- Part Number:1910
- Part Number Title:Occupational Safety and Health Standards
- Subpart:1910 Subpart H
- Subpart Title:Hazardous Materials
- Standard Number:
- Title:Storage and handling of liquefied petroleum gases.
- GPO Source:
For paragraphs 1910.110(d)(13)(i) to 1910.110(i)(3)(ii), see 1910.110 - page 2.
Definitions applicable to this section. As used in this section:
API-ASME container - A container constructed in accordance with the requirements of paragraph (b)(3)(iii) of this section.
ASME container - A container constructed in accordance with the requirements of paragraph (b)(3)(i) of this section.
Container assembly - An assembly consisting essentially of the container and fittings for all container openings, including shutoff valves, excess flow valves, liquid-level gaging devices, safety relief devices, and protective housing.
Containers - All vessels, such as tanks, cylinders, or drums, used for transportation or storing liquefied petroleum gases.
DOT - Department of Transportation.
DOT container - A container constructed in accordance with the applicable requirements of 49 CFR chapter 1.
“Liquified petroleum gases” - “LPG” and “LP-Gas” - Any material which is composed predominantly of any of the following hydrocarbons, or mixtures of them; propane, propylene, butanes (normal butane or iso-butane), and butylenes.
Movable fuel storage tenders or farm carts - Containers not in excess of 1,200 gallons water capacity, equipped with wheels to be towed from one location of usage to another. They are basically nonhighway vehicles, but may occasionally be moved over public roads or highways. They are used as a fuel supply for farm tractors, construction machinery and similar equipment.
P.S.I.G. - pounds per square inch gauge.
P.S.I.A. - pounds per square inch absolute.
Systems - an assembly of equipment consisting essentially of the container or containers, major devices such as vaporizers, safety relief valves, excess flow valves, regulators, and piping connecting such parts.
Vaporizer-burner - an integral vaporizer-burner unit, dependent upon the heat generated by the burner as the source of heat to vaporize the liquid used for dehydrators or dryers.
Ventilation, adequate - when specified for the prevention of fire during normal operation, ventilation shall be considered adequate when the concentration of the gas in a gas-air mixture does not exceed 25 percent of the lower flammable limit.
Approved - unless otherwise indicated, listing or approval by a nationally recognized testing laboratory. Refer to § 1910.7 for definition of nationally recognized testing laboratory.
Listed - see “approved” in § 1910.110(14).
DOT Specifications - regulations of the Department of Transportation published in 49 CFR chapter I.
[Reserved]
DOT cylinders - cylinders meeting the requirements of 49 CFR chapter I.
Basic rules -
Odorizing gases.
All liquefied petroleum gases shall be effectively odorized by an approved agent of such character as to indicate positively, by distinct odor, the presence of gas down to concentration in air of not over one-fifth the lower limit of flammability. Odorization, however, is not required if harmful in the use of further processing of the liquefied petroleum gas, or if odorization will serve no useful purpose as a warning agent in such use or further processing.
The odorization requirement of paragraph (b)(1)(i) of this section shall be considered to be met by the use of 1.0 pounds of ethyl mercaptan, 1.0 pounds of thiophane or 1.4 pounds of amyl mercaptan per 10,000 gallons of LP-Gas. However, this listing of odorants and quantities shall not exclude the use of other odorants that meet the odorization requirements of paragraph (b)(1)(i) of this section.
Approval of equipment and systems.
Each system utilizing DOT containers in accordance with 49 CFR part 178 shall have its container valves, connectors, manifold valve assemblies, and regulators approved.
Each system for domestic or commercial use utilizing containers of 2,000 gallons or less water capacity, other than those constructed in accordance with 49 CFR part 178, shall consist of a container assembly and one or more regulators, and may include other parts. The system as a unit or the container assembly as a unit, and the regulator or regulators, shall be individually listed.
In systems utilizing containers of over 2,000 gallons water capacity, each regulator, container valve, excess flow valve, gaging device, and relief valve installed on or at the container, shall have its correctness as to design, construction, and performance determined by listing by a nationally recognized testing laboratory. Refer to § 1910.7 for definition of nationally recognized testing laboratory.
Requirements for construction and original test of containers.
Containers used with systems embodied in paragraphs (d), (e), (g), and (h) of this section, except as provided in paragraphs (e)(3)(iii) and (g)(2)(i) of this section, shall be designed, constructed, and tested in accordance with the Rules for Construction of Unfired Pressure Vessels, section VIII, Division 1, American Society of Mechanical Engineers (ASME) Boiler and Pressure Vessel Code, 1968 edition, which is incorporated by reference as specified in § 1910.6.
Containers constructed according to the 1949 and earlier editions of the ASME Code do not have to comply with paragraphs U-2 through U-10 and U-19 thereof. Containers constructed according to paragraph U-70 in the 1949 and earlier editions are not authorized.
Containers designed, constructed, and tested prior to July 1, 1961, according to the Code for Unfired Pressure Vessels for Petroleum Liquids and Gases, 1951 edition with 1954 Addenda, of the American Petroleum Institute and the American Society of Mechanical Engineers, which is incorporated by reference as specified in § 1910.6, shall be considered in conformance. Containers constructed according to API-ASME Code do not have to comply with section I or with appendix to section I. Paragraphs W-601 to W-606 inclusive in the 1943 and earlier editions do not apply.
The provisions of paragraph (b)(3)(i) of this section shall not be construed as prohibiting the continued use or reinstallation of containers constructed and maintained in accordance with the standard for the Storage and Handling of Liquefied Petroleum Gases NFPA No. 58 in effect at the time of fabrication.
Containers used with systems embodied in paragraph (b), (d)(3)(iii), and (f) of this section, shall be constructed, tested, and stamped in accordance with DOT specifications effective at the date of their manufacture.
Welding of containers.
Welding to the shell, head, or any other part of the container subject to internal pressure, shall be done in compliance with the code under which the tank was fabricated. Other welding is permitted only on saddle plates, lugs, or brackets attached to the container by the tank manufacturer.
Where repair or modification involving welding of DOT containers is required, the container shall be returned to a qualified manufacturer making containers of the same type, and the repair or modification made in compliance with DOT regulations.
Markings on containers.
Each container covered in paragraph (b)(3)(i) of this section, except as provided in paragraph (b)(3)(iv) of this section shall be marked as specified in the following:
With a marking identifying compliance with, and other markings required by, the rules of the reference under which the container is constructed; or with the stamp and other markings required by the National Board of Boiler and Pressure Vessel Inspectors.
With notation as to whether the container is designed for underground or aboveground installation or both. If intended for both and different style hoods are provided, the marking shall indicate the proper hood for each type of installation.
With the name and address of the supplier of the container, or with the trade name of the container.
With the water capacity of the container in pounds or gallons, U.S. Standard.
With the pressure in p.s.i.g., for which the container is designed.
With the wording “This container shall not contain a product having a vapor pressure in excess of __ p.s.i.g. at 100 °F.,” see subparagraph (14)(viii) of this paragraph.
With the tare weight in pounds or other identified unit of weight for containers with a water capacity of 300 pounds or less.
With marking indicating the maximum level to which the container may be filled with liquid at temperatures between 20 °F. and 130 °F., except on containers provided with fixed maximum level indicators or which are filled by weighing. Markings shall be increments of not more than 20 °F. This marking may be located on the liquid level gaging device.
With the outside surface area in square feet.
Markings specified shall be on a metal nameplate attached to the container and located in such a manner as to remain visible after the container is installed.
When LP-Gas and one or more other gases are stored or used in the same area, the containers shall be marked to identify their content. Marking shall conform to the marking requirements set forth in § 1910.253(b)(1)(ii).
Location of containers and regulating equipment.
Containers, and first stage regulating equipment if used, shall be located outside of buildings, except under one or more of the following:
In buildings used exclusively for container charging, vaporization pressure reduction, gas mixing, gas manufacturing, or distribution.
When portable use is necessary and in accordance with paragraph (c)(5) of this section.
LP-Gas fueled stationary or portable engines in accordance with paragraph (e) (11) or (12) of this section.
LP-Gas fueled industrial trucks used in accordance with paragraph (e)(13) of this section.
LP-Gas fueled vehicles garaged in accordance with paragraph (e)(14) of this section.
Containers awaiting use or resale when stored in accordance with paragraph (f) of this section.
Each individual container shall be located with respect to the nearest important building or group of buildings in accordance with Table H-23.
Table H-23 ____________________________________________________________________ | | Minimum distances |________________________________________ | | Water capacity per | Containers | Between container |___________________________| above- | | | ground | Under- | Above- | containers | ground | ground | ___________________________|_____________|_____________|____________ | | | Less than 125 gals(1)..... | 10 feet.....| None........| None. 125 to 250 gals............| 10 feet.....| 10 feet.....| None. 251 to 500 gals............| 10 feet.....| 10 feet.....| 3 feet. 501 to 2,000 gals..........| 25 feet(2)..| 25 feet(2)..| 3 feet. 2,001 to 30,000 gals.......| 50 feet.....| 50 feet.....| 5 feet. 30,001 to 70,000 gals......| 50 feet.....| 75 feet(3)..| 70,001 to 90,000 gals......| 50 feet.....| 100 feet(3).| ___________________________|_____________|_____________|____________ Footnote(1) If the aggregate water capacity of a multi-container installation at a consumer site is 501 gallons or greater, the minimum distance shall comply with the appropriate portion of this table, applying the aggregate capacity rather than the capacity per container. If more than one installation is made, each installation shall be separated from another installation by at least 25 feet. Do not apply the MINIMUM DISTANCES BETWEEN ABOVE-GROUND CONTAINERS to such installations. Footnote(2) The above distance requirements may be reduced to not less than 10 feet for a single container of 1,200 gallons water capacity or less, providing such a container is at least 25 feet from any other LP-Gas container of more than 125 gallons water capacity. Footnote(3) 1/4 of sum of diameters of adjacent containers.
Containers installed for use shall not be stacked one above the other.
[Reserved]
In the case of buildings devoted exclusively to gas manufacturing and distributing operations, the distances required by Table H-23 may be reduced provided that in no case shall containers of water capacity exceeding 500 gallons be located closer than 10 feet to such gas manufacturing and distributing buildings.
Readily ignitible material such as weeds and long dry grass shall be removed within 10 feet of any container.
The minimum separation between liquefied petroleum gas containers and flammable liquid tanks shall be 20 feet, and the minimum separation between a container and the centerline of the dike shall be 10 feet. The foregoing provision shall not apply when LP-Gas containers of 125 gallons or less capacity are installed adjacent to Class III flammable liquid tanks of 275 gallons or less capacity.
Suitable means shall be taken to prevent the accumulation of flammable liquids under adjacent liquified petroleum gas containers, such as by diking, diversion curbs, or grading.
When dikes are used with flammable liquid tanks, no liquefied petroleum gas containers shall be located within the diked area.
Container valves and container accessories.
Valves, fittings, and accessories connected directly to the container including primary shutoff valves, shall have a rated working pressure of at least 250 p.s.i.g. and shall be of material and design suitable for LP-Gas service. Cast iron shall not be used for container valves, fittings, and accessories. This does not prohibit the use of container valves made of malleable or nodular iron.
Connections to containers, except safety relief connections, liquid level gaging devices, and plugged openings, shall have shutoff valves located as close to the container as practicable.
Excess flow valves, where required shall close automatically at the rated flows of vapor or liquid as specified by the manufacturer. The connections or line including valves, fittings, etc., being protected by an excess flow valve shall have a greater capacity than the rated flow of the excess flow valve.
Liquid level gaging devices which are so constructed that outward flow of container contents shall not exceed that passed by a No. 54 drill size opening, need not be equipped with excess flow valves.
Openings from container or through fittings attached directly on container to which pressure gage connection is made, need not be equipped with shutoff or excess flow valves if such openings are restricted to not larger than No. 54 drill size opening.
Except as provided in paragraph (c)(5)(i)(b) of this section, excess flow and back pressure check valves where required by this section shall be located inside of the container or at a point outside where the line enters the container; in the latter case, installation shall be made in such manner that any undue strain beyond the excess flow or back pressure check valve will not cause breakage between the container and such valve.
Excess flow valves shall be designed with a bypass, not to exceed a No. 60 drill size opening to allow equalization of pressures.
Containers of more than 30 gallons water capacity and less than 2,000 gallons water capacity, filled on a volumetric basis, and manufactured after December 1, 1963, shall be equipped for filling into the vapor space.
Piping - including pipe, tubing, and fittings.
Pipe, except as provided in paragraphs (e)(6)(i) and (g)(10)(iii), of this section shall be wrought iron or steel (black or galvanized), brass, copper, or aluminum alloy. Aluminum alloy pipe shall be at least Schedule 40 in accordance with the specifications for Aluminum Alloy Pipe, American National Standards Institute (ANSI) H38.7-1969 (ASTM, B241-69), which is incorporated by reference as specified in § 1910.6, except that the use of alloy 5456 is prohibited and shall be suitably marked at each end of each length indicating compliance with American National Standard Institute Specifications. Aluminum Alloy pipe shall be protected against external corrosion when it is in contact with dissimilar metals other than galvanized steel, or its location is subject to repeated wetting by such liquids as water (except rain water), detergents, sewage, or leaking from other piping, or it passes through flooring, plaster, masonry, or insulation. Galvanized sheet steel or pipe, galvanized inside and out, may be considered suitable protection. The maximum nominal pipe size for aluminum pipe shall be three-fourths inch and shall not be used for pressures exceeding 20 p.s.i.g. Aluminum alloy pipe shall not be installed within 6 inches of the ground.
Vapor piping with operating pressures not exceeding 125 p.s.i.g. shall be suitable for a working pressure of at least 125 p.s.i.g. Pipe shall be at least Schedule 40 (ASTM A-53-69, Grade B Electric Resistance Welded and Electric Flash Welded Pipe, which is incorporated by reference as specified in § 1910.6, or equal).
Vapor piping with operating pressures over 125 p.s.i.g. and all liquid piping shall be suitable for a working pressure of at least 250 p.s.i.g. Pipe shall be at least Schedule 80 if joints are threaded or threaded and back welded. At least Schedule 40 (ASTM A-53-69 Grade B Electric Resistance Welded and Electric Flash Welded Pipe or equal) shall be used if joints are welded, or welded and flanged.
Tubing shall be seamless and of copper, brass, steel, or aluminum alloy. Copper tubing shall be of type K or L or equivalent as covered in the Specification for Seamless Copper Water Tube, ANSI H23.1-1970 (ASTM B88-69), which is incorporated by reference as specified in § 1910.6. Aluminum alloy tubing shall be of Type A or B or equivalent as covered in Specification ASTM B210-68 (which is incorporated by reference as specified in § 1910.6) and shall be suitably marked every 18 inches indicating compliance with ASTM Specifications. The minimum nominal wall thickness of copper tubing and aluminum alloy tubing shall be as specified in Table H-24 and Table H-25.
Aluminum alloy tubing shall be protected against external corrosion when it is in contact with dissimilar metals other than galvanized steel, or its location is subject to repeated wetting by liquids such as water (except rainwater), detergents, sewage, or leakage from other piping, or it passes through flooring, plaster, masonry, or insulation. Galvanized sheet steel or pipe, galvanized inside and out, may be considered suitable protection. The maximum outside diameter for aluminum alloy tubing shall be three-fourths inch and shall not be used for pressures exceeding 20 p.s.i.g. Aluminum alloy tubing shall not be installed within 6 inches of the ground.
Table H-24 Wall Thickness of Copper Tubing(1) __________________________________________________ | | | Nominal | Nominal wall thickness Standard size | outside | (inches) (inches) | diameter |________________________ | (inches | | | | Type K | Type L ______________|__________|__________|_____________ | | | 1/4 | 0.375 | 0.035 | 0.030 3/8 | 0.500 | 0.049 | 0.035 1/2 | 0.625 | 0.049 | 0.040 5/8 | 0.750 | 0.049 | 0.042 3/4 | 0.875 | 0.065 | 0.045 1 | 1.125 | 0.065 | 0.050 1 1/4 | 1.375 | 0.065 | 0.055 1 1/2 | 1.625 | 0.072 | 0.060 2 | 2.125 | 0.083 | 0.070 ______________|__________|__________|_____________ Footnote(1) Based on data in Specification for Seamless Copper Water Tube, ANSI H23.1-1970 (ASTM B-88-69). Note: The standard size by which tube is designated is 1/8 inch smaller than its nominal outside diameter.
Table H-25 - Wall Thickness of Aluminum Alloy Tubing(1) _____________________________________________________ | | Nominal wall thickness (inches) Outside diameter |_________________________________ (inches) | | | Type A | Type B ___________________|____________|____________________ | | 3/8 | 0.035 | 0.049 1/2 | 0.035 | 0.049 5/8 | 0.042 | 0.049 3/4 | 0.049 | 0.058 ___________________|____________|____________________ Footnote(1) Based on data in Standard Specification for Aluminum Alloy Drawn Seamless Coiled Tubes for Special Purpose Applications, ASTM B210-68.
In systems where the gas in liquid form without pressure reduction enters the building, only heavy walled seamless brass or copper tubing with an internal diameter not greater than three thirty-seconds inch, and a wall thickness of not less than three sixty-fourths inch shall be used. This requirement shall not apply to research and experimental laboratories, buildings, or separate fire divisions of buildings used exclusively for housing internal combustion engines, and to commercial gas plants or bulk stations where containers are charged, nor to industrial vaporizer buildings, nor to buildings, structures, or equipment under construction or undergoing major renovation.
Pipe joints may be screwed, flanged, welded, soldered, or brazed with a material having a melting point exceeding 1,000 °F. Joints on seamless copper, brass, steel, or aluminum alloy gas tubing shall be made by means of approved gas tubing fittings, or soldered or brazed with a material having a melting point exceeding 1,000 °F.
For operating pressures of 125 p.s.i.g. or less, fittings shall be designed for a pressure of at least 125 p.s.i.g. For operating pressures above 125 p.s.i.g., fittings shall be designed for a minimum of 250 p.s.i.g.
The use of threaded cast iron pipe fittings such as ells, tees, crosses, couplings, and unions is prohibited. Aluminum alloy fittings shall be used with aluminum alloy pipe and tubing. Insulated fittings shall be used where aluminum alloy pipe or tubing connects with a dissimilar metal.
Strainers, regulators, meters, compressors, pumps, etc., are not to be considered as pipe fittings. This does not prohibit the use of malleable, nodular, or higher strength gray iron for such equipment.
All materials such as valve seats, packing, gaskets, diaphragms, etc., shall be of such quality as to be resistant to the action of liquefied petroleum gas under the service conditions to which they are subjected.
All piping, tubing, or hose shall be tested after assembly and proved free from leaks at not less than normal operating pressures. After installation, piping and tubing of all domestic and commercial systems shall be tested and proved free of leaks using a manometer or equivalent device that will indicate a drop in pressure. Test shall not be made with a flame.
Provision shall be made to compensate for expansion, contraction, jarring, and vibration, and for settling. This may be accomplished by flexible connections.
Piping outside buildings may be buried, above ground, or both, but shall be well supported and protected against physical damage. Where soil conditions warrant, all piping shall be protected against corrosion. Where condensation may occur, the piping shall be pitched back to the container, or suitable means shall be provided for revaporization of the condensate.
Hose specifications.
Hose shall be fabricated of materials that are resistant to the action of LP-Gas in the liquid and vapor phases. If wire braid is used for reinforcing the hose, it shall be of corrosion-resistant material such as stainless steel.
Hose subject to container pressure shall be marked "LP-Gas" or "LPG" at not greater than 10-foot intervals.
Hose subject to container pressure shall be designed for a bursting pressure of not less than 1,250 p.s.i.g.
Hose subject to container pressure shall have its correctness as to design construction and performance determined by being listed (see § 1910.110(a)(15)).
Hose connections subject to container pressure shall be capable of withstanding, without leakage, a test pressure of not less than 500 p.s.i.g.
Hose and hose connections on the low-pressure side of the regulator or reducing valve shall be designed for a bursting pressure of not less than 125 p.s.i.g. or five times the set pressure of the relief devices protecting that portion of the system, whichever is higher.
Hose may be used on the low-pressure side of regulators to connect to other than domestic and commercial gas appliances under the following conditions:
The appliances connected with hose shall be portable and need a flexible connection.
For use inside buildings the hose shall be of minimum practical length, but shall not exceed 6 feet except as provided in paragraph (c)(5)(i)(g) of this section and shall not extend from one room to another, nor pass through any walls, partitions, ceilings, or floors. Such hose shall not be concealed from view or used in a concealed location. For use outside of buildings, the hose may exceed this length but shall be kept as short as practical.
The hose shall be approved and shall not be used where it is likely to be subjected to temperatures above 125 °F. The hose shall be securely connected to the appliance and the use of rubber slip ends shall not be permitted.
The shutoff valve for an appliance connected by hose shall be in the metal pipe or tubing and not at the appliance end of the hose. When shutoff valves are installed close to each other, precautions shall be taken to prevent operation of the wrong valve.
Hose used for connecting to wall outlets shall be protected from physical damage.
Safety devices.
Every container except those constructed in accordance with DOT specifications and every vaporizer (except motor fuel vaporizers and except vaporizers described in paragraph (b)(11)(ii)(c) of this section and paragraph (d)(4)(v)(a) of this section) whether heated by artificial means or not, shall be provided with one or more safety relief valves of spring-loaded or equivalent type. These valves shall be arranged to afford free vent to the outer air with discharge not less than 5 feet horizontally away from any opening into the building which is below such discharge. The rate of discharge shall be in accordance with the requirements of paragraph (b)(10)(ii) or (b)(10)(iii) of this section in the case of vaporizers.
Minimum required rate of discharge in cubic feet per minute of air at 120 percent of the maximum permitted start to discharge pressure for safety relief valves to be used on containers other than those constructed in accordance with DOT specification shall be as follows:
______________________________________________ | Surface area | Flow rate (sq. ft.) | CFM air ____________________________|_________________ | 20 or less................. | 626 25......................... | 751 30......................... | 872 35......................... | 990 40......................... | 1,100 45......................... | 1,220 50......................... | 1,330 55......................... | 1,430 60......................... | 1,540 65......................... | 1,640 70......................... | 1,750 75......................... | 1,850 80......................... | 1,950 85......................... | 2,050 90......................... | 2,150 95......................... | 2,240 100........................ | 2,340 105........................ | 2,440 110........................ | 2,530 115........................ | 2,630 120........................ | 2,720 125........................ | 2,810 130........................ | 2,900 135........................ | 2,990 140........................ | 3,080 145........................ | 3,170 150........................ | 3,260 155........................ | 3,350 160........................ | 3,440 165........................ | 3,530 170........................ | 3,620 175........................ | 3,700 180........................ | 3,790 185........................ | 3,880 190........................ | 3,960 195........................ | 4,050 200........................ | 4,130 210........................ | 4,300 220........................ | 4,470 230........................ | 4,630 240........................ | 4,800 250........................ | 4,960 260........................ | 5,130 270........................ | 5,290 280........................ | 5,450 290........................ | 5,610 300........................ | 5,760 310........................ | 5,920 320........................ | 6,080 330........................ | 6,230 340........................ | 6,390 350........................ | 6,540 360........................ | 6,690 370........................ | 6,840 380........................ | 7,000 390........................ | 7,150 400........................ | 7,300 450........................ | 8,040 500........................ | 8,760 550........................ | 9,470 600........................ | 10,170 650........................ | 10,860 700........................ | 11,550 750........................ | 12,220 800........................ | 12,880 850........................ | 13,540 900........................ | 14,190 950........................ | 14,830 1,000...................... | 15,470 1,050...................... | 16,100 1,100...................... | 16,720 1,150...................... | 17,350 1,200...................... | 17,960 1,250...................... | 18,570 1,300...................... | 19,180 1,350...................... | 19,780 1,400...................... | 20,380 1,450...................... | 20,980 1,500...................... | 21,570 1,550...................... | 22,160 1,600...................... | 22,740 1,650...................... | 23,320 1,700...................... | 23,900 1,750...................... | 24,470 1,800...................... | 25,050 1,850...................... | 25,620 1,900...................... | 26,180 1,950...................... | 26,750 2,000...................... | 27,310 ____________________________|________________ Surface area = total outside surface area of container in square feet.
When the surface area is not stamped on the nameplate or when the marking is not legible, the area can be calculated by using one of the following formulas:
[1] Cylindrical container with hemispherical heads: Area = Overall length X outside diameter X 3.1416. [2] Cylindrical container with other than hemispherical heads: Area = (Overall length + 0.3 outside diameter) X outside diameter X 3.1416. Note: This formula is not exact, but will give results within the limits of practical accuracy for the sole purpose of sizing relief valves. [3] Spherical container: Area = Outside diameter squared X 3.1416. Flow Rate - CFM Air = Required flow capacity in cubic feet per minute of air at standard conditions, 60 F. and atmospheric pressure (14.7 p.s.i.a.).
The rate of discharge may be interpolated for intermediate values of surface area. For containers with total outside surface area greater than 2,000 square feet, the required flow rate can be calculated using the formula, Flow Rate-CFM Air = 53.632 A0.82.
A = total outside surface area of the container in square feet.
Valves not marked “Air” have flow rate marking in cubic feet per minute of liquefied petroleum gas. These can be converted to ratings in cubic feet per minute of air by multiplying the liquefied petroleum gas ratings by factors listed below. Air flow ratings can be converted to ratings in cubic feet per minute of liquefied petroleum gas by dividing the air ratings by the factors listed below.
AIR CONVERSION FACTORS Container type....... 100 125 150 175 200 Air conversion factor.............. 1.162 1.142 1.113 1.078 1.010
Minimum Required Rate of Discharge for Safety Relief Valves for Liquefied Petroleum Gas Vaporizers (Steam Heated, Water Heated, and Direct Fired).
The minimum required rate of discharge for safety relief valves shall be determined as follows:
Obtain the total surface area by adding the surface area of vaporizer shell in square feet directly in contact with LP-Gas and the heat exchanged surface area in square feet directly in contact with LP-Gas.
Obtain the minimum required rate of discharge in cubic feet of air per minute, at 60 °F. and 14.7 p.s.i.a. from paragraph (b)(10)(ii) of this section, for this total surface area.
Container and vaporizer safety relief valves shall be set to start-to-discharge, with relation to the design pressure of the container, in accordance with Table H-26.
Safety relief devices used with systems employing containers other than those constructed according to DOT specifications shall be so constructed as to discharge at not less than the rates shown in paragraph (b)(10)(ii) of this section, before the pressure is in excess of 120 percent of the maximum (not including the 10 percent referred to in paragraph (b)(10)(iv) of this section) permitted start to discharge pressure setting of the device.
TABLE H-26 _________________________________________________________________ | | | Minimum | Maximum Containers | (percent) | (percent) __________________________________|____________|_________________ | | ASME Code; Par. U-68, U-69-1949 | | and earlier editions....... | 110 | (1)25 ASME Code; Par. U-200, U-201-1949 | | edition.........................| 88 | (1)100 ASME Code - 1950, 1952, 1956, | | 1959, 1962, 1965 and 1968 | | (Division I) editions...........| 88 | (1)100 API - ASME Code - all editions....| 88 | (1)100 DOT - As prescribed in 49 CFR | | Chapter I.......................| | __________________________________|____________|_________________ Footnote(1) Manufacturers of safety relief valves are allowed a plus tolerance not exceeding 10 percent of the set pressure marked on the valve.
In certain locations sufficiently sustained high temperatures prevail which require the use of a lower vapor pressure product to be stored or the use of a higher designed pressure vessel in order to prevent the safety valves opening as the result of these temperatures. As an alternative the tanks may be protected by cooling devices such as by spraying, by shading, or other effective means.
Safety relief valves shall be arranged so that the possibility of tampering will be minimized. If pressure setting or adjustment is external, the relief valves shall be provided with approved means for sealing adjustment.
Shutoff valves shall not be installed between the safety relief devices and the container, or the equipment or piping to which the safety relief device is connected except that a shutoff valve may be used where the arrangement of this valve is such that full required capacity flow through the safety relief device is always afforded.
Safety relief valves shall have direct communication with the vapor space of the container at all times.
Each container safety relief valve used with systems covered by paragraphs (d), (e), (g), and (h) of this section, except as provided in paragraph (e)(3)(iii) of this section shall be plainly and permanently marked with the following: “Container Type” of the pressure vessel on which the valve is designed to be installed; the pressure in p.s.i.g. at which the valve is set to discharge; the actual rate of discharge of the valve in cubic feet per minute of air at 60 °F. and 14.7 p.s.i.a.; and the manufacturer's name and catalog number, for example: T200-250-4050 AIR - indicating that the valve is suitable for use on a Type 200 container, that it is set to start to discharge at 250 p.s.i.g.; and that its rate of discharge is 4,050 cubic feet per minute of air as determined in subdivision (ii) of this subparagraph.
Safety relief valve assemblies, including their connections, shall be of sufficient size so as to provide the rate of flow required for the container on which they are installed.
A hydrostatic relief valve shall be installed between each pair of shut-off valves on liquefied petroleum gas liquid piping so as to relieve into a safe atmosphere. The start-to-discharge pressure setting of such relief valves shall not be in excess of 500 p.s.i.g. The minimum setting on relief valves installed in piping connected to other than DOT containers shall not be lower than 140 percent of the container relief valve setting and in piping connected to DOT containers not lower than 400 p.s.i.g. The start-to-discharge pressure setting of such a relief valve, if installed on the discharge side of a pump, shall be greater than the maximum pressure permitted by the recirculation device in the system.
The discharge from any safety relief device shall not terminate in or beneath any building, except relief devices covered by paragraphs (b)(6)(i) (a) through (e) of this section, or paragraphs (c) (4)(i) or (5) of this section.
Container safety relief devices and regulator relief vents shall be located not less than five (5) feet in any direction from air openings into sealed combustion system appliances or mechanical ventilation air intakes.
Vaporizer and housing.
Indirect fired vaporizers utilizing steam, water, or other heating medium shall be constructed and installed as follows:
Vaporizers shall be constructed in accordance with the requirements of paragraph (b)(3) (i)-(iii) of this section and shall be permanently marked as follows:
With the code marking signifying the specifications to which the vaporizer is constructed.
With the allowable working pressure and temperature for which the vaporizer is designed.
With the sum of the outside surface area and the inside heat exchange surface area expressed in square feet.
With the name or symbol of the manufacturer.
Vaporizers having an inside diameter of 6 inches or less exempted by the ASME Unfired Pressure Vessel Code, Section VIII of the ASME Boiler and Pressure Vessel Code - 1968 shall have a design pressure not less than 250 p.s.i.g. and need not be permanently marked.
Heating or cooling coils shall not be installed inside a storage container.
Vaporizers may be installed in buildings, rooms, sheds, or lean-tos used exclusively for gas manufacturing or distribution, or in other structures of light, noncombustible construction or equivalent, well ventilated near the floor line and roof.
When vaporizing and/or mixing equipment is located in a structure or building not used exclusively for gas manufacturing or distribution, either attached to or within such a building, such structure or room shall be separated from the remainder of the building by a wall designed to withstand a static pressure of at least 100 pounds per square foot. This wall shall have no openings or pipe or conduit passing through it. Such structure or room shall be provided with adequate ventilation and shall have a roof or at least one exterior wall of lightweight construction.
Vaporizers shall have, at or near the discharge, a safety relief valve providing an effective rate of discharge in accordance with paragraph (b)(10)(iii) of this section, except as provided in paragraph (d)(4)(v)(a), of this section.
The heating medium lines into and leaving the vaporizer shall be provided with suitable means for preventing the flow of gas into the heat systems in the event of tube rupture in the vaporizer. Vaporizers shall be provided with suitable automatic means to prevent liquid passing through the vaporizers to the gas discharge piping.
The device that supplies the necessary heat for producing steam, hot water, or other heating medium may be installed in a building, compartment, room, or lean-to which shall be ventilated near the floorline and roof to the outside. The device location shall be separated from all compartments or rooms containing liquefied petroleum gas vaporizers, pumps, and central gas mixing devices by a wall designed to withstand a static pressure of at least 100 pounds per square foot. This wall shall have no openings or pipes or conduit passing through it. This requirement does not apply to the domestic water heaters which may supply heat for a vaporizer in a domestic system.
Gas-fired heating systems supplying heat exclusively for vaporization purposes shall be equipped with automatic safety devices to shut off the flow of gas to main burners, if the pilot light should fail.
Vaporizers may be an integral part of a fuel storage container directly connected to the liquid section or gas section or both.
Vaporizers shall not be equipped with fusible plugs.
Vaporizer houses shall not have unprotected drains to sewers or sump pits.
Atmospheric vaporizers employing heat from the ground or surrounding air shall be installed as follows:
Buried underground, or
Located inside the building close to a point at which pipe enters the building provided the capacity of the unit does not exceed 1 quart.
Vaporizers of less than 1 quart capacity heated by the ground or surrounding air, need not be equipped with safety relief valves provided that adequate tests demonstrate that the assembly is safe without safety relief valves.
Direct gas-fired vaporizers shall be constructed, marked, and installed as follows:
In accordance with the requirements of the American Society of Mechanical Engineers Boiler and Pressure Vessel Code - 1968 that are applicable to the maximum working conditions for which the vaporizer is designed.
With the name of the manufacturer; rated BTU input to the burner; the area of the heat exchange surface in square feet; the outside surface of the vaporizer in square feet; and the maximum vaporizing capacity in gallons per hour.
Vaporizers may be connected to the liquid section or the gas section of the storage container, or both; but in any case there shall be at the container a manually operated valve in each connection to permit completely shutting off when desired, of all flow of gas or liquid from container to vaporizer.
Vaporizers with capacity not exceeding 35 gallons per hour shall be located at least 5 feet from container shutoff valves. Vaporizers having capacity of more than 35 gallons but not exceeding 100 gallons per hour shall be located at least 10 feet from the container shutoff valves. Vaporizers having a capacity greater than 100 gallons per hour shall be located at least 15 feet from container shutoff valves.
Vaporizers may be installed in buildings, rooms, housings, sheds, or lean-tos used exclusively for vaporizing or mixing of liquefied petroleum gas. Vaporizing housing structures shall be of noncombustible construction, well ventilated near the floorline and the highest point of the roof. When vaporizer and/or mixing equipment is located in a structure or room attached to or within a building, such structure or room shall be separated from the remainder of the building by a wall designed to withstand a static pressure of at least 100 pounds per square foot. This wall shall have no openings or pipes or conduit passing through it. Such structure or room shall be provided with adequate ventilation, and shall have a roof or at least one exterior wall of lightweight construction.
Vaporizers shall have at or near the discharge, a safety relief valve providing an effective rate of discharge in accordance with paragraph (b)(10)(iii) of this section. The relief valve shall be so located as not to be subjected to temperatures in excess of 140 °F.
Vaporizers shall be provided with suitable automatic means to prevent liquid passing from the vaporizer to the gas discharge piping of the vaporizer.
Vaporizers shall be provided with means for manually turning off the gas to the main burner and pilot.
Vaporizers shall be equipped with automatic safety devices to shut off the flow of gas to main burners if the pilot light should fail. When the flow through the pilot exceeds 2,000 B.t.u. per hour, the pilot also shall be equipped with an automatic safety device to shut off the flow of gas to the pilot should the pilot flame be extinguished.
Pressure regulating and pressure reducing equipment if located within 10 feet of a direct fire vaporizer shall be separated from the open flame by a substantially airtight noncombustible partition or partitions.
Except as provided in (c) of this subdivision, the following minimum distances shall be maintained between direct fired vaporizers and the nearest important building or group of buildings:
Ten feet for vaporizers having a capacity of 15 gallons per hour or less vaporizing capacity.
Twenty-five feet for vaporizers having a vaporizing capacity of 16 to 100 gallons per hour.
Fifty feet for vaporizers having a vaporizing capacity exceeding 100 gallons per hour.
Direct fired vaporizers shall not raise the product pressure above the design pressure of the vaporizer equipment nor shall they raise the product pressure within the storage container above the pressure shown in the second column of Table H-31.
Vaporizers shall not be provided with fusible plugs.
Vaporizers shall not have unprotected drains to sewers or sump pits.
Direct gas-fired tank heaters shall be constructed and installed as follows:
Direct gas-fired tank heaters, and tanks to which they are applied, shall only be installed above ground.
Tank heaters shall be permanently marked with the name of the manufacturer, the rated B.t.u. input to the burner, and the maximum vaporizing capacity in gallons per hour.
Tank heaters may be an integral part of a fuel storage container directly connected to the container liquid section, or vapor section, or both.
Tank heaters shall be provided with a means for manually turning off the gas to the main burner and pilot.
Tank heaters shall be equipped with an automatic safety device to shut off the flow of gas to main burners, if the pilot light should fail. When flow through pilot exceeds 2,000 B.t.u. per hour, the pilot also shall be equipped with an automatic safety device to shut off the flow of gas to the pilot should the pilot flame be extinguished.
Pressure regulating and pressure reducing equipment if located within 10 feet of a direct fired tank heater shall be separated from the open flame by a substantially airtight noncombustible partition.
The following minimum distances shall be maintained between a storage tank heated by a direct fired tank heater and the nearest important building or group of buildings:
Ten feet for storage containers of less than 500 gallons water capacity.
Twenty-five feet for storage containers of 500 to 1,200 gallons water capacity.
Fifty feet for storage containers of over 1,200 gallons water capacity.
No direct fired tank heater shall raise the product pressure within the storage container over 75 percent of the pressure set out in the second column of Table H-31.
The vaporizer section of vaporizer-burners used for dehydrators or dryers shall be located outside of buildings; they shall be constructed and installed as follows:
Vaporizer-burners shall have a minimum design pressure of 250 p.s.i.g. with a factor of safety of five.
Manually operated positive shut-off valves shall be located at the containers to shut off all flow to the vaporizer-burners.
Minimum distances between storage containers and vaporizer-burners shall be as follows:
___________________________________________________ | | Minimum Water capacity per container (gallons) | distances | (feet) _______________________________________|___________ | Less than 501..........................| 10 501 to 2,000...........................| 25 Over 2,000.............................| 50 _______________________________________|___________
The vaporizer section of vaporizer-burners shall be protected by a hydrostatic relief valve. The relief valve shall be located so as not to be subjected to temperatures in excess of 140 °F. The start-to-discharge pressure setting shall be such as to protect the components involved, but not less than 250 p.s.i.g. The discharge shall be directed upward and away from component parts of the equipment and away from operating personnel.
Vaporizer-burners shall be provided with means for manually turning off the gas to the main burner and pilot.
Vaporizer-burners shall be equipped with automatic safety devices to shut off the flow of gas to the main burner and pilot in the event the pilot is extinguished.
Pressure regulating and control equipment shall be located or protected so that the temperatures surrounding this equipment shall not exceed 140 °F. except that equipment components may be used at higher temperatures if designed to withstand such temperatures.
Pressure regulating and control equipment when located downstream of the vaporizer shall be designed to withstand the maximum discharge temperature of the vapor.
The vaporizer section of vaporizer-burners shall not be provided with fusible plugs.
Vaporizer coils or jackets shall be made of ferrous metal or high temperature alloys.
Equipment utilizing vaporizer-burners shall be equipped with automatic shutoff devices upstream and downstream of the vaporizer section connected so as to operate in the event of excessive temperature, flame failure, and, if applicable, insufficient airflow.
Filling densities.
The “filling density” is defined as the percent ratio of the weight of the gas in a container to the weight of water the container will hold at 60 °F. All containers shall be filled according to the filling densities shown in Table H-27.
TABLE H-27 - MAXIMUM PERMITTED FILLING DENSITY __________________________________________________________________ | | | Above Ground Containers | |_________________________________| | | | Specific Gravity | 0 to 1,200 | Over 1,200 | Under at 60 deg. F. | U.S. gals | U.S. gals | ground (15.6 deg. C.) | (1,000 imp. | (1,000 imp. | containers | gal., 4,550 | gal., 4,550 | all | liters) total | liters) total | capacities | water cap. | water cap. | _________________|_________________|_______________|______________ | | | | Percent | Percent | Percent 0.496 - 0 .503 | 41 | 44 | 45 .504 - .510 | 42 | 45 | 46 .511 - .519 | 43 | 46 | 47 .520 - .527 | 44 | 47 | 48 .528 - .536 | 45 | 48 | 49 .537 - .544 | 46 | 49 | 50 .545 - .552 | 47 | 50 | 51 .553 - .560 | 48 | 51 | 52 .561 - .568 | 49 | 52 | 53 .569 - .576 | 50 | 53 | 54 .577 - .584 | 51 | 54 | 55 .585 - .592 | 52 | 55 | 56 .593 - .600 | 53 | 56 | 57 _________________|_________________|_______________|______________
Except as provided in paragraph (b)(12)(iii) of this section, any container including mobile cargo tanks and portable tank containers regardless of size or construction, shipped under DOT jurisdiction or constructed in accordance with 49 CFR chapter I Specifications shall be charged according to 49 CFR chapter I requirements.
Portable containers not subject to DOT jurisdiction (such as, but not limited to, motor fuel containers on industrial and lift trucks, and farm tractors covered in paragraph (e) of this section, or containers recharged at the installation) may be filled either by weight, or by volume using a fixed length dip tube gaging device.
LP-Gas in buildings.
Vapor shall be piped into buildings at pressures in excess of 20 p.s.i.g. only if the buildings or separate areas thereof,
are constructed in accordance with this section;
are used excusively to house equipment for vaporization, pressure reduction, gas mixing, gas manufacturing, or distribution, or to house internal combustion engines, industrial processes, research and experimental laboratories, or equipment and processes using such gas and having similar hazard;
buildings, structures, or equipment under construction or undergoing major renovation.
Liquid may be permitted in buildings as follows:
Buildings, or separate areas of buildings, used exclusively to house equipment for vaporization, pressure reduction, gas mixing, gas manufacturing, or distribution, or to house internal combustion engines, industrial processes, research and experimental laboratories, or equipment and processes using such gas and having similar hazard; and when such buildings, or separate areas thereof are constructed in accordance with this section.
Buildings, structures, or equipment under construction or undergoing major renovation provided the temporary piping meets the following conditions:
Liquid piping inside the building shall conform to the requirements of paragraph (b)(8) of this section, and shall not exceed three-fourths iron pipe size. Copper tubing with an outside diameter of three-fourths inch or less may be used provided it conforms to Type K of Specifications for Seamless Water Tube, ANSI H23.1-1970 (ASTM B88-69) (see Table H-24). All such piping shall be protected against construction hazards. Liquid piping inside buildings shall be kept to a minimum. Such piping shall be securely fastened to walls or other surfaces so as to provide adequate protection from breakage and so located as to subject the liquid line to lowest ambient temperatures.
A shutoff valve shall be installed in each intermediate branch line where it takes off the main line and shall be readily accessible. A shutoff valve shall also be placed at the appliance end of the intermediate branch line. Such shutoff valve shall be upstream of any flexible connector used with the appliance.
Suitable excess flow valves shall be installed in the container outlet line supplying liquid LP-Gas to the building. A suitable excess flow valve shall be installed immediately downstream of each shutoff valve. Suitable excess flow valves shall be installed where piping size is reduced and shall be sized for the reduced size piping.
Hydrostatic relief valves shall be installed in accordance with paragraph (b)(10)(xii) of this section.
The use of hose to carry liquid between the container and the building or at any point in the liquid line, except at the appliance connector, shall be prohibited.
Where flexible connectors are necessary for appliance installation, such connectors shall be as short as practicable and shall comply with paragraph (b)(8)(ii) or (9) of this section.
Release of fuel when any section of piping or appliances is disconnected shall be minimized by either of the following methods:
{i} Using an approved automatic quick-closing coupling (a type closing in both directions when coupled in the fuel line), or
{ii} Closing the valve nearest to the appliance and allowing the appliance to operate until the fuel in the line is consumed.
Portable containers shall not be taken into buildings except as provided in paragraph (b)(6)(i) of this section.
Transfer of liquids. The employer shall assure that
at least one attendant shall remain close to the transfer connection from the time the connections are first made until they are finally disconnected, during the transfer of the product.
Containers shall be filled or used only upon authorization of the owner.
Containers manufactured in accordance with specifications of 49 CFR part 178 and authorized by 49 CFR chapter 1 as a "single trip" or "nonrefillable container" shall not be refilled or reused in LP-Gas service.
Gas or liquid shall not be vented to the atmosphere to assist in transferring contents of one container to another, except as provided in paragraph (e)(5)(iv) of this section and except that this shall not preclude the use of listed pump utilizing LP-Gas in the vapor phase as a source of energy and venting such gas to the atmosphere at a rate not to exceed that from a No. 31 drill size opening and provided that such venting and liquid transfer shall be located not less than 50 feet from the nearest important building.
Filling of fuel containers for industrial trucks or motor vehicles from industrial bulk storage containers shall be performed not less than 10 feet from the nearest important masonry-walled building or not less than 25 feet from the nearest important building or other construction and, in any event, not less than 25 feet from any building opening.
Filling of portable containers, containers mounted on skids, fuel containers on farm tractors, or similar applications, from storage containers used in domestic or commercial service, shall be performed not less than 50 feet from the nearest important building.
The filling connection and the vent from the liquid level gages in containers, filled at point of installation, shall not be less than 10 feet in any direction from air openings into sealed combustion system appliances or mechanical ventilation air intakes.
Fuel supply containers shall be gaged and charged only in the open air or in buildings especially provided for that purpose.
The maximum vapor pressure of the product at 100 °F. which may be transferred into a container shall be in accordance with paragraphs (d)(2) and (e)(3) of this section. (For DOT containers use DOT requirements.)
Marketers and users shall exercise precaution to assure that only those gases for which the system is designed, examined, and listed, are employed in its operation, particularly with regard to pressures.
Pumps or compressors shall be designed for use with LP-Gas. When compressors are used they shall normally take suction from the vapor space of the container being filled and discharge to the vapor space of the container being emptied.
Pumping systems, when equipped with a positive displacement pump, shall include a recirculating device which shall limit the differential pressure on the pump under normal operating conditions to the maximum differential pressure rating of the pump. The discharge of the pumping system shall be protected so that pressure does not exceed 350 p.s.i.g. If a recirculation system discharges into the supply tank and contains a manual shutoff valve, an adequate secondary safety recirculation system shall be incorporated which shall have no means of rendering it inoperative. Manual shutoff valves in recirculation systems shall be kept open except during an emergency or when repairs are being made to the system.
When necessary, unloading piping or hoses shall be provided with suitable bleeder valves for relieving pressure before disconnection.
Agricultural air moving equipment, including crop dryers, shall be shut down when supply containers are being filled unless the air intakes and sources of ignition on the equipment are located 50 feet or more from the container.
Agricultural equipment employing open flames or equipment with integral containers, such as flame cultivators, weed burners, and, in addition, tractors, shall be shut down during refueling.
Tank car or transport truck loading or unloading points and operations.
The track of tank car siding shall be relatively level.
A "Tank Car Connected" sign, as covered by DOT rules, shall be installed at the active end or ends of the siding while the tank car is connected.
While cars are on sidetrack for loading or unloading, the wheels at both ends shall be blocked on the rails.
The employer shall insure that an employee is in attendance at all times while the tank car, cars, or trucks are being loaded or unloaded.
A backflow check valve, excess-flow valve, or a shutoff valve with means of remote closing, to protect against uncontrolled discharge of LP-Gas from storage tank piping shall be installed close to the point where the liquid piping and hose or swing joint pipe is connected.
Where practical, the distance of the unloading or loading point shall conform to the distances in subparagraph (6)(ii) of this paragraph.
Instructions. Personnel performing installation, removal, operation, and maintenance work shall be properly trained in such function.
Electrical equipment and other sources of ignition.
Electrical equipment and wiring shall be of a type specified by and shall be installed in accordance with subpart S of this part, for ordinary locations except that fixed electrical equipment in classified areas shall comply with subparagraph (18) of this paragraph.
Open flames or other sources of ignition shall not be permitted in vaporizer rooms (except those housing direct-fired vaporizers), pumphouses, container charging rooms or other similar locations. Direct-fired vaporizers shall not be permitted in pumphouses or container charging rooms.
Liquefied petroleum gas storage containers do not require lightning protection.
Since liquefied petroleum gas is contained in a closed system of piping and equipment, the system need not be electrically conductive or electrically bonded for protection against static electricity.
Open flames (except as provided for in paragraph (b)(11) of this section), cutting or welding, portable electric tools, and extension lights capable of igniting LP-Gas, shall not be permitted within classified areas specified in Table H-28 unless the LP-Gas facilities have been freed of all liquid and vapor, or special precautions observed under carefully controlled conditions.
TABLE H-28 ____________________________________________________________________ | | | | Equipment shall | Extent of classified | be suitable Part Location | areas(1) | for Class 1, | | Group D(2) ____________________|_____________________________|_________________ | | A.. Storage | Within 15 feet in all | Division 2. containers | directions from | other than DOT | connections, except | cylinders. | connections otherwise | | covered in Table H-28. | | | B.. Tank vehicle | Within 5 feet in all | Division 1. and tank car | directions from | loading and | connections regularly made | unloading(3). | or disconnected for | | product transfer. | | | | Beyond 5 feet but within 15 | Division 2. | feet in all directions | | from a point where | | connections are regularly | | made or disconnected and | | within the cylindrical | | volume between the | | horizontal equator of the | | sphere and grade. | | (See Figure H-1). | | | C.. Gage vent | Within 5 feet in all | openings other | directions from point of | than those on | discharge ................ | Division 1. DOT cylinders. | | | | | Beyond 5 feet but within 15 | | feet in all directions | | from point of discharge .. | Division 2. | | D.. Relief valve | Within direct path of | discharge | discharge ................ | Division 1. other than | | those on DOT | | cylinders. | | | | | Within 5 feet in all | | directions from point of | | discharge................. | Division 1. | | | Beyond 5 feet but within 15 | Division 2. | feet in all directions | | from point of discharge | | except within the direct | | path of discharge. | | | E.. Pumps, | | compressors, | | gas-air mixers | | and vaporizers | | other than | | direct fired. | | | | Indoors without | Entire room and any | Division 1. ventilation .. | adjacent room not | | separated by a gastight | | partition. | | | | Within 15 feet of the | Division 2. | exterior side of any | | exterior wall or roof that | | is not vaportight or | | within 15 feet of any | | exterior opening. | | | Indoors with | Entire room and any | Division 2. adequate | adjacent room not | ventilation(4). | separated by a gastight | | partition. | | | Outdoors in | Within 15 feet in all | Division 2. open air at | directions from this | or abovegrade. | equipment and within the | | cylindrical volume between | | the horizontal equator of | | the sphere and grade. | | See figure H-1. | | | F.. Service | Entire space within | Division 1. Station | dispenser enclosure, and | Dispensing | 18 inches horizontally | Units. | from enclosure exterior up | | to an elevation 4 ft. | | above dispenser base. | | Entire pit or open space | | beneath dispenser. | | | | Up to 18 inches abovegrade | Division 2. | within 20 ft. horizontally | | from any edge of enclosure.| | | | NOTE: For pits within this | | area, see Part F of this | | table. | | | G.. Pits or | | trenches | | containing or | | located | | beneath LP-Gas | | valves, pumps, | | compressors, | | regulators, | | and similar | | equipment. | | | | Without | Entire pit or trench ...... | Division 1. mechanical | | ventilation. | | | | | Entire room and any | Division 1. | adjacent room not | | separated by a gastight | | partition. | | | | Within 15 feet in all | Division 2. | directions from pit or | | trench when located | | outdoors. | | | With adequate | Entire pit or trench ...... | Division 2. mechanical | | ventilation. | | | | | Entire room and any | Division 2. | adjacent room not | | separated by a gastight | | partition. | | | | Within 15 feet in all | Division 2. | directions from pit or | | trench when located | | outdoors. | | | H.. Special | Entire room ............... | Division 2. buildings or | | rooms for | | storage of | | portable | | containers. | | | | Pipelines and | Within 5 ft. in all | connections | directions from point of | containing | discharge................. | Division 1. operational | | bleeds, drips, | Beyond 5 ft. from point of | vents or | discharge, same as Part E | drains. | of this table ............ | | | J.. Container | | filling: | | Indoors without | | ventilation .. | Entire room ............... | Division 1. | | Indoors with | Within 5 feet in all | adequate | directions from | ventilation(4). | connections regularly made | | or disconnected for | | product transfer. | Division 1. | | | Beyond 5 feet and entire | | room ..................... | Division 2. | | Outdoors in | Within 5 feet in all | Division 1. open air...... | directions from | | connections regularly made | | or disconnected for | | product transfer. | | | | Beyond 5 feet but within 15 | Division 2. | feet in all directions | | from a point where | | connections are regularly | | made or disconnected and | | within the cylindrical | | volume between the | | horizontal equator of the | | sphere and grade. | | (See Figure H-1). | ____________________|_____________________________|_________________ Footnote(1) The classified area shall not extend beyond an unpierced wall, roof, or solid vaportight partition. Footnote(2) See subpart S of this part. Footnote(3) When classifying extent of hazardous area, consideration shall be given to possible variations in the spotting of tank cars and tank vehicles at the unloading points and the effect these variations of actual spotting point may have on the point of connection. Footnote(4) Ventilation, either natural or mechanical, is considered adequate when the concentration of the gas in a gas-air mixture does not exceed 25 percent of the lower flammable limit under normal operating conditions. FIGURE H-1 (For Figure H-1, Click Here)
Fixed electrical equipment in classified areas. Fixed electrical equipment and wiring installed within classified areas specified in Table H-28 shall comply with Table H-28 and shall be installed in accordance with subpart S of this part. This provision does not apply to fixed electrical equipment at residential or commercial installations of LP-Gas systems or to systems covered by paragraph (e) or (g) of this section.
Liquid-level gaging device.
Each container manufactured after December 31, 1965, and filled on a volumetric basis shall be equipped with a fixed liquid-level gage to indicate the maximum permitted filling level as provided in paragraph (b)(19)(v) of this section. Each container manufactured after December 31, 1969, shall have permanently attached to the container adjacent to the fixed level gage a marking showing the percentage full that will be shown by that gage. When a variable liquid-level gage is also provided, the fixed liquid-level gage will also serve as a means for checking the variable gage. These gages shall be used in charging containers as required in paragraph (b)(12) of this section.
All variable gaging devices shall be arranged so that the maximum liquid level for butane, for a 50-50 mixture of butane and propane, and for propane, to which the container may be charged is readily determinable. The markings indicating the various liquid levels from empty to full shall be on the system nameplate or gaging device or part may be on the system nameplate and part on the gaging device. Dials of magnetic or rotary gages shall show whether they are for cylindrical or spherical containers and whether for aboveground or underground service. The dials of gages intended for use only on aboveground containers of over 1,200 gallons water capacity shall be so marked.
Gaging devices that require bleeding of the product to the atmosphere, such as the rotary tube, fixed tube, and slip tube, shall be designed so that the bleed valve maximum opening is not larger than a No. 54 drill size, unless provided with excess flow valve.
Gaging devices shall have a design working pressure of at least 250 p.s.i.g.
Length of tube or position of fixed liquid-level gage shall be designed to indicate the maximum level to which the container may be filled for the product contained. This level shall be based on the volume of the product at 40 °F. at its maximum permitted filling density for aboveground containers and at 50 °F. for underground containers. The employer shall calculate the filling point for which the fixed liquid level gage shall be designed according to the method in this subdivision.
It is impossible to set out in a table the length of a fixed dip tube for various capacity tanks because of the varying tank diameters and lengths and because the tank may be installed either in a vertical or horizontal position. Knowing the maximum permitted filling volume in gallons, however, the length of the fixed tube can be determined by the use of a strapping table obtained from the container manufacturer. The length of the fixed tube should be such that when its lower end touches the surface of the liquid in the container, the contents of the container will be the maximum permitted volume as determined by the following formula:
[(Water capacity (gals.) of container* X filling density**) divided by (Specific gravity of LP-Gas* X volume correction factor X 100)] = Maximum volume of LP-Gas *Measured at 60 deg. F. **From subparagraph (12) of this paragraph "Filling Densities." For aboveground containers the liquid temperature is assumed to be 40 deg. F. and for underground containers the liquid temperature is assumed to be 50 deg. F. To correct the liquid volumes at these temperatures to 60 deg. F. the following factors shall be used.
Formula for determining maximum volume of liquefied petroleum gas for which a fixed length of dip tube shall be set:
TABLE H-29 - VOLUME CORRECTION FACTORS ______________________________________________ | | Specific gravity | Aboveground | Underground _________________|_____________|______________ | | 0.500 | 1.033 | 1.017 .510 | 1.031 | 1.016 .520 | 1.029 | 1.015 .530 | 1.028 | 1.014 .540 | 1.026 | 1.013 .550 | 1.025 | 1.013 .560 | 1.024 | 1.012 .570 | 1.023 | 1.011 .580 | 1.021 | 1.011 .590 | 1.020 | 1.010 _________________|_____________|______________
The maximum volume of LP-Gas which can be placed in a container when determining the length of the dip tube expressed as a percentage of total water content of the container is calculated by the following formula.
The maximum weight of LP-Gas which may be placed in a container for determining the length of a fixed dip tube is determined by multiplying the maximum volume of liquefied petroleum gas obtained by the formula in paragraph (b)(19)(b) of this section by the pounds of liquefied petroleum gas in a gallon at 40 °F. for abovegound and at 50 °F. for underground containers. For example, typical pounds per gallon are specified below:
Example: Assume a 100-gallon total water capacity tank for aboveground storage of propane having a specific gravity of 0.510 of 60 °F.
[(100 (gals.) × 42 (filling density from subparagraph (12) of this paragraph)) ÷ (0.510 × 1.031 (correction factor from Table H-29) × 100)] = (4200 ÷ 52.6)
(4200 ÷ 52.6) = 79.8 gallons propane, the maximum amount permitted to be placed in a 100-gallon total water capacity aboveground container equipped with a fixed dip tube.
[(Maximum volume of LP-Gas (from formula in subdivision (b) of this subdivision) × 100) ÷ Total water content of container in gallons] = Maximum percent of LP-Gas
______________________________________________________ | | | Above-ground, | Under-ground | pounds per gallon | pounds per gallon ______________|___________________|___________________ | | Propane.......| 4.37 | 4.31 N Butane......| 4.97 | 4.92 ______________|___________________|___________________
Fixed liquid-level gages used on containers other than DOT containers shall be stamped on the exterior of the gage with the letters "DT" followed by the vertical distance (expressed in inches and carried out to one decimal place) from the top of container to the end of the dip tube or to the centerline of the gage when it is located at the maximum permitted filling level. For portable containers that may be filled in the horizontal and/or vertical position the letters "DT" shall be followed by "V" with the vertical distance from the top of the container to the end of the dip tube for vertical filling and with "H" followed by the proper distance for horizontal filling. For DOT containers the stamping shall be placed both on the exterior of the gage and on the container. On above-ground or cargo containers where the gages are positioned at specific levels, the marking may be specified in percent of total tank contents and the marking shall be stamped on the container.
Gage glasses of the columnar type shall be restricted to charging plants where the fuel is withdrawn in the liquid phase only. They shall be equipped with valves having metallic handwheels, with excess flow valves, and with extra-heavy glass adequately protected with a metal housing applied by the gage manufacturer. They shall be shielded against the direct rays of the sun. Gage glasses of the columnar type are prohibited on tank trucks, and on motor fuel tanks, and on containers used in domestic, commercial, and industrial installations.
Gaging devices of the float, or equivalent type which do not require flow for their operation and having connections extending to a point outside the container do not have to be equipped with excess flow valves provided the piping and fittings are adequately designed to withstand the container pressure and are properly protected against physical damage and breakage.
Requirements for appliances.
Except as provided in paragraph (b)(20)(ii) of this section, new commercial and industrial gas consuming appliances shall be approved.
Any appliance that was originally manufactured for operation with a gaseous fuel other than LP-Gas and is in good condition may be used with LP-Gas only after it is properly converted, adapted, and tested for performance with LP-Gas before the appliance is placed in use.
Unattended heaters used inside buildings for the purpose of animal or poultry production or care shall be equipped with an approved automatic device designed to shut off the flow of gas to the main burners, and pilot if used, in the event of flame extinguishment.
All commercial, industrial, and agricultural appliances or equipment shall be installed in accordance with the requirements of this section and in accordance with the following NFPA consensus standards, which are incorporated by reference as specified in § 1910.6:
Domestic and commercial appliances - NFPA 54-1969, Standard for the Installation of Gas Appliances and Gas Piping.
Industrial appliances - NFPA 54A-1969, Standard for the Installation of Gas Piping and Gas Equipment on Industrial Premises and Certain Other Premises.
Standard for the Installation and Use of Stationary Combustion Engines and Gas Turbines - NFPA 37-1970.
Standard for the Installation of Equipment for the Removal of Smoke and Grease-Laden Vapors from Commercial Cooking Equipment, NFPA 96-1970.
Cylinder systems -
Application. This paragraph applies specifically to systems utilizing containers constructed in accordance with DOT Specifications. All requirements of paragraph (b) of this section apply to this paragraph unless otherwise noted in paragraph (b) of this section.
Marking of containers. Containers shall be marked in accordance with DOT regulations. Additional markings not in conflict with DOT regulations may be used.
Description of a system. A system shall include the container base or bracket, containers, container valves, connectors, manifold valve assembly, regulators, and relief valves.
Containers and regulating equipment installed outside of buildings or structures.
Containers shall not be buried below ground. However, this shall not prohibit the installation in a compartment or recess below grade level such as a niche in a slope or terrace wall which is used for no other purpose, providing that the container and regulating equipment are not in contact with the ground and the compartment or recess is drained and ventilated horizontally to the outside air from its lowest level, with the outlet at least 3 feet away from any building opening which is below the level of such outlet.
Except as provided in paragraph (b)(10)(xiii) of this section, the discharge from safety relief devices shall be located not less than 3 feet horizontally away from any building opening which is below the level of such discharge and shall not terminate beneath any building unless such space is well ventilated to the outside and is not enclosed on more than two sides.
Containers shall be set upon firm foundation or otherwise firmly secured; the possible effect on the outlet piping of settling shall be guarded against by a flexible connection or special fitting.
Containers and equipment used inside of buildings or structures.
When operational requirements make portable use of containers necessary and their location outside of buildings or structure is impracticable, containers and equipment are permitted to be used inside of buildings or structures in accordance with (a) through (l) of this subdivision, and, in addition, such other provisions of this subparagraph as are applicable to the particular use or occupancy.
Containers in use shall mean connected for use.
Systems utilizing containers having a water capacity greater than 2½ pounds (nominal 1 pound LP-Gas capacity) shall be equipped with excess flow valves. Such excess flow valves shall be either integral with the container valves or in the connections to the container valve outlets. In either case, an excess flow valve shall be installed in such a manner that any undue strain beyond the excess flow valve will not cause breakage between the container and the excess flow valve. The installation of excess flow valves shall take into account the type of valve protection provided.
Regulators, if used, shall be either directly connected to the container valves or to manifolds connected to the container values. The regulator shall be suitable for use with LP-Gas. Manifolds and fittings connecting containers to pressure regulator inlets shall be designed for at least 250 p.s.i.g. service pressure.
Valves on containers having a water capacity greater than 50 pounds (nominal 20 pounds LP-Gas capacity) shall be protected while in use.
Containers shall be marked in accordance with paragraph (b)(5)(iii) of this section and paragraph (c)(2) of this section.
Pipe or tubing shall conform to paragraph (b)(8) of this section except that aluminum pipe or tubing shall not be used.
Hose shall be designed for a working pressure of at least 250 p.s.i.g. Hose and hose connections shall have their correctness as to design, construction and performance determined by listing by a nationally recognized testing laboratory. The hose length may exceed the length specified in paragraph (b)(9)(vii)(b) of this section, but shall be as short as practicable. Refer to § 1910.7 for definition of nationally recognized testing laboratory.
Hose shall be long enough to permit compliance with spacing provisions of this subparagraph without kinking or straining or causing hose to be so close to a burner as to be damaged by heat.
Portable heaters, including salamanders, shall be equipped with an approved automatic device to shut off the flow of gas to the main burner, and pilot if used, in the event of flame extinguishment. Such heaters having inputs above 50,000 B.t.u. manufactured on or after May 17, 1967, and such heaters having inputs above 100,000 B.t.u. manufactured before May 17, 1967, shall be equipped with either.
A pilot which must be lighted and proved before the main burner can be turned on; or
An electric ignition system.
The provisions of this paragraph (h) do not apply to tar kettle burners, torches, melting pots, nor do they apply to portable heaters under 7,500 B.t.u.h. input when used with containers having a maximum water capacity of 2½ pounds. Container valves, connectors, regulators, manifolds, piping, and tubing shall not be used as structural supports for heaters.
Containers, regulating equipment, manifolds, pipe, tubing, and hose shall be located so as to minimize exposure to abnormally high temperatures (such as may result from exposure to convection or radiation from heating equipment or installation in confined spaces), physical damage, or tampering by unauthorized persons.
Heat producing equipment shall be located and used so as to minimize the possibility of ignition of combustibles.
Containers having a water capacity greater than 2½ pounds (nominal 1 pound LP-Gas capacity) connected for use, shall stand on a firm and substantially level surface and, when necessary, shall be secured in an upright position.
Containers, including the valve protective devices, shall be installed so as to minimize the probability of impingement of discharge of safety relief devices upon containers.
Containers having a maximum water capacity of 2½ pounds (nominal 1 pound LP-Gas capacity) are permitted to be used inside of buildings as part of approved self-contained hand torch assemblies or similar appliances.
Containers having a maximum water capacity of 12 pounds (nominal 5 pounds LP-Gas capacity) are permitted to be used temporarily inside of buildings for public exhibition or demonstration purposes, including use for classroom demonstrations.
[Reserved]
Containers are permitted to be used in buildings or structures under construction or undergoing major renovation when such buildings or structures are not occupied by the public, as follows:
The maximum water capacity of individual containers shall be 245 pounds (nominal 100 pounds LP-Gas capacity).
For temporary heating such as curing concrete, drying plaster and similar applications, heaters (other than integral heater-container units) shall be located at least 6 feet from any LP-Gas container. This shall not prohibit the use of heaters specifically designed for attachment to the container or to a supporting standard, provided they are designed and installed so as to prevent direct or radiant heat application from the heater onto the container. Blower and radiant type heaters shall not be directed toward any LP-Gas container within 20 feet.
If two or more heater-container units, of either the integral or nonintegral type, are located in an unpartitioned area on the same floor, the container or containers of each unit shall be separated from the container or containers of any other unit by at least 20 feet.
When heaters are connected to containers for use in an unpartitioned area on the same floor, the total water capacity of containers manifolded together for connection to a heater or heaters shall not be greater than 735 pounds (nominal 300 pounds LP-Gas capacity). Such manifolds shall be separated by at least 20 feet.
On floors on which heaters are not connected for use, containers are permitted to be manifolded together for connection to a heater or heaters on another floor, Provided:
The total water capacity of containers connected to any one manifold is not greater than 2,450 pounds (nominal 1,000 pounds LP-Gas capacity) and;
Where more than one manifold having a total water capacity greater than 735 pounds (nominal 300 pounds LP-Gas capacity) are located in the same unpartitioned area, they shall be separated by at least 50 feet.
Storage of containers awaiting use shall be in accordance with paragraph (f) of this section.
Containers are permitted to be used in industrial occupancies for processing, research, or experimental purposes as follows:
The maximum water capacity of individual containers shall be 245 pounds (nominal 100 pounds LP-Gas capacity).
Containers connected to a manifold shall have a total water capacity not greater than 735 pounds (nominal 300 pounds LP-Gas capacity) and not more than one such manifold may be located in the same room unless separated at least 20 feet from a similar unit.
The amount of LP-Gas in containers for research and experimental use shall be limited to the smallest practical quantity.
Containers are permitted to be used in industrial occupancies with essentially noncombustible contents where portable equipment for space heating is essential and where a permanent heating installation is not practical, as follows:
Containers and heaters shall comply with and be used in accordance with paragraph (c)(5)(v) of this section.
Containers are permitted to be used in buildings for temporary emergency heating purposes, if necessary to prevent damage to the buildings or contents, when the permanent heating system is temporarily out of service, as follows:
Containers and heaters shall comply with and be used in accordance with paragraph (c)(5)(v) of this section.
The temporary heating equipment shall not be left unattended.
Containers are permitted to be used temporarily in buildings for training purposes related in installation and use of LP-Gas systems, as follows:
The maximum water capacity of individual containers shall be 245 pounds (nominal 100 pounds LP-Gas capacity), but the maximum quantity of LP-Gas that may be placed in each container shall be 20 pounds.
If more than one such container is located in the same room, the containers shall be separated by at least 20 feet.
Container valves and accessories.
Valves in the assembly of multiple container systems shall be arranged so that replacement of containers can be made without shutting off the flow of gas in the system.
Note:
This provision is not to be construed as requiring an automatic changeover device.
Regulators and low-pressure relief devices shall be rigidly attached to the cylinder valves, cylinders, supporting standards, the building walls or otherwise rigidly secured and shall be so installed or protected that the elements (sleet, snow, or ice) will not affect their operation.
Valves and connections to the containers shall be protected while in transit, in storage, and while being moved into final utilization, as follows:
By setting into the recess of the container to prevent the possibility of their being struck if the container is dropped upon a flat surface, or
By ventilated cap or collar, fastened to the container capable of withstanding a blow from any direction equivalent to that of a 30-pound weight dropped 4 feet. Construction must be such that a blow will not be transmitted to the valve or other connection.
When containers are not connected to the system, the outlet valves shall be kept tightly closed or plugged, even though containers are considered empty.
Containers having a water capacity in excess of 50 pounds (approximately 21 pounds LP-Gas capacity), recharged at the installation, shall be provided with excess flow or backflow check valves to prevent the discharge of container contents in case of failure of the filling or equalizing connection.
Safety devices.
Containers shall be provided with safety devices as required by DOT regulations.
A final stage regulator of an LP-Gas system (excluding any appliance regulator) shall be equipped on the low-pressure side with a relief valve which is set to start to discharge within the limits specified in Table H-30.
TABLE H-30 ________________________________________________________ | | Relief valve start-to- | discharge pressure setting Regulator delivery pressure | (percent of regulator | delivery pressure) |____________________________ | | | Minimum | Maximum ____________________________|______________|_____________ | | 1 p.s.i.g. or less..........| 200 | 300 Above 1 p.s.i.g. but not | | over 3 p.s.i.g............| 140 | 200 Above 3 p.s.i.g.............| 125 | 200 ____________________________|______________|_____________
When a regulator or pressure relief valve is used inside a building for other than purposes specified in paragraphs (b)(6)(i) (a)-(g) of this section, the relief valve and the space above the regulator and relief valve diaphragms shall be vented to the outside air with the discharge outlet located not less than 3 feet horizontally away from any building opening which is below such discharge. These provisions do not apply to individual appliance regulators when protection is otherwise provided nor to paragraph (c)(5) of this section and paragraph (b)(10)(xiii) of this section. In buildings devoted exclusively to gas distribution purposes, the space above the diaphragm need not be vented to the outside.
Reinstallation of containers. Containers shall not be reinstalled unless they are requalified in accordance with DOT regulations.
Permissible product. A product shall not be placed in a container marked with a service pressure less than four-fifths of the maximum vapor pressure of product at 130 °F.
Systems utilizing containers other than DOT containers -
Application. This paragraph applies specifically to systems utilizing storage containers other than those constructed in accordance with DOT specifications. Paragraph (b) of this section applies to this paragraph unless otherwise noted in paragraph (b) of this section.
Design pressure and classification of storage containers. Storage containers shall be designed and classified in accordance with Table H-31.
TABLE H-31 _____________________________________________________________________ | | | | Minimum design pressure of | For gases | container, lb. per sq. in. gage | with vapor |___________________________________________ | press. Not | | | to exceed | 1949 and | 1949 edition of ASME Code. | lb. per sq. | earlier | (Par. U-200, U-201); 1950, | in. gage at | editions of | 1952, 1956, 1959, 1962, Container | 100 deg. F | ASME Code | 1965, and 1968 type | (37.8 deg C.)| (Par. U-68, | (Division 1) editions of | | U-69) | ASME Code; All editions of | | | API-ASME Code(3) __________|______________|_____________|_____________________________ | | | (1)80 | (1)80 | (1)80 | (1)100 100 | 100 | 100 | 125 125 | 125 | 125 | 156 150 | 150 | 150 | 187 175 | 175 | 175 | 219 (2)200 | 215 | 200 | 250 __________|______________|_____________|_____________________________ Footnote(1) New storage containers of the 80 type have not been authorized since Dec. 31, 1947. Footnote(2) Container type may be increased by increments of 25. The minimum design pressure of containers shall be 100% of the container type designation when constructed under 1949 or earlier editions of the ASME Code (Par. U-68 and U-69). The minimum design pressure of containers shall be 125% of the container type designation when constructed under: (1) the 1949 ASME Code (Par. U-200 and U-201), (2) 1950, 1952, 1956, 1959, 1962, 1965, and 1968 (Division 1) editions of the ASME Code, and (3) all editions of the API-ASME Code. Footnote(3) Construction of containers under the API-ASME Code is not authorized after July 1, 1961.
Container valves and accessories, filler pipes, and discharge pipes.
The filling pipe inlet terminal shall not be located inside a building. For containers with a water capacity of 125 gallons or more, such terminals shall be located not less than 10 feet from any building (see paragraph (b)(6)(ii) of this section), and preferably not less than 5 feet from any driveway, and shall be located in a protective housing built for the purpose.
The filling connection shall be fitted with one of the following:
Combination back-pressure check valve and excess flow valve.
One double or two single back-pressure check valves.
A positive shutoff valve, in conjunction with either:
An internal back-pressure valve, or
An internal excess flow valve.
All openings in a container shall be equipped with approved automatic excess flow valves except in the following: Filling connections as provided in paragraph (d)(3)(ii) of this section; safety relief connections, liquid-level gaging devices as provided in paragraphs (b)(7)(iv), (19)(iii), and (19)(viii) of this section; pressure gage connections as provided in paragraph (b)(7)(v) of this section, as provided in paragraphs (d) (iv), (vi), and (vii) of this section.
An excess flow valve is not required in the withdrawal service line providing the following are complied with:
Such systems' total water capacity does not exceed 2,000 U.S. gallons.
The discharge from the service outlet is controlled by a suitable manually operated shutoff valve which is:
Threaded directly into the service outlet of the container; or
Is an integral part of a substantial fitting threaded into or on the service outlet of the container; or
Threaded directly into a substantial fitting threaded into or on the service outlet of the container.
The shutoff valve is equipped with an attached handwheel or the equivalent.
The controlling orifice between the contents of the container and the outlet of the shutoff valve does not exceed five-sixteenths inch in diameter for vapor withdrawal systems and one-eighth inch in diameter for liquid withdrawal systems.
An approved pressure-reducing regulator is directly attached to the outlet of the shutoff valve and is rigidly supported, or that an approved pressure-reducing regulator is attached to the outlet of the shutoff valve by means of a suitable flexible connection, provided the regulator is adequately supported and properly protected on or at the tank.
All inlet and outlet connections except safety relief valves, liquid level gaging devices and pressure gages on containers of 2,000 gallons water capacity, or more, and on any container used to supply fuel directly to an internal combustion engine, shall be labeled to designate whether they communicate with vapor or liquid space. Labels may be on valves.
In lieu of an excess flow valve openings may be fitted with a quick-closing internal valve which, except during operating periods shall remain closed. The internal mechanism for such valves may be provided with a secondary control which shall be equipped with a fusible plug (not over 220 °F. melting point) which will cause the internal valve to close automatically in case of fire.
Not more than two plugged openings shall be permitted on a container of 2,000 gallons or less water capacity.
Containers of 125 gallons water capacity or more manufactured after July 1, 1961, shall be provided with an approved device for liquid evacuation, the size of which shall be three-fourths inch National Pipe Thread minimum. A plugged opening will not satisfy this requirement.
Safety devices.
All safety devices shall comply with the following:
All container safety relief devices shall be located on the containers and shall have direct communication with the vapor of space of the container.
In industrial and gas manufacturing plants, discharge pipe from safety relief valves on pipe lines within a building shall discharge vertically upward and shall be piped to a point outside a building.
Safety relief device discharge terminals shall be so located as to provide protection against physical damage and such discharge pipes shall be fitted with loose raincaps. Return bends and restrictive pipefittings shall not be permitted.
If desired, discharge lines from two or more safety relief devices located on the same unit, or similar lines from two or more different units, may be run into a common discharge header, provided that the cross-sectional area of such header be at least equal to the sum of the cross-sectional area of the individual discharge lines, and that the setting of safety relief valves are the same.
Each storage container of over 2,000 gallons water capacity shall be provided with a suitable pressure gage.
A final stage regulator of an LP-Gas system (excluding any appliance regulator) shall be equipped on the low-pressure side with a relief valve which is set to start to discharge within the limits specified in Table H-30.
When a regulator or pressure relief valve is installed inside a building, the relief valve and the space above the regulator and relief valve diaphragms shall be vented to the outside air with the discharge outlet located not less than 3 feet horizontally away from any opening into the building which is below such discharge. (These provisions do not apply to individual appliance regulators when protection is otherwise provided. In buildings devoted exclusively to gas distribution purposes, the space above the diaphragm need not be vented to the outside.)
Safety devices for aboveground containers shall be provided as follows:
Containers of 1,200 gallons water capacity or less which may contain liquid fuel when installed above ground shall have the rate of discharge required by paragraph (b)(10)(ii) of this section provided by a spring-loaded relief valve or valves. In addition to the required spring-loaded relief valve(s), suitable fuse plug(s) may be used provided the total discharge area of the fuse plug(s) for each container does not exceed 0.25 square inch.
The fusible metal of the fuse plugs shall have a yield temperature of 208 °F. minimum and 220 °F. maximum. Relief valves and fuse plugs shall have direct communication with the vapor space of the container.
On a container having a water capacity greater than 125 gallons, but not over 2,000 gallons, the discharge from the safety relief valves shall be vented away from the container vertically upwards and unobstructed to the open air in such a manner as to prevent any impingement of escaping gas upon the container; loose-fitting rain caps shall be used. Suitable provision shall be made for draining condensate which may accumulate in the relief valve or its discharge pipe.
On containers of 125 gallons water capacity or less, the discharge from safety relief devices shall be located not less than 5 feet horizontally away from any opening into the building below the level of such discharge.
On a container having a water capacity greater than 2,000 gallons, the discharge from the safety relief valves shall be vented away from the container vertically upwards to a point at least 7 feet above the container, and unobstructed to the open air in such a manner as to prevent any impingement of escaping gas upon the container; loose-fitting rain caps shall be used. Suitable provision shall be made so that any liquid or condensate that may accumulate inside of the safety relief valve or its discharge pipe will not render the valve inoperative. If a drain is used, a means shall be provided to protect the container, adjacent containers, piping, or equipment against impingement of flame resulting from ignition of product escaping from the drain.
On all containers which are installed underground and which contain no liquid fuel until buried and covered, the rate of discharge of the spring-loaded relief valve installed thereon may be reduced to a minimum of 30 percent of the rate of discharge specified in paragraph (b)(10)(ii) of this section. Containers so protected shall not be uncovered after installation until the liquid fuel has been removed therefrom. Containers which may contain liquid fuel before being installed under ground and before being completely covered with earth are to be considered aboveground containers when determining the rate of discharge requirement of the relief valves.
On underground containers of more than 2,000 gallons water capacity, the discharge from safety relief devices shall be piped vertically and directly upward to a point at least 7 feet above the ground.
Where there is a probability of the manhole or housing becoming flooded, the discharge from regulator vent lines shall be above the highest probable water level. All manholes or housings shall be provided with ventilated louvers or their equivalent, the area of such openings equaling or exceeding the combined discharge areas of the safety relief valves and other vent lines which discharge their content into the manhole housing.
Safety devices for vaporizers shall be provided as follows:
Vaporizers of less than 1 quart total capacity, heated by the ground or the surrounding air, need not be equipped with safety relief valves provided that adequate tests certified by any of the authorities referred to in paragraph (b)(2) of this section, demonstrate that the assembly is safe without safety relief valves.
No vaporizer shall be equipped with fusible plugs.
In industrial and gas manufacturing plants, safety relief valves on vaporizers within a building shall be piped to a point outside the building and be discharged upward.
Reinstallation of containers. Containers may be reinstalled if they do not show any evidence of harmful external corrosion or other damage. Where containers are reinstalled underground, the corrosion resistant coating shall be put in good condition (see paragraph (c)(7)(vi) of this section). Where containers are reinstalled above ground, the safety devices and gaging devices shall comply with paragraph (c)(4) of this section and paragraph (b)(19) of this section respectively for aboveground containers.
Capacity of containers. A storage container shall not exceed 90,000 gallons water capacity.
Installation of storage containers.
Containers installed above ground, except as provided in paragraph (c)(7)(vii) of this section, shall be provided with substantial masonry or noncombustible structural supports on firm masonry foundation.
Aboveground containers shall be supported as follows:
Horizontal containers shall be mounted on saddles in such a manner as to permit expansion and contraction. Structural metal supports may be employed when they are protected against fire in an approved manner. Suitable means of preventing corrosion shall be provided on that portion of the container in contact with the foundations or saddles.
Containers of 2,000 gallons water capacity or less may be installed with nonfireproofed ferrous metal supports if mounted on concrete pads or footings, and if the distance from the outside bottom of the container shell to the concrete pad, footing, or the ground does not exceed 24 inches.
Any container may be installed with nonfireproofed ferrous metal supports if mounted on concrete pads or footings, and if the distance from the outside bottom of the container to the ground does not exceed 5 feet, provided the container is in an isolated location.
Containers may be partially buried providing the following requirements are met:
The portion of the container below the surface and for a vertical distance not less than 3 inches above the surface of the ground is protected to resist corrosion, and the container is protected against settling and corrosion as required for fully buried containers.
Spacing requirements shall be as specified for underground tanks in paragraph (b)(6)(ii) of this section.
Relief valve capacity shall be as required for aboveground containers.
Container is located so as not to be subject to vehicular damage, or is adequately protected against such damage.
Filling densities shall be as required for above-ground containers.
Containers buried underground shall be placed so that the top of the container is not less than 6 inches below grade. Where an underground container might be subject to abrasive action or physical damage due to vehicular traffic or other causes, then it shall be:
Placed not less than 2 feet below grade, or
Otherwise protected against such physical damage.
It will not be necessary to cover the portion of the container to which manhole and other connections are affixed; however, where necessary, protection shall be provided against vehicular damage. When necessary to prevent floating, containers shall be securely anchored or weighted.
Containers shall be given a protective coating before being placed under ground. This coating shall be equivalent to hot-dip galvanizing or to two coatings of red lead followed by a heavy coating of coal tar or asphalt. In lowering the container into place, care shall be exercised to prevent damage to the coating. Any damage to the coating shall be repaired before backfilling.
Containers shall be set on a firm foundation (firm earth may be used) and surrounded with earth or sand firmly tamped in place.
Containers with foundations attached (portable or semiportable containers with suitable steel "runners" or "skids" and popularly known in the industry as "skid tanks") shall be designed, installed, and used in accordance with these rules subject to the following provisions:
If they are to be used at a given general location for a temporary period not to exceed 6 months they need not have fire-resisting foundations or saddles but shall have adequate ferrous metal supports.
They shall not be located with the outside bottom of the container shell more than 5 feet above the surface of the ground unless fire-resisting supports are provided.
The bottom of the skids shall not be less than 2 inches or more than 12 inches below the outside bottom of the container shell.
Flanges, nozzles, valves, fittings, and the like, having communication with the interior of the container, shall be protected against physical damage.
When not permanently located on fire-resisting foundations, piping connections shall be sufficiently flexible to minimize the possibility of breakage or leakage of connections if the container settles, moves, or is otherwise displaced.
Skids, or lugs for attachment of skids, shall be secured to the container in accordance with the code or rules under which the container is designed and built (with a minimum factor of safety of four) to withstand loading in any direction equal to four times the weight of the container and attachments when filled to the maximum permissible loaded weight.
Field welding where necessary shall be made only on saddle plates or brackets which were applied by the manufacturer of the tank.
For aboveground containers, secure anchorage or adequate pier height shall be provided against possible container flotation wherever sufficiently high floodwater might occur.
When permanently installed containers are interconnected, provision shall be made to compensate for expansion, contraction, vibration, and settling of containers, and interconnecting piping. Where flexible connections are used, they shall be of an approved type and shall be designed for a bursting pressure of not less than five times the vapor pressure of the product at 100 °F. The use of nonmetallic hose is prohibited for permanently interconnecting such containers.
Container assemblies listed for interchangeable installation above ground or under ground shall conform to the requirements for aboveground installations with respect to safety relief capacity and filling density. For installation above ground all other requirements for aboveground installations shall apply. For installation under ground all other requirements for underground installations shall apply.
Protection of container accessories.
Valves, regulating, gaging, and other container accessory equipment shall be protected against tampering and physical damage. Such accessories shall also be so protected during the transit of containers intended for installation underground.
On underground or combination aboveground-underground containers, the service valve handwheel, the terminal for connecting the hose, and the opening through which there can be a flow from safety relief valves shall be at least 4 inches above the container and this opening shall be located in the dome or housing. Underground systems shall be so installed that all the above openings, including the regulator vent, are located above the normal maximum water table.
All connections to underground containers shall be located within a substantial dome, housing, or manhole and with access thereto protected by a substantial cover.
Drips for condensed gas. Where vaporized gas on the low-pressure side of the system may condense to a liquid at normal operating temperatures and pressures, suitable means shall be provided for revaporization of the condensate.
Damage from vehicles. When damage to LP-Gas systems from vehicular traffic is a possibility, precautions against such damage shall be taken.
Drains. No drains or blowoff lines shall be directed into or in proximity to sewer systems used for other purposes.
General provisions applicable to systems in industrial plants (of 2,000 gallons water capacity and more) and to bulk filling plants.
When standard watch service is provided, it shall be extended to the LP-Gas installation and personnel properly trained.
If loading and unloading are normally done during other than daylight hours, adequate lights shall be provided to illuminate storage containers, control valves, and other equipment.
Suitable roadways or means of access for extinguishing equipment such as wheeled extinguishers or fire department apparatus shall be provided.
To minimize trespassing or tampering, the area which includes container appurtenances, pumping equipment, loading and unloading facilities, and cylinder-filling facilities shall be enclosed with at least a 6-foot-high industrial type fence unless otherwise adequately protected. There shall be at least two means of emergency access.
Container-charging plants.
For paragraphs 1910.110(d)(13)(i) to 1910.110(i)(3)(ii), see 1910.110 - page 2.
[39 FR 23502, June 27, 1974, as amended at 43 FR 49747, Oct. 24, 1978; 49 FR 5322, Feb. 10, 1984; 53 FR 12122, Apr. 12, 1988; 55 FR 25094, June 20, 1990; 55 FR 32015, Aug. 6, 1990; 58 FR 15089, March 19, 1993; 58 FR 35309, June 30, 1993; 61 FR 9227, March 7, 1996; 63 FR 33450, June 18, 1998; 72 FR 71069, Dec. 14, 2007]