46 C.F.R. § 54.15-25
(c)
(1) The rate of discharge for heat input of fire must meet the following formula:
Formula 1 to § 54.15-25(c)(1)
Q = FGA 0.82
where: Q = minimum required rate of discharge in cubic meters (cubic feet) per minute of air at standard conditions 15 °C and 103 kPa (60 °F and 14.7 psia). F = fire exposure factor for the following tank types: F = 1.0 for tanks without insulation located on the open deck. F = 0.5 for tanks on the open deck having insulation that has approved fire proofing, thermal conductance, and stability under fire exposure. F = 0.5 for uninsulated independent tasks installed in holds. F = 0.2 for insulated independent tanks in holds or for uninsulated independent tanks in insulated holds. F = 0.1 for insulated independent tanks in inerted holds or for uninsulated independent tanks in inerted, insulated holds. F = 0.1 for membrane and semi-membrane tanks. G = gas factor of: G = [(177 ÷ LC) (√((ZT) ÷ M))] SI units G = [(633,000 ÷ LC) (√((ZT) ÷ M))] English units where: L = latent heat of the material being vaporized at the relieving conditions, in Kcal/kg (Btu per pound). C = constant based on relation of specific heats (k), table 1 to § 54.15-25(c) (if k is not known, C = .606(315)). Z = compressibility factor of the gas at the relieving conditions (if not known, Z = 1.0). T = temperature in K = (273 + °C) (R = (460 + °F)) at the relieving conditions (120% of the pressure at which the pressure relief valve is set). M = molecular weight of the product. A = external surface area of the tank in m 2 (sq. ft.) for the following tank types: For a tank of a body of revolution shape: A = external surface area. For a tank other than a body of revolution shape: A = external surface area less the projected bottom surface area. For a grouping of pressure vessel tanks having insulation on the vessel's structure: A = external surface area of the hold without the projected bottom area. For a grouping of pressure tanks having insulation on the tank: A = external surface area of the pressure tanks excluding insulation, and without the projected bottom area.

| k | C | |
|---|---|---|
| 1.00 | .606 | (315) |
| 1.02 | .611 | (318) |
| 1.04 | .615 | (320) |
| 1.06 | .620 | (322) |
| 1.08 | .624 | (324) |
| 1.10 | .628 | (327) |
| 1.12 | .633 | (329) |
| 1.14 | .637 | (331) |
| 1.16 | .641 | (333) |
| 1.18 | .645 | (335) |
| 1.20 | .649 | (337) |
| 1.22 | .652 | (339) |
| 1.24 | .658 | (341) |
| 1.26 | .660 | (343) |
| 1.28 | .664 | (345) |
| 1.30 | .667 | (347) |
| 1.32 | .671 | (349) |
| 1.34 | .674 | (351) |
| 1.36 | .677 | (352) |
| 1.38 | .681 | (354) |
| 1.40 | .685 | (356) |
| 1.42 | .688 | (358) |
| 1.44 | .691 | (359) |
| 1.46 | .695 | (361) |
| 1.48 | .698 | (363) |
| 1.50 | .701 | (364) |
| 1.52 | .704 | (366) |
| 1.54 | .707 | (368) |
| 1.56 | .710 | (369) |
| 1.58 | .713 | (371) |
| 1.60 | .716 | (372) |
| 1.62 | .719 | (374) |
| 1.64 | .722 | (376) |
| 1.66 | .725 | (377) |
| 1.68 | .728 | (379) |
| 1.70 | .731 | (380) |
| 1.72 | .734 | (382) |
| 1.74 | .736 | (383) |
| 1.76 | .739 | (384) |
| 1.78 | .742 | (386) |
| 1.80 | .745 | (387) |
| 1.82 | .747 | (388) |
| 1.84 | .750 | (390) |
| 1.86 | .752 | (391) |
| 1.88 | .755 | (392) |
| 1.90 | .758 | (394) |
| 1.92 | .760 | (395) |
| 1.94 | .763 | (397) |
| 1.96 | .765 | (398) |
| 1.98 | .767 | (399) |
| 2.00 | .770 | (400) |
| 2.02 | .772 | (401) |
| 2.20 | .792 | (412) |
(e)
Note 1 to Formula 1 to § 54.15-25(c)(1): Figure 1 to § 54.15-25(c)(1) shows a method of determining the side external surface area of a grouping of vertical pressure tanks.
[CGFR 68-82, 33 FR 18828, Dec. 18, 1968, as amended by CGD 74-289, 44 FR 26007, May 3, 1979; CGD 82-063b, 48 FR 4781, Feb. 3, 1983; CGD 95-072, 60 FR 50462, Sept. 29, 1995; CGD 96-041, 61 FR 50728, Sept. 27, 1996; USCG-2004-18884, 69 FR 58346, Sept. 30, 2004; USCG-2007-29018, 72 FR 53965, Sept. 21, 2007; USCG-2009-0702, 74 FR 49228, Sept. 25, 2009; USCG-2012-0832, 77 FR 59777, Oct. 1, 2012]