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ASTM D2163-91(1996)

(Test Method)

Standard Test Method for Analysis of Liquefied Petroleum (LP) Gases and Propene Concentrates by Gas Chromatography (Withdrawn 2005)

Standard Test Method for Analysis of Liquefied Petroleum (LP) Gases and Propene Concentrates by Gas Chromatography (Withdrawn 2005)

SCOPE
1.1 This test method covers the determination of the composition of liquefied petroleum (LP) gases. It is applicable to analysis of propane, propene, and butane in all concentration ranges 0.1% and above.  
1.2 This standard does not purport to address all of the safety problems, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.>
1.3 The values stated in SI units are to be regarded as standard.
WITHDRAWN RATIONALE
This test method covers the determination of the composition of liquefied petroleum (LP) gases. It is applicable to analysis of propane, propene, and butane in all concentration ranges 0.1 % and above.
Formerly under the jurisdiction of Committee D02 on Petroleum Products and Lubricants, this test method was withdrawn in January 2005 in accordance with section 10.5.3.1 of the Regulations Governing ASTM Technical Committees, which requires that standards shall be updated by the end of the eighth year since the last approval date.

General Information

Status
Historical
Publication Date
31-Dec-1995
Withdrawal Date
24-Jan-2005
ICS
75.160.30 - Gaseous fuels
Technical Committee
D02 - Petroleum Products, Liquid Fuels, and Lubricants
Drafting Committee
D02.D0.03 - Propylene
Current Stage
Ref Project

Relations

Referred By
ASTM D1835-22 - Standard Specification for Liquefied Petroleum (LP) Gases
Effective Date
01-Jan-1996
Referred By
ASTM D6849-22 - Standard Practice for Storage and Use of Liquefied Petroleum Gases (LPG) in Sample Cylinders for LPG Test Methods
Effective Date
01-Jan-1996
Referred By
ASTM F2201-20 - Standard Consumer Safety Specification for Utility Lighters
Effective Date
01-Jan-1996
Referred By
ASTM D6667-21 - Standard Test Method for Determination of Total Volatile Sulfur in Gaseous Hydrocarbons and Liquefied Petroleum Gases by Ultraviolet Fluorescence
Effective Date
01-Jan-1996
Referred By
ASTM D5273-18 - Standard Guide for Analysis of Propylene Concentrates
Effective Date
01-Jan-1996
Referred By
ASTM F400-20 - Standard Consumer Safety Specification for Lighters
Effective Date
01-Jan-1996
Referred By
ASTM D7756-19 - Standard Test Method for Residues in Liquefied Petroleum (LP) Gases by Gas Chromatography with Liquid, On-Column Injection
Effective Date
01-Jan-1996
Referred By
ASTM D7901-20 - Standard Specification for Dimethyl Ether for Fuel Purposes
Effective Date
01-Jan-1996
Referred By
ASTM D8094-21 - Standard Test Method for Determination of Water Content of Liquefied Petroleum Gases (LPG) Using an Online Electronic Moisture Analyzer
Effective Date
01-Jan-1996
Referred By
ASTM D2598-21 - Standard Practice for Calculation of Certain Physical Properties of Liquefied Petroleum (LP) Gases from Compositional Analysis
Effective Date
01-Jan-1996
Referred By
ASTM D3588-98(2017)e1 - Standard Practice for Calculating Heat Value, Compressibility Factor, and Relative Density of Gaseous Fuels
Effective Date
01-Jan-1996

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ASTM D2163-91(1996) - Standard Test Method for Analysis of Liquefied Petroleum (LP) Gases and Propene Concentrates by Gas Chromatography (Withdrawn 2005)ASTM D2163-91(1996) - Standard Test Method for Analysis of Liquefied Petroleum (LP) Gases and Propene Concentrates by Gas Chromatography (Withdrawn 2005)
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ASTM D2163-91(1996) - Standard Test Method for Analysis of Liquefied Petroleum (LP) Gases and Propene Concentrates by Gas Chromatography (Withdrawn 2005)
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Standards Content (Sample)


NOTICE: This standard has either been superseded and replaced by a new version or withdrawn.
Contact ASTM International (www.astm.org) for the latest information
AnAmerican National Standard
Designation: D 2163 – 91 (Reapproved 1996)
Designation: 264/72(85)
Standard Test Method for
Analysis of Liquefied Petroleum (LP) Gases and
Propene Concentrates by Gas Chromatography
This standard is issued under the fixed designation D 2163; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A
superscript epsilon (e) indicates an editorial change since the last revision or reapproval.
1. Scope ing components separated under identical operating conditions
from a reference standard mixture of known composition or
1.1 This test method covers the determination of the com-
from use of pure hydrocarbons. The chromatogram of the
position of liquefied petroleum (LP) gases. It is applicable to
sample is interpreted by comparing peak heights or areas with
analysis of propane, propene, and butane in all concentration
those obtained on the reference standard mixture of pure
ranges 0.1 % and above.
hydrocarbons.
1.2 This standard does not purport to address all of the
safety concerns, if any, associated with its use. It is the
5. Significance and Use
responsibility of the user of this standard to establish appro-
5.1 Thecomponentdistributionofliquefiedpetroleumgases
priate safety and health practices and determine the applica-
and propene concentrates is often required as a specification
bility of regulatory limitations prior to use.
analysis for end-use sale of this material. Its wide use as
1.3 The values stated in SI units are to be regarded as
chemical feedstocks or as fuel, require precise compositional
standard.
data to ensure uniform quality of the desired reaction products.
2. Referenced Documents 5.2 The component distribution data of liquefied petroleum
gases and propene concentrates can be used to calculate
2.1 ASTM Standards:
physicalpropertiessuchasrelativedensity,vaporpressure,and
D 2421 Practice for Interconversion of Analysis of C and
motor octane (see Practice D 2598). Precision and accuracy of
Lighter Hydrocarbons to Gas-Volume, Liquid-Volume, or
2 compositional data are extremely important when these data
Weight Basis
are used to calculate various properties of these petroleum
D 2598 Practice for Calculation of Certain Physical Prop-
products.
erties of Liquified Petroleum (LP) Gases from Composi-
tional Analysis
6. Gas Chromatograph System
D 3700 PracticeforContainingHydrocarbonFluidSamples
3 6.1 Detector—The detector shall be a thermal conductivity
Using a Floating Piston Cylinder
type or its equivalent in sensitivity and stability. The system
3. Terminology shall be capable of detecting 0.1 % concentration of any
component of interest. For calculation techniques utilizing a
3.1 Definitions:
recorder, the signal for the concentration shall be at least 5
3.1.1 propene concentrate—concentrate containing more
chart divisions above the noise level ona0to100 scale chart.
than 50 % propene.
Noise level must be restricted to a maximum of 1 chart
4. Summary of Test Method
division. When electronic integration is employed the signal
for 0.1 % concentration must be at least twice the noise level.
4.1 Components in a sample of LP gas are physically
6.2 Recorder—A strip-chart recorder and integrator with a
separatedbygaschromatographyandcomparedtocorrespond-
full-scalerangeof10mVorlessshallberequired.Amaximum
full-scale balance time of 2 s and a minimum chart speed of ⁄2
This test method is under the jurisdiction of ASTM Committee D-2 on
in. (12.7 mm)/min shall be required.
Petroleum Products and Lubricants and is the direct responsibility of Subcommittee
6.3 Attenuator—A multistep attenuator for the detector
D02.D0.03 on C4 Test Methods Liquefied Petroleum Gas.
Current edition approved Oct. 15, 1991. Published December 1991. Originally output signal shall be necessary to maintain maximum peaks
published as D 2163 – 63. Last previous edition D 2163 – 87.
within the recorder chart range. The attenuator system must be
Annual Book of ASTM Standards, Vol 05.01.
3 accurate to 0.5 % in any position.
Annual Book of ASTM Standards, Vol 05.02.
Copyright ©ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA19428-2959, United States.
D 2163 – 91 (1996)
FIG. 1 Illustration of A/B Ratio FIG. 2 Illustration of A/B Ratio for Small-Component Peak
6.4 Sample Inlet System—Provision shall be made to intro-
by more than 10 % if the peak height method of calculation is
duce up to 0.50 mLof the sample.The sample volume must be
used. On propene concentrates, the calibration standard mix-
repeatable such that successive runs agree within 1 mm or 1 %
tures shall not differ from that of like component in the sample
(whichever is larger) on each component peak height.
to be analyzed by more than 5 %. Typical composition ranges
6.5 Temperature Control—The analyzer columns shall be
of suitable calibration standard mixtures are given in Table 1.
maintained at a temperature constant to 0.3°C during the
NOTE 1—Test Method D 2421 may be used whenever a need exists for
course of the sample and corresponding reference standard
such translations.
runs.
6.6 Carrier Gas—The instrument shall be equipped with
8. Procedure
suitable facilities to provide a flow of carrier gas through the
8.1 Apparatus Preparation—Mount the column suitable for
analyzer column at a flow rate that is constant to 1.0 %
the analysis desired (see Appendix X1) in the chromatograph
throughout the analysis.
and adjust the conditions to optimum for the column selected
6.7 Columns—Any column may be used provided all com-
(Table 2). Allow sufficient time for the instrument to reach
ponent peaks for compounds present in concentration of more
equilibrium as indicated by a stable base line.
than5 %areresolvedsothattheratio A/Bshallnotbelessthan
8.1.1 The test method allows the user a wide latitude in
0.8, Fig. 1
choice of instrumentation to make the analysis, and most
commercial instrumentation easily meets the requirements
where:
defined in the test method. However, only by strict adherence
A = depth of the valley on either side of peak B, and
to the calibration procedures outlined in the method can
B = height above the baseline of the smaller of any two
reproducibility between instruments expect to be achieved.
adjacent peaks (see Fig. 1).
8.1.2 Proper maintenance of instrumentation is critical to
For compounds present in concentrations of 5 % or less, the
continued satisfactory performance of this analysis. Clean
ratio of A/B shall not be less than 0.4. In case the small-
sample containers, clean sample inlet systems and clean
component peak is adjacent to a large one, it may be necessary
detectors are mandatory to achieve the precision and accuracy
to construct the baseline of the small peak tangent to the curve
capabilities of this method.
as shown in Fig. 2.
NOTE 2—Warning: Samples and reference mixtures are extremely
7. Calibration Standard
flammable. Keep away from heat, sparks, and flames. Use with adequate
ventilation. Cylinders must by supported at all times. Hydrocarbon vapors
7.1 Pure components or calibration standard mixtures may
that may be vented must be controlled to assure compliance with
be used for calibration. If pure components are used, identical
applicable safety and environmental regulations. Vapor reduces oxygen
volumes of each component are injected into the chromato-
available for breathing. Liquid causes cold burns.
graph and relative area response factors are determined. These
8.2 Preparation and Introduction of Sample—Attach the
factors are valid for a given instrument and operating condi-
cylinder containing the gas mixture to the sampling valve of
tions and should be redetermined periodically. If pure compo-
the chromatograph so that a liquid phase sample is withdrawn.
nents are used for calibration, the calculation should be made
Adjust the flow rate from the sample cylinder so that complete
in mole percent and converted to liquid volume percent (Note
vaporization of the liquid occurs at the cylinder valve. (An
1). Factors repeatable to within 1 % are required. The concen-
alternative technique is to trap a sample of only liquid phase in
tration of each component in the calibration standard mixtures
a short section of tubing, and then permit the entire sample to
shall be known to within 0.1 %.The concentration of the major
vaporize into an evacuated container). Adjust the ratio of the
component in the calibration standard mixture shall not differ
two volumes so that a gage pressure of 69 to 138 kPa (10 to 20
from that of the like component in the sample to be analyzed
psi) is obtained in the final container. Then use this sample for
the analysis. Flush the sample loop for 1 to 2 min at a flow rate
of 5 to 10 mL/min before introducing the sample into the
Suitable reference standard mixtures of pure hydrocarbons are available from
Scott Specialty Gases, Inc., Plumsteadville, PA. carrier gas stream.
D 2
...

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5.1 Samples of liquefied petroleum gases are examined by various test methods to determine physical and chemical characteristics and conformance with specifications.  
5.2 Equipment described by this practice may be suitable for transportation of LPG samples, subject to applicable transportation regulations.
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1.1 This practice covers equipment and procedures for obtaining a representative sample of specification Liquefied Petroleum Gas (LPG), such as specified in Specification D1835, GPA 2140, and comparable international standards. This standard is applicable to flow-through cylinders with two valves and is not applicable to single valve cylinders or larger LPG sample containers such as those utilized for barbecue grills and/or forklift cylinders.  
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1.4 This practice includes recommendations for the location of a sample point in a line or vessel. It is the responsibility of the user to ensure that the sampling point is located so as to obtain a representative sample.  
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5.1 LP-gas is colorless and odorless, and not detectable by normal human senses. To provide an olfactory warning in the event of a leak, LP-gas intended for domestic or commercial fuel use is intentionally odorized so as to be readily detectable well below flammable or suffocating concentration levels of LP-gas in air. (See Appendix X1 for important explanations.) The most common odorant for LP-gas is ethyl mercaptan. The field use of this test method will rapidly determine the presence and concentration of ethyl mercaptan in LP-gas vapor without the necessity for complex laboratory equipment.
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1.1 These test methods cover the determination of the total volatile organic chlorides in concentrations from 10 mg/kg to 100 mg/kg in butane-butene mixtures. The amperometric finish is not directly applicable in the presence of other substances that combine with silver ion or oxidize chloride ion in dilute acid solution. Bromides, sulfides, ammonia, tobacco smoke, and more than 25 μg of hydrogen peroxide in the test solution interfere in the spectrophotometric procedure.  
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1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.   Specific warning statements are given in Sections 5, 8, 11, 14, 19, and Annex A1.  
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SIGNIFICANCE AND USE
5.1 The hydrocarbon component distribution of liquefied petroleum gases and propene mixtures is often required for end-use sale of this material. Applications such as chemical feed stocks or fuel require precise compositional data to ensure uniform quality. Trace amounts of some hydrocarbon impurities in these materials can have adverse effects on their use and processing.  
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This specification covers liquefied petroleum gases consisting of propane, propene (propylene), butane, and mixtures of these materials. The products are intended for use as domestic, commercial and industrial heating, and engine fuels. Care must be taken to in sampling of the liquefied gases for test results to be significant. All four types of liquefied petroleum gases covered by this specification should conform to the specified requirements for vapor pressure, volatile residue, residue matter, relative density, and corrosion.
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5.1 Control over the residue content (required by Specification D1835) is of considerable importance in end-use applications of LPG. In liquid feed systems, residues can lead to troublesome deposits and, in vapor withdrawal systems, residues that are carried over can foul regulating equipment. Residues that remain in vapor-withdrawal systems will accumulate, can be corrosive, and will contaminate subsequent product. Water, particularly if alkaline, can cause failure of regulating equipment and corrosion of metals.  
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4.1 The sulfur content of LPG, used for fuel purposes, contributes to SOx emissions and can lead to corrosion in engine and exhaust systems. Some process catalysts used in petroleum and chemical refining can be poisoned by sulfur bearing materials in the feed stocks. This test method can be used to determine sulfur in process feeds, to measure sulfur in finished products, and can also be used for compliance determinations when acceptable to a regulatory authority.
SCOPE
1.1 This test method covers the determination of total volatile sulfur in gaseous hydrocarbons and liquefied petroleum (LP) gases. It is applicable to analysis of natural, processed, and final product materials. Precision has been determined for sulfur in gaseous hydrocarbons in the range of 1 mg/kg to 100 mg/kg and for sulfur in LP gases in the range of 1 mg/kg to 196 mg/kg (Note 1).
Note 1: An estimate of pooled limit of quantification (PLOQ), information regarding sample stability and other general information derived from the interlaboratory studies on precision can be referenced in the ASTM research reports.2,3  
1.2 This test method may not detect sulfur compounds that do not vaporize under the conditions of the test.  
1.3 This test method is applicable for total volatile sulfur determination in LP gases containing less than 0.35 % (mass/mass) halogen(s).  
1.4 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.  
1.5 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use. See 3.1 and Sections 6 and 7 for specific warning statements.  
1.6 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM D2598-21(Practice)
Standard Practice for Calculation of Certain Physical Properties of Liquefied Petroleum (LP) Gases from Compositional Analysis

SIGNIFICANCE AND USE
4.1 Vapor pressure is an important specification property of commercial propane, special duty propane, propane/butane mixtures, and commercial butane that assures adequate vaporization, safety, and compatibility with commercial appliances. Relative density, while not a specification criterion, is necessary for determination of filling densities and custody transfer. The motor octane number (MON) is useful in determining the products' suitability as a fuel for internal combustion engines.
SCOPE
1.1 This practice covers, by compositional analysis, the approximate determination of the following physical characteristics of commercial propane, special-duty propane, commercial propane/butane mixtures, and commercial butane (covered by Specification D1835): vapor pressure, relative density, and motor octane number (MON).  
1.1.1 This practice is not applicable to any product exceeding specifications for nonvolatile residues. (See Test Method D2158.)  
1.1.2 For calculating motor octane number, this practice is applicable only to mixtures containing 20 % or less of propene.  
1.1.3 For calculated motor octane number, this practice is based on mixtures containing only components shown in Table 1.  
1.2 The values stated in SI units are to be regarded as standard.  
1.2.1 Exceptions:  
1.2.1.1 Non-SI units in parentheses are given for information only.
1.2.1.2 Motor octane number and relative density are given in MON numbers and dimensionless units, respectively.  
1.3 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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