Introduction:

Maintenance and reliability engineering in liquefied natural gas (LNG) operations involve structured methods for sustaining system availability, minimizing asset degradation, and supporting high risk process continuity. These frameworks integrate reliability centered logic, diagnostic modeling, and lifecycle coordination tailored to LNG infrastructure. This training program presents engineering principles, system classification models, and control structures that guide advanced maintenance and reliability management within LNG facilities.

Program Objectives:

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

• Identify structured maintenance and reliability functions specific to LNG environments.

• Outline models for classifying LNG systems based on reliability and criticality.

• Classify diagnostic and lifecycle evaluation methods used in LNG asset management.

• Explore engineering frameworks supporting failure analysis and reliability tracking.

• Evaluate governance structures used to align maintenance strategies with LNG operational demands.

Targeted Audience:

• Maintenance and Reliability Engineers in LNG facilities.

• LNG Plant Operations and Asset Management Staff.

• Technical Supervisors and Engineering Coordinators.

• Risk and Reliability Planning Officers.

• LNG System Strategy and Oversight Teams.

Program Outline:

Unit 1:

Maintenance and Reliability Functions in LNG Infrastructure:

• Core principles of maintenance engineering in LNG systems.

• Institutional definitions of reliability and maintainability in process facilities.

• Categories of maintenance within LNG asset environments.

• Planning structures for availability, redundancy, and performance stability.

• Alignment of maintenance systems with LNG operational conditions.

Unit 2:

Classification Models for Critical LNG Systems:

• System segmentation based on functional hierarchy and process exposure.

• Risk based classification principles of LNG equipment and subsystems.

• Reliability modeling techniques by failure probability and process dependency.

• How to structure redundancy and critical path elements.

• Documentation standards for system classification in LNG contexts.

Unit 3:

Diagnostic Systems and Lifecycle Coordination:

• Condition based monitoring frameworks in LNG facilities.

• Structured evaluation criteria of LNG system degradation trends.

• Methods for mapping lifecycle performance curves.

• Predictive modeling techniques of failure progression based on system category.

• Integration process of diagnostic outputs into maintenance cycles.

Unit 4:

Reliability Engineering and Analytical Models:

• Importance of using fault tree and failure mode analysis in LNG reliability planning.

• Modeling system performance consistency and degradation patterns.

• Root cause categorization measures for high impact process failures.

• Evaluation criteria of repair intervals and technical failure tracking.

• Importance of applying structured reliability metrics for LNG systems.

Unit 5:

Governance, Compliance, and Maintenance Oversight:

• Institutional policies guiding maintenance and reliability functions.

• Standards compliance relevant to LNG plant operations.

• Oversight on frameworks for performance reporting and technical audits.

• Governance roles in integrating reliability strategies with plant objectives.

• Coordination structures for aligning engineering planning with risk protocols.