[Code of Federal Regulations]

[Title 49, Volume 2]

[Revised as of October 1, 2005]

From the U.S. Government Printing Office via GPO Access

[CITE: 49CFR180.605]



[Page 1131-1135]

 

                        TITLE 49--TRANSPORTATION

 

   CHAPTER I--PIPELINE AND HAZARDOUS MATERIALS SAFETY ADMINISTRATION, 

                      DEPARTMENT OF TRANSPORTATION

 

PART 180_CONTINUING QUALIFICATION AND MAINTENANCE OF PACKAGINGS

--Table of Contents

 

        Subpart G_Qualification and Maintenance of Portable Tanks

 

Sec. 180.605  Requirements for periodic testing, inspection and repair 

of portable tanks.



    (a) A portable tank constructed in accordance with a DOT 

specification for which a test or inspection specified in this subpart 

has become due, must be tested or inspected prior to being returned for 

transportation.

    (b) Conditions requiring test and inspection of portable tanks. 

Without regard to



[[Page 1132]]



any other test or inspection requirements, a Specification or UN 

portable tank must be tested and inspected in accordance with this 

section prior to further use if any of the following conditions exist:

    (1) The portable tank shows evidence of dents, corroded or abraded 

areas, leakage, or any other condition that might render it unsafe for 

transportation service.

    (2) The portable tank has been in an accident and has been damaged 

to an extent that may adversely affect its ability to retain the 

hazardous material.

    (3) The portable tank has been out of hazardous materials 

transportation service for a period of one year or more.

    (4) The portable tank has been modified from its original design 

specification.

    (5) The portable tank is in an unsafe operating condition based on 

the existence of probable cause.

    (c) Schedule for periodic inspections and tests. Each Specification 

portable tank must be tested and inspected in accordance with the 

following schedule:

    (1) Each IM or UN portable tank must be given an initial inspection 

and test before being placed into service, a periodic inspection and 

test at least once every 5 years, and an intermediate periodic 

inspection and test at least every 2.5 years following the initial 

inspection and the last 5 year periodic inspection and test.

    (2) Each Specification 51 portable tank must be given a periodic 

inspection and test at least once every five years.

    (3) Each Specification 56 or 57 portable tank must be given a 

periodic inspection and test at least once every 2.5 years.

    (4) Each Specification 60 portable tank must be given a periodic 

inspection and test at the end of the first 4-year period after the 

original test; at least once every 2 years thereafter up to a total of 

12 years of service; and at least once annually thereafter. Retesting is 

not required on a rubber-lined tank except before each relining.

    (d) Intermediate periodic inspection and test. For IM and UN 

portable tanks the intermediate 2.5 year periodic inspection and test 

must include at least an internal and external examination of the 

portable tank and its fittings taking into account the hazardous 

materials intended to be transported; a leakage test; and a test of the 

satisfactory operation of all service equipment. Sheathing, thermal 

insulation, etc. need only be removed to the extent required for 

reliable appraisal of the condition of the portable tank. For portable 

tanks intended for the transportation of a single hazardous material, 

the internal examination may be waived if it is leakage tested in 

accordance with the procedures in paragraph (h) of this section prior to 

each filling, or if approved by the Associate Administrator. Portable 

tanks used for dedicated transportation of refrigerated liquefied gases 

that are not fitted with inspection openings are excepted from the 

internal inspection requirement.

    (e) Periodic inspection and test. The 5 year periodic inspection and 

test must include an internal and external examination and, unless 

excepted, a pressure test as specified in this section. Sheathing, 

thermal insulation, etc. need only to be removed to the extent required 

for reliable appraisal of the condition of the portable tank. Except for 

DOT Specification 56 and 57 portable tanks, reclosing pressure relief 

devices must be removed from the tank and tested separately unless they 

can be tested while installed on the portable tank. For portable tanks 

where the shell and equipment have been pressure-tested separately, 

after assembly they must be subjected together to a leakage test and 

effectively tested and inspected for corrosion. Portable tanks used for 

the transportation of refrigerated, liquefied gases are excepted from 

the requirement for internal inspection and the hydraulic pressure test 

during the 5-year periodic inspection and test, if the portable tanks 

were pressure tested to a minimum test pressure of 1.3 times the design 

pressure using an inert gas as prescribed in Sec. 178.338-16(a) and (b) 

of this subchapter before putting the portable tank into service 

initially and after any exceptional inspections and tests specified in 

paragraph (f) of this section.



[[Page 1133]]



    (f) Exceptional inspection and test. The exceptional inspection and 

test is necessary when a portable tank shows evidence of damaged or 

corroded areas, or leakage, or other conditions that indicate a 

deficiency that could affect the integrity of the portable tank. The 

extent of the exceptional inspection and test must depend on the amount 

of damage or deterioration of the portable tank. It must include at 

least the inspection and a pressure test according to paragraph (e) of 

this section. Pressure relief devices need not be tested or replaced 

unless there is reason to believe the relief devices have been affected 

by the damage or deterioration.

    (g) Internal and external examination. The internal and external 

examinations must ensure that:

    (1) The shell is inspected for pitting, corrosion, or abrasions, 

dents, distortions, defects in welds or any other conditions, including 

leakage, that might render the portable tank unsafe for transportation;

    (2) The piping, valves, and gaskets are inspected for corroded 

areas, defects, and other conditions, including leakage, that might 

render the portable tank unsafe for filling, discharge or 

transportation;

    (3) Devices for tightening manhole covers are operative and there is 

no leakage at manhole covers or gaskets;

    (4) Missing or loose bolts or nuts on any flanged connection or 

blank flange are replaced or tightened;

    (5) All emergency devices and valves are free from corrosion, 

distortion and any damage or defect that could prevent their normal 

operation. Remote closure devices and self-closing stop-valves must be 

operated to demonstrate proper operation;

    (6) Required markings on the portable tank are legible and in 

accordance with the applicable requirements; and

    (7) The framework, the supports and the arrangements for lifting the 

portable tank are in satisfactory condition.

    (h) Pressure test procedures for specification 51, 57, 60, IM or UN 

portable tanks. (1) Each Specification 57 portable tank must be leak 

tested by a minimum sustained air pressure of at least 3 psig applied to 

the entire tank. Each Specification 51 or 56 portable tank must be 

tested by a minimum pressure (air or hydrostatic) of at least 2 psig or 

at least one and one-half times the design pressure (maximum allowable 

working pressure, or re-rated pressure) of the tank, whichever is 

greater. The leakage test for portable tanks used for refrigerated 

liquefied gas must be performed at 90% of MAWP. Leakage tests for all 

other portable tanks must be at a pressure of at least 25% of MAWP. 

During each air pressure test, the entire surface of all joints under 

pressure must be coated with or immersed in a solution of soap and 

water, heavy oil, or other material suitable for the purpose of 

detecting leaks. The pressure must be held for a period of time 

sufficiently long to assure detection of leaks, but in no case less than 

five minutes. During the air or hydrostatic test, relief devices may be 

removed, but all the closure fittings must be in place and the relief 

device openings plugged. Lagging need not be removed from a lagged tank 

if it is possible to maintain the required test pressure at constant 

temperature with the tank disconnected from the source of pressure.

    (2) Each Specification 60 portable tank must be retested by 

completely filling the tank with water or other liquid having a similar 

viscosity, the temperature of the liquid must not exceed 37.7 [deg]C 

(100 [deg]F) during the test, and applying a pressure of 60 psig. The 

portable tank must be capable of holding the prescribed pressure for at 

least 10 minutes without leakage, evidence of impending failure, or 

failure. All closures shall be in place while the test is made and the 

pressure shall be gauged at the top of the tank. Safety devices and/or 

vents shall be plugged during this test.

    (3) Each Specification IM or UN portable tank, except for UN 

portable tanks used for non-refrigerated and refrigerated liquefied 

gases, and all piping, valves and accessories, except pressure relief 

devices, must be hydrostatically tested with water, or other liquid of 

similar density and viscosity, to a pressure not less than 150% of its 

maximum allowable working pressure. UN portable tanks used for the 

transportation of non-refrigerated liquefied gases must be 

hydrostatically tested with water, or other liquid of



[[Page 1134]]



similar density and viscosity, to a pressure not less than 130% of its 

maximum allowable working pressure. UN portable tanks used for the 

transportation of refrigerated liquefied gases may be tested 

hydrostatically or pneumatically using an inert gas to a pressure not 

less than 1.3 times the design pressure. For pneumatic testing, due 

regard for protection of all personnel must be taken because of the 

potential hazard involved in such a test. The pneumatic test pressure in 

the portable tank must be reached by gradually increasing the pressure 

to one-half of the test pressure. Thereafter, the test pressure must be 

increased in steps of approximately one-tenth of the test pressure until 

the required test pressure has been reached. The pressure must then be 

reduced to a value equal to four-fifths of the test pressure and held 

for a sufficient time to permit inspection of the portable tank for 

leaks. The minimum test pressure for a portable tank is determined on 

the basis of the hazardous materials that are intended to be transported 

in the portable tanks. For liquid, solid and non-refrigerated liquefied 

gases, the minimum test pressure for specific hazardous materials are 

specified in the applicable T Codes assigned to a particular hazardous 

material in the Sec. 172.101 Table of this subchapter. While under 

pressure the tank shall be inspected for leakage, distortion, or any 

other condition which might render the tank unsafe for service. A 

portable tank fails to meet the requirements of the pressure test if, 

during the test, there is permanent distortion of the tank exceeding 

that permitted by the applicable specification; if there is any leakage; 

or if there are any deficiencies that would render the portable tank 

unsafe for transportation. Any portable tank that fails must be rejected 

and may not be used again for the transportation of a hazardous material 

unless the tank is adequately repaired, and, thereafter, a successful 

test is conducted in accordance with the requirements of this paragraph. 

An approval agency shall witness the hydrostatic or pneumatic test. Any 

damage or deficiency that might render the portable tank unsafe for 

service shall be repaired to the satisfaction of the witnessing approval 

agency. The repaired tank must be retested to the original pressure test 

requirements. Upon successful completion of the hydrostatic or pneumatic 

test, as applicable, the witnessing approval agency shall apply its 

name, identifying mark or identifying number in accordance with 

paragraph (k) of this section.

    (i) Rejection criteria. When evidence of any unsafe condition is 

discovered, the portable tank may not be returned to service until it 

has been repaired and the pressure test is repeated and passed.

    (j) Repair. The repair of a portable tank is authorized, provided 

such repairs are made in accordance with the requirements prescribed in 

the specification for the tank's original design and construction. In 

addition to any other provisions of the specification, no portable tank 

may be repaired so as to cause leakage or cracks or so as to increase 

the likelihood of leakage or cracks near areas of stress concentration 

due to cooling metal shrinkage in welding operations, sharp fillets, 

reversal of stresses, or otherwise. No field welding may be done except 

to non-pressure parts. Any cutting, burning or welding operations on the 

shell of an IM or UN portable tank must be done with the approval of the 

approval agency and be done in accordance with the requirements of this 

subchapter, taking into account the pressure vessel code used for the 

construction of the shell. A pressure test to the original test pressure 

must be performed after the work is completed.

    (k) Inspection and test markings. (1) Each IM or UN portable tank 

must be durably and legibly marked, in English, with the date (month and 

year) of the last pressure test, the identification markings of the 

approval agency witnessing the test, when required, and the date of the 

last visual inspection. The marking must be placed on or near the metal 

identification plate, in letters and numerals of not less than 3 mm 

(0.118 inches) high when on the metal identification plate, and 12 mm 

(0.47 inches) high when on the portable tank.

    (2) Each Specification DOT 51, 56, 57 or 60 portable tank must be 

durably and legibly marked, in English, with



[[Page 1135]]



the date (month and year) of the most recent periodic retest. The 

marking must be placed on or near the metal certification plate and must 

be in accordance with Sec. 178.3 of this subchapter. The letters and 

numerals must not be less than 3 mm (0.118 inches) high when on the 

metal certification plate, and 12 mm (0.47 inches) high when on the 

portable tank, except that a portable tank manufactured under a 

previously authorized specification may continue to be marked with 

smaller markings if originally authorized under that specification (for 

example, DOT Specification 57 portable tanks).

    (l) Record retention. The owner of each portable tank or his 

authorized agent shall retain a written record of the date and results 

of all required inspections and tests, including an ASME manufacturer's 

date report, if applicable, and the name and address of the person 

performing the inspection or test, in accordance with the applicable 

specification. The manufacturer's data report, including a 

certificate(s) signed by the manufacturer, and the authorized design 

approval agency, as applicable, indicating compliance with the 

applicable specification of the portable tank, must be retained in the 

files of the owner, or his authorized agent, during the time that such 

portable tank is used for such service, except for Specifications 56 and 

57 portable tanks.



[Amdt. 180-2, 54 FR 25032, June 12, 1989, as amended at 67 FR 15744, 

Apr. 3, 2002; 68 FR 45042, July 31, 2003]



   Appendix A to Part 180--Internal Self-closing Stop Valve Emergency 

               Closure Test for Liquefied Compressed Gases



    1. In performing this test, all internal self-closing stop valves 

must be opened. Each emergency discharge control remote actuator (on-

truck and off-truck) must be operated to ensure that each internal self-

closing stop valve's lever, piston, or other valve indicator has moved 

to the closed position.

    2. On pump-actuated pressure differential internal valves, the 

three-way toggle valve handle or its cable attachment must be activated 

to verify that the toggle handle moves to the closed position.



[64 FR 28052, May 24, 1999, as amended at 67 FR 15744, Apr. 3, 2002]



  Appendix B to Part 180--Acceptable Internal Self-closing Stop Valve 

  Leakage Tests for Cargo Tanks Transporting Liquefied Compressed Gases



    For internal self-closing stop valve leakage testing, leakage is 

defined as any leakage through the internal self-closing valve or to the 

atmosphere that is detectable when the valve is in the closed position. 

On some valves this will require the closure of the pressure by-pass 

port.



                          (a) Meter Creep Test.



    1. An operator of a cargo tank equipped with a calibrated meter may 

check the internal self-closing stop valve for leakage through the valve 

seat using the meter as a flow measurement indicator. The test is 

initiated by starting the delivery process or returning product to the 

cargo tank through the delivery system. This may be performed at an 

idle. After the flow is established, the operator closes the internal 

self-closing stop valve and monitors the meter flow. The meter flow must 

stop within 30 seconds with no meter creep within 5 seconds after the 

meter stops.

    2. On pump-actuated pressure differential internal self-closing stop 

valves, the valve must be closed with the remote actuator to assure that 

it is functioning. On other types of internal self-closing stop valves, 

the valve(s) may be closed using either the normal valve control or the 

discharge control system (e.g., remote).

    3. Rejection criteria: Any detectable meter creep within the first 

five seconds after initial meter stoppage.



               (b) Internal Self-Closing Stop Valve Test.



    An operator of a cargo tank that is not equipped with a meter may 

check the internal self-closing stop valve(s) for leakage as follows:

    1. The internal self-closing stop valve must be in the closed 

position.

    2. All of the material in the downstream piping must be evacuated, 

and the piping must be returned to atmospheric temperature and pressure.

    3. The outlet must be monitored for 30 seconds for detectable 

leakage.

    4. Rejection criteria. Any detectable leakage is considered 

unacceptable.



[64 FR 28052, May 24, 1999]



                        PARTS 181-185 [RESERVED]