Section



[Code of Federal Regulations]
[Title 46, Volume 7]
[Revised as of October 1, 2004]
From the U.S. Government Printing Office via GPO Access
[CITE: 46CFR182.440]

[Page 274-277]
 
                           TITLE 46--SHIPPING
 
   CHAPTER I--COAST GUARD, DEPARTMENT OF HOMELAND SECURITY (CONTINUED)
 
PART 182_MACHINERY INSTALLATION--Table of Contents
 
                Subpart D_Specific Machinery Requirements
 
Sec. 182.440  Independent fuel tanks.

    (a) Materials and construction. Independent fuel tanks must be 
designed and constructed of materials in compliance with the 
requirements of this paragraph.
    (1) The material used and the minimum thickness allowed must be as 
indicated in Table 182.440(a)(1), except that other materials that 
provide equivalent safety may be approved for use under paragraph (a)(3) 
of this section. Tanks having a capacity of more than 570 liters (150 
gallons) must be designed to withstand the maximum head to which they 
may be subjected in service, but in no case may the thickness be less 
than that specified in Table 182.440(a)(1).

[[Page 275]]



                                                                   Table 182.440(a)(1)
--------------------------------------------------------------------------------------------------------------------------------------------------------
                                     ASTM                     Thickness in millimeters (inches) and [gage number] 1 vs. tank capacities for:
                                 specification  --------------------------------------------------------------------------------------------------------
                               (latest edition)
           Material             [see also Sec. 4 to 300 liter (1 to 80 gal)     More than 300 liter (80 gal) and
                                175.600 of this                tanks                not more than 570 liter (150 gal)   Over 570 liter (150 gal) 2 tanks
                                   chapter]                                                       tanks
--------------------------------------------------------------------------------------------------------------------------------------------------------
Nickel-cooper................  B127, hot rolled  0.94 (0.037) [USSG 20] \3\.......  1.27 (0.050) [USSG 18]...........  2.72 (0.107) [USSG 12]
                                sheet or plate.
Copper-nickel 4..............  B122, UNS alloy   1.14 (0.045) [AWG 17]............  1.45 (0.057) [AWG 15]............  3.25 (0.128) [AWG 8]
                                C71500.
Copper 4.....................  B152, UNS alloy   1.45 (0.057) [AWG 15]............  2.06 (0.081) [AWG 12]............  4.62 (0.182) [AWG 5]
                                C11000.
Copper-silicon 4.............  B 96, alloys      1.29 (0.051) [AWG 16]............  1.63 (0.064) [AWG 14]............  3.66 (0.144) [AWG 7]
                                C65100 and
                                C65500.
Steel or iron 5, 6...........  * * * * *         1.90 (0.0747) [MSG 14]...........  2.66 (0.1046) [MSG 12]...........  4.55 (0.1793) [MSG 7]
Aluminum 7...................  B209, alloy       6.35 (0.250) [USSG 3]............  6.35 (0.250) [USSG 3]............  6.35 (0.250) [USSG 3]
                                5052, 5083,
                                5086.
Fiber reinforced plastic.....  * * * * *         As required 8....................  As required 8....................  As required 8
--------------------------------------------------------------------------------------------------------------------------------------------------------
\1\ The gage numbers used in this table may be found in many standard engineering reference books. The letters ``USSG'' stand for ``U.S. Standard
  Gage,'' which was established by the act of March 3, 1892 (15 U.S.C. 206), for sheet and plate iron and steel. The letters ``AWG'' stand for
  ``American Wire Gage'' (or Brown and Sharpe Gage) for nonferrous sheet thicknesses. The letters ``MSG'' stand for ``Manufacturers' Standard Gage'' for
  sheet steel thickness.
\2\ Tanks over 1514 liters (400 gallons) shall be designed with a factor of safety of four on the ultimate strength of the material used with a design
  head of not less than 1220 millimeters (4 feet) of liquid above the top of the tank.
\3\ Nickel-copper not less than 0.79 millimeter (0.031 inch) [USSG 22] may be used for tanks up to 114-liter (30-gallon) capacity.
\4\ Acceptable only for gasoline service.
\5\ Gasoline fuel tanks constructed of iron or steel, which are less than 5 millimeter (0.1875) inch) thick, shall be galvanized inside and outside by
  the hot dip process. Tanks intended for use with diesel oil shall not be internally galvanized.
\6\ Stainless steel tanks are not included in this category.
\7\ Anodic to most common metals. Avoid dissimilar metal contact with tank body.
\8\ The requirements of Sec. 182.440(a)(2) apply.


[[Page 276]]

    (2) Fiber reinforced plastic may be used for diesel fuel tanks under 
the following provisions:
    (i) The materials must be fire retardant. Flammability of the 
material must be determined by the standard test methods in America 
Society for Testing and Materials (ASTM) D635, ``Rate of Burning and/or 
Extent and Time of Burning of Self-supporting Plastics in a Horizontal 
Position,'' and ASTM D2863, ``Measuring the Minimum Oxygen Concentration 
to Support Candle-like Combustion of Plastics (Oxygen Index),'' or other 
standard specified by the Commandant. The results of these tests must 
show that the average extent of burning is less than 10 millimeters 
(0.394 inches), the average time of burning is less than 50 seconds, and 
the limiting oxygen index is greater than 21.
    (ii) Tanks must meet UL 1102, ``Non integral Marine Fuel Tanks,'' or 
other standard specified by the Commandant. Testing may be accomplished 
by an independent laboratory or by the fabricator to the satisfaction of 
the OCMI.
    (iii) Tanks must be designed to withstand the maximum heat to which 
they may be subjected to in service.
    (iv) Installation of nozzles, flanges or other fittings for pipe 
connections to the tanks must be acceptable to the cognizant OCMI.
    (v) Baffle plates, if installed, must be of the same material and 
not less than the minimum thickness of the tank walls. Limber holes at 
the bottom and air holes at the top of all baffles must be provided. 
Baffle plates must be installed at the time the tests required by UL 
Standard 1102, or other standard specified by the Commandant, are 
conducted.
    (3) Materials other than those listed in Table 182.440(a)(1) must be 
approved by the Commandant. An independent tank using material approved 
by the Commandant under this paragraph must meet the testing 
requirements of UL Standard 1102, or other standard specified by the 
Commandant. Testing may be accomplished by an independent laboratory or 
by the fabricator to the satisfaction of the OCMI.
    (4) Tanks with flanged-up top edges that may trap and hold moisture 
are prohibited.
    (5) Openings for fill pipes, vent pipes, and machinery fuel supply 
pipes, and openings for fuel level gauges, where used, must be on the 
topmost surfaces of tanks. Tanks may not have any openings in bottoms, 
sides, or ends, except for:
    (i) An opening fitted with a threaded plug or cap installed for tank 
cleaning purposes; and
    (ii) In a diesel fuel tank, openings for supply piping and tubular 
gauge glasses.
    (6) All tank joints must be welded or brazed. Lap joints may not be 
used.
    (7) Nozzles, flanges, or other fittings for pipe connections to a 
metal tank must be welded or brazed to the tank. Tank openings in way of 
pipe connections must be properly reinforced where necessary. Where fuel 
level gauges are used on a metal tank, the flanges to which gauge 
fittings are attached must be welded or brazed to the tank. No tubular 
gauge glasses may be fitted to gasoline fuel tanks. Tubular gauge 
glasses, if fitted to diesel fuel tanks, must be of heat resistant 
materials, adequately protected from mechanical damage, and provided at 
the tank connections with devices that will automatically close in the 
event of rupture of the gauge or gauge lines.
    (8) A metal tank exceeding 760 millimeters (30 inches) in any 
horizontal dimension must:
    (i) Be fitted with vertical baffle plates, which meet subparagraph 
(a)(9) of this section, at intervals not exceeding 760 millimeters (30 
inches) to provide strength and to control the excessive surge of fuel; 
or
    (ii) The owner shall submit calculations to the cognizant OCMI 
demonstrating the structural adequacy of the tank in a fully loaded 
static condition and in a worst case dynamic (sloshing) condition.
    (9) Baffle plates, where required in metal tanks, must be of the 
same material and not less than the minimum thickness required in the 
tank walls and must be connected to the tank walls by welding or 
brazing. Limber holes at the bottom and air holes at the top of all 
baffles must be provided.
    (10) Iron or steel diesel fuel tanks must not be galvanized on the 
interior. Galvanizing, paint, or other suitable

[[Page 277]]

coating must be used to protect the outside of iron and steel diesel 
fuel tanks and the inside and outside of iron and steel gasoline fuel 
tanks.
    (b) Location and installation. Independent fuel tanks must be 
located and installed in compliance with the requirements of this 
paragraph.
    (1) Fuel tanks must be located in, or as close as practicable to, 
machinery spaces.
    (2) Fuel tanks and fittings must be so installed as to permit 
examination, testing, or removal for cleaning with minimum disturbance 
to the hull structure.
    (3) Fuel tanks must be adequately supported and braced to prevent 
movement. The supports and braces must be insulated from contact with 
the tank surfaces with a nonabrasive and nonabsorbent material.
    (4) All fuel tanks must be electrically bonded to a common ground.
    (c) Tests. Independent fuel tanks must be tested in compliance with 
the requirements of this part prior to being used to carry fuel.
    (1) Prior to installation, tanks vented to the atmosphere must be 
hydrostatically tested to, and must withstand, a pressure of 35 kPa (5 
psig) or 1\1/2\ times the maximum pressure head to which they may be 
subjected in service, whichever is greater. A standpipe of 3.5 meters 
(11.5 feet) in height attached to the tank may be filled with water to 
accomplish the 35 kPa (5 psig) test. Permanent deformation of the tank 
will not be cause for rejection unless accompanied by leakage.
    (2) After installation of the fuel tank on a vessel, the complete 
installation must be tested in the presence of a marine inspector, or 
individual specified by the cognizant OCMI, to a heat not less than that 
to which the tank may be subjected in service. Fuel may be used as the 
testing medium.
    (3) All tanks not vented to the atmosphere must be constructed and 
tested in accordance with Sec. 182.330 of this part.
    (d) Alternative procedures. A vessel of not more than 19.8 meters 
(65 feet) in length carrying not more than 12 passengers, with 
independent gasoline fuel tanks built in accordance with ABYC Project H-
24, or 33 CFR 183, subpart J, or with independent diesel fuel tanks 
built in accordance with ABYC Project H-33, will be considered as 
meeting the requirements of this section. However, tanks must not be 
fabricated from any material not listed in Table 182.440(a)(1) without 
approval by the Commandant under paragraph (a)(3) of this section.

[CGD 85-080, 61 FR 986, Jan. 10, 1996, as amended by USCG-1999-5151, 64 
FR 67186, Dec. 1, 1999]