Location:
Egypt
Project Type:
LPG Storage Tanks
Scope:
Engineering, Procurement and Construction
LPG storage facility comprising three spherical tanks with a total capacity of 3 × 2,000 m³, designed for safe storage of liquefied petroleum gas under pressurized conditions. The system operates at typical pressures of 12–18 bar, with a design pressure up to 25 bar, ensuring safe operation under varying ambient temperatures.
The facility is engineered in accordance with ASME Section VIII, API 620, and NFPA 58 requirements, ensuring high structural integrity, operational safety, and long-term reliability.
The storage system utilizes spherical tank design, providing optimal stress distribution and structural efficiency for pressurized LPG storage. Tanks are fabricated from high-strength welded steel in compliance with ASME and EN pressure vessel standards, ensuring leak-tight performance and durability.
The system incorporates pressure control, safety relief devices in accordance with ISO 4126, level monitoring, and emergency shutdown systems, ensuring safe operation and protection against overpressure scenarios. Process piping is designed in line with ASME B31.3, ensuring reliable and safe hydrocarbon handling.
The design supports continuous operation with high reliability, operational flexibility, and ease of maintenance.
Technical Parameters:
Storage type: Spherical LPG tanks designed in accordance with ASME Section VIII
Capacity: 3 × 2,000 m³
Product: Liquefied Petroleum Gas (LPG)
Operating pressure: 12–18 bar
Design pressure: up to 25 bar (as per ASME/API requirements)
System configuration: Pressurized storage facility compliant with NFPA 58
Operation mode: Continuous duty
Full EPC execution in accordance with international oil & gas standards (ASME, API, NFPA)
Safe LPG storage with compliance to pressure vessel and fire protection requirements
Reliable operation under variable temperature and pressure conditions
High level of process safety ensured through certified design and protection systems
Long-term structural integrity and reduced operational risks
Enhanced reliability of energy storage infrastructure
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