project, covering both FEED and EPCI phases:
1. Design and optimize LNG cargo handling systems, including loading/unloading systems, pumps, compressors, and vaporizers, ensuring compliance with international standards and project requirements.
2. Develop comprehensive piping systems for LNG transfer, boil-off gas management, and fuel gas supply, considering cryogenic temperatures and material compatibility.
3. Design and integrate HVAC systems specifically tailored for LNG tankers, addressing the unique challenges of maintaining proper ventilation and temperature control in various ship areas.
4. Perform thermal and stress analyses on cryogenic equipment and piping systems, ensuring safe operation under various loading and environmental conditions.
5. Develop detailed P&IDs (Piping and Instrumentation Diagrams), equipment layouts, and 3D piping models for the LNG tanker, optimizing space utilization and system efficiency.
6. Specify and select appropriate materials, valves, and equipment for mechanical and piping systems, considering the corrosive marine environment and extreme temperature ranges.
7. Collaborate with other engineering disciplines to ensure proper integration of mechanical, piping, and HVAC systems with the hull design, electrical systems, and control systems.
8. Oversee the installation, testing, and commissioning of mechanical, piping, and HVAC systems during construction and sea trials, ensuring compliance with design specifications and regulatory requirements.