49 C.F.R. § 173.314
(b) General requirements.
(c) Authorized gases, filling limits for tank cars. A compressed gas in a tank car or a multi-unit tank car must be offered for transportation in accordance with § 173.31 and this section. The gases listed below must be loaded and offered for transportation in accordance with the following table:
| Proper shipping name | Outage and filling limits(see note 1) | Authorized tank car class(see note 11) | Authorized tank car specification(see note 12) |
|---|---|---|---|
| Ammonia, anhydrous, or ammonia solutions >50 percent ammonia | Notes 2, 10 | 105, 112, 114, 120 | 105H500W, 112H500W |
| Note 3 | 106 | ||
| Ammonia solutions with >35 percent, but ≤50 percent ammonia by mass | Note 3 | 105, 109, 112, 114, 120 | |
| Argon, compressed | Note 4 | 107 | |
| Boron trichloride | Note 3 | 105, 106 | |
| Carbon dioxide, refrigerated liquid | Note 5 | 105 | |
| Chlorine | Note 6 | 105 | 105H600W |
| 125 | 106 | ||
| Chlorine trifluoride | Note 3 | 106, 110 | |
| Chlorine pentafluoride | Note 3 | 106, 110 | |
| Dimethyl ether | Note 3 | 105, 106, 110, 112, 114, 120 | |
| Dimethylamine, anhydrous | Note 3 | 105, 106, 112 | |
| Dinitrogen tetroxide, inhibited | Note 3 | 105, 106, 112 | 105H500W |
| Division 2.1 materials not specifically identified in this table | Notes 9, 10 | 105, 106, 110, 112, 114, 120 | |
| Division 2.2 materials not specifically identified in this table | Note 3 | 105, 106, 109, 110, 112, 114, 120 | |
| Division 2.3 Zone A materials not specifically identified in this table | None | See § 173.245. | 105H600W |
| Division 2.3 Zone B materials not specifically identified in this table | Note 3 | 105, 106, 110, 112, 114, 120 | 105H600W |
| Division 2.3 Zone C materials not specifically identified in this table | Note 3 | 105, 106, 110, 112, 114, 120 | 105H500W |
| Division 2.3 Zone D materials not specifically identified in this table | Note 3 | 105, 106, 109, 110, 112, 114, 120 | 105H500W, 112H500H |
| Ethylamine | Note 3 | 105, 106, 110, 112, 114, 120 | |
| Helium, compressed | Note 4 | 107 | |
| Hydrogen | Note 4 | 107 | |
| Hydrogen chloride, refrigerated liquid | Note 7 | 105 | 105H600W, 112H600W |
| Hydrogen sulfide | Note 3 | 105, 106, 110, 112, 114, 120 | 105H600W |
| Hydrogen sulfide, liquefied | 68 | 106 | |
| Methyl bromide | Note 3 | 105, 106 | 105H500W |
| Methyl chloride | Note 3 | 105, 106, 112 | |
| Methyl mercaptan | Note 3 | 105, 106 | 105H500W |
| Methylamine, anhydrous | Note 3 | 105, 106, 112 | |
| Nitrogen, compressed | Note 4 | 107 | |
| Nitrosyl chloride | 124 | 105 | 105H500W |
| 110 | 106 | ||
| Nitrous oxide, refrigerated liquid | Note 5 | 105 | |
| Oxygen, compressed | Note 4 | 107 | |
| Phosgene | Note 3 | 106 | |
| Sulfur dioxide, liquefied | 125 | 105, 106, 110 | 105H500W |
| Sulfuryl fluoride | 120 | 105 | |
| Vinyl fluoride, stabilized | Note 8 | 105 | |
| Notes to table 1 to paragraph (c): | |||
| 1. The filling density percentage for liquefied gases is hereby defined as the percent ratio of the mass of gas in the tank to the mass of water that the tank will hold. For determining the water capacity of the tank in kilograms, the mass of 1 L of water at 15.5 °C in air is 1 kg (the mass of one gallon of water at 60 °F in air is 8.32828 pounds). | |||
| 2. The liquefied gas must be loaded so that the outage is at least two percent of the total capacity of the tank at the reference temperature of 46 °C (115 °F) for a non-insulated tank; 43 °C (110 °F) for a tank having a thermal protection system incorporating a metal jacket that provides an overall thermal conductance at 15.5 °C (60 °F) of no more than 10.22 kilojoules per hour—per square meter—per degree Celsius (0.5 Btu per hour/per square foot/per degree F) temperature differential; and 41 °C (105 °F) for an insulated tank having an insulation system incorporating a metal jacket that provides an overall thermal conductance at 15.5 deg;C (60 °F) of no more than 1.5333 kilojoules per hour—per square meter—per degree Celsius (0.075 Btu per hour/per square foot/per degree F) temperature differential. | |||
| 3. The requirements of § 173.24b(a) apply. | |||
| 4. The gas pressure at 54.44 °C (130 °F) in any non-insulated tank car may not exceed 7/10 of the marked test pressure, except that a tank may be charged with helium to a pressure of 10 percent in excess of the marked maximum gas pressure at 54.44 °C (130 °F) of each tank. | |||
| 5. The liquid portion of the gas at −17.77 °C (0 °F) must not completely fill the tank. | |||
| 6. The maximum permitted filling density is 125 percent. The quantity of chlorine loaded into a single unit-tank car may not be loaded in excess of the normal lading weights nor in excess of 81.65 Mg (90 tons). | |||
| 7. 89 percent maximum to 80.1 percent minimum at a test pressure of 6.2 bar (90 psig). | |||
| 8. 59.6 percent maximum to 53.6 percent minimum at a test pressure of 7.2 bar (105 psig). | |||
| 9. For a liquefied petroleum gas, the liquefied gas must be loaded so that the outage is at least one percent of the total capacity of the tank at the reference temperature of 46 °C (115 °F) for a non-insulated tank; 43 °C (110 °F) for a tank having a thermal protection system incorporating a metal jacket that provides an overall thermal conductance at 15.5 °C (60 °F) of no more than 10.22 kilojoules per hour—per square meter—per degree Celsius (0.5 Btu per hour/per square foot/per degree F) temperature differential; and 41 °C (105 °F) for an insulated tank having an insulation system incorporating a metal jacket that provides an overall thermal conductance at 15.5 °C (60 °F) of no more than 1.5333 kilojoules per hour—per square meter—per degree Celsius (0.075 Btu per hour/per square foot/per degree F) temperature differential. | |||
| 10. For liquefied petroleum gas and anhydrous ammonia, during the months of November through March (winter), the following reference temperatures may be used: 38 °C (100 °F) for a non-insulated tank; 32 °C (90 °F) for a tank having a thermal protection system incorporating a metal jacket that provides an overall thermal conductance at 15.5 °C (60 °F) of no more than 10.22 kilojoules per hour—per square meter—per degree Celsius (0.5 Btu per hour/per square foot/per degree F) temperature differential; and 29 °C (85 °F) for an insulated tank having an insulation system incorporating a metal jacket and insulation that provides an overall thermal conductance at 15.5 °C (60 °F) of no more than 1.5333 kilojoules per hour—per square meter—per degree Celsius (0.075 Btu per hour/per square foot/per degree F) temperature differential. The winter reference temperatures may only be used for a tank car shipped directly to a consumer for unloading and not stored in transit. The offeror of the tank must inform each customer that the tank car was filled based on winter reference temperatures. The tank must be unloaded as soon as possible after March in order to retain the specified outage and to prevent a release of hazardous material, which might occur due to the tank car becoming liquid full at higher temperatures. | |||
| 11. For materials poisonous by inhalation, until December 31, 2027, the single unit tank car tanks authorized are only those cars approved by the Tank Car Committee for transportation of the specified material and built prior to March 16, 2009. After December 31, 2027, all single unit tank cars used in PIH/TIH service must meet the requirements of Note 12. | |||
| 12. Except as provided in paragraph (d) of this section, for materials poisonous by inhalation, fusion-welded tank car tanks built on or after March 16, 2009, used for the transportation of the PIH materials noted, must meet the applicable authorized tank car specification and must be equipped with a head shield as prescribed in § 179.16(c)(1). |
(d) Alternative tank car tanks for materials poisonous by inhalation.
(1) As an alternative to the authorized tank car specification noted in the column 4 of the table in paragraph (c) of this section, a car of the same authorized tank car specification but of the next lower test pressure, as prescribed in column 5 of the table at § 179.101-1, may be used provided both of the following conditions are met:
(e) Verification of content.
(2) Metering device.
(i) Tank cars loaded with anhydrous ammonia or ammonia solution through the use of a metering device in conformance with this section are not required to be weighed, but must have their outage measured with a magnetic gauging device to determine that the tank car is properly loaded in conformance with this paragraph. Written procedures for loading a tank car using a metering device must be developed and made available at each location where such loading takes place. Certification in writing of the inspection and completion of these loading and/or unloading procedures must be maintained for each tank car and maintained in accordance with the recordkeeping requirements in paragraph (e)(2)(iii) of this section, and all necessary records must be completed. At a minimum, these procedures will specify:
(iii) Recordkeeping. The following information must be maintained and be made available to any representative of the DOT upon request for each tank car loaded with the use of a metering device:
(g) Special requirements for hydrogen chloride, refrigerated liquid, and vinyl fluoride,stabilized.
(2) Odorant fade. In addition to paragraph (h)(1)(i) of this section, the offeror must ensure that enough odorant will remain in the tank car during the course of transportation. The offeror must have procedures in place to:
(k) Special requirements for chlorine.
(o) Special requirements for carbon dioxide, refrigerated liquid and nitrous oxide, refrigerated liquid. Each tank car must have an insulation system so that the thermal conductance is not more than 0.613 kilojoules per hour, per square meter, per degree Celsius (0.03 B.t.u. per square foot per hour, per degree Fahrenheit) temperature differential. Each tank car must be equipped with one reclosing pressure relief valve having a start-to-discharge pressure not to exceed 75 percent of the tank test pressure and one non-reclosing pressure relief valve having a rupture disc design to burst at a pressure less than the tank test pressure. The discharge capacity of each pressure relief device must be sufficient to prevent building up of pressure in the tank in excess of 82.5 percent of the test pressure of the tank. Tanks must be equipped with two regulating valves set to open at a pressure not to exceed 24.1 Bar (350 psi) on DOT 105A500W tanks and at a pressure not to exceed 27.6 Bar (400 psi) on DOT 105A600W tanks. Each regulating valve and pressure relief device must have its final discharge piped to the outside of the protective housing.
Editorial Note:For Federal Register citations affecting § 173.314, see the List of CFR Sections Affected, which appears in the Finding Aids section of the printed volume and at www.govinfo.gov.
[Amdt. 173-224, 55 FR 52665, Dec. 21, 1990]