LNG Tank Full Containment: NFPA 59A, BLEVE Risk and Impoundment

LNG (-162 C methane) storage tanks are designed per NFPA 59A and EN 1473 for fire and BLEVE risk. Full containment tanks use 9 percent Ni steel inner and pre-stressed concrete outer wall to contain leaks and radiation. FSRU, LNG terminals and peak-shaver plants follow the same principles.

Tank Types

• Single containment: single wall + external bund - legacy design
• Double containment: two tanks, outer holds liquid only
• Full containment: outer tank holds both liquid and vapor (modern)
• Membrane: Invar wall + concrete shell (GTT)
• Cover: concrete dome - radiation shield

BLEVE and RPT Risk

• BLEVE: pressurized liquid explosion - low for atmospheric LNG
• RPT (Rapid Phase Transition): LNG-water contact - physical explosion
• Pool fire: liquid pool fire - SEP 220 kW/m2
• Flash fire: vapor-cloud ignition - low overpressure
• Rollover: stratification breakdown - sudden flash

Impoundment Area

180,000 m3 tank, 100 percent capacity impoundment:

• Concrete bund height: per liquid volume
• Distance: tank half-diameter + 15 m
• Insulating concrete: -162 C durability
• Drainage: rainwater drain auto-valve
• Vapor fence: 4 m height, flame trap

Firewater System

• Deluge: tank shell 10.2 L/min/m2 (NFPA 15)
• High-expansion foam: vapor suppression, 1000:1 expansion
• Monitor: 4,000 L/min, 60 m range
• Dry chemical: 3,000 kg PKP for methane jet
• Water pond: 12,000 m3 seawater reservoir

Vapor Cloud Analysis

• Dispersion: PHAST, FLACS CFD modeling
• LFL: 5 percent (50,000 ppm)
• Hazard distance: 1/2 LFL boundary
• Exclusion zone: NFPA 59A Part 5 - no occupancy
• Flammable vapor fence: delay and dilution

LNG tanks with SprinkCalc

SprinkCalc computes LNG deluge design, impoundment sizing, firewater flow and vapor-cloud exclusion zone per NFPA 59A / EN 1473.

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