ASTM D 7343 : 2012 : R2017
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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Standard Practice for Optimization, Sample Handling, Calibration, and Validation of X-ray Fluorescence Spectrometry Methods for Elemental Analysis of Petroleum Products and Lubricants
Hardcopy , PDF
17-07-2017
English
01-06-2017
CONTAINED IN VOL. 05.04, 2017 Defines information relating to sampling, calibration and validation of X-ray fluorescence instruments for elemental analysis, including all kinds of wavelength dispersive (WDXRF) and energy dispersive (EDXRF) techniques.
Committee |
D 02
|
DevelopmentNote |
Also numbered as IP 558. (09/2007)
|
DocumentType |
Standard Practice
|
Pages |
7
|
ProductNote |
Reconfirmed 2017
|
PublisherName |
American Society for Testing and Materials
|
Status |
Superseded
|
SupersededBy | |
Supersedes |
1.1This practice covers information relating to sampling, calibration and validation of X-ray fluorescence instruments for elemental analysis, including all kinds of wavelength dispersive (WDXRF) and energy dispersive (EDXRF) techniques. This practice includes sampling issues such as the selection of storage vessels, transportation, and sub-sampling. Treatment, assembly, and handling of technique-specific sample holders and cups are also included. Technique-specific requirements during analytical measurement and validation of measurement for the determination of trace elements in samples of petroleum and petroleum products are described. For sample mixing, refer to Practice D5854. Petroleum products covered in this practice are considered to be a single phase and exhibit Newtonian characteristics at the point of sampling.
1.2Applicable Test Methods—This practice is applicable to the XRF methods under the jurisdiction of ASTM Subcommittee D02.03 on Elemental Analysis, and those under the jurisdiction of the Energy Institute’s Test Method Standardization Committee (Table 1). Some of these methods are technically equivalent though they may differ in details (Table 2).
TABLE 1 XRF Standard Test Methods for Analysis of Petroleum Products and Lubricants
Technique | Analysis | ASTM | EI |
WD-XRF | Sulfur in Petroleum Products | D2622 | |
Additive Elements in Lubricating Oils and Additives | D4927 | IP 407 | |
Lead in Gasoline | D5059 | IP 228 | |
Lead in Gasoline | IP 489 | ||
Sulfur in Gasoline | D6334 | ||
Additive Elements in Lube Oils and Additives | D6443 | ||
Vanadium and Nickel | IP 433 | ||
Sulfur | IP 447 | ||
Sulfur in Automotive Fuels | IP 497 | ||
Chlorine and Bromine | IP 503 | ||
Sulfur in Ethanol as Blending Agent | IP 553 | ||
Si, Cr, Ni, Fe, and Cu in Used Greases | IP 560 | ||
Several Metals in Burner Fuels Derived from Waste Mineral Oils | IP 593 | ||
MWD-XRF | Sulfur in Gasoline and Diesel | D7039 | |
Silicon in Gasoline and Naphtha | D7757 | ||
ED-XRF | Sulfur in Petroleum Products | D4294 | IP 336 |
Sulfur in Gasoline | D6445 | ||
Additive Elements in Lubricating Oils | D6481 | ||
Sulfur in Automotive Fuels | D7212 | IP 531 | |
Sulfur in Automotive Fuels | D7220 | IP 532 | |
Additive Elements in Lubricating Oils | D7751 | ||
Lead in Gasoline | IP 352 | ||
Sulfur in Automotive Fuels | IP 496 | ||
Low Sulfur in Automotive Fuels | IP 600 |
TABLE 2 Technically Equivalent XRF Test Methods for Petroleum Products and LubricantsA
Analysis | ASTM | EI | Other |
Sulfur by WD-XRF | D2622 | DIN 51400T6; | |
Additive Elements by WE-XRF | D4927 | IP 407 | DIN 51391T2 |
Lead in Gasoline | D5059 | IP 228 | |
Sulfur by ED-XRF | D4294 | IP 336 | ISO 8754 |
Sulfur in Automotive Fuels | D7212 | IP 531 | |
Sulfur in Automotive Fuels | D7220 | IP 532 |
1.3Applicable Fluids—This practice is applicable to petroleum and petroleum products with vapor pressures at sampling and storage temperatures less than or equal to 101 kPa (14.7 psi). Use Practice D4057 or IP 475 to sample these materials. Refer to Practice D5842 when sampling materials that also require Reid vapor pressure (RVP) determination.
1.4Non-applicable Fluids—Petroleum products whose vapor pressure at sampling and sample storage conditions are above 101 kPa (14.7 psi) and liquefied gases (that is, LNG, LPG, etc.) are not covered by this practice.
1.5Sampling Methods—The physical sampling and methods of sampling from a primary source are not covered by this guide. It is assumed that samples covered by this practice are a representative sample of the primary source liquid. Refer to Practice D4057 or IP 475 for detailed sampling procedures.
1.6The values stated in SI units are to be regarded as the standard.
1.6.1Exception—The values given in parentheses are for information only.
1.7This 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 and health practices and determine the applicability of regulatory limitations prior to use.
1.8This 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.
ASTM D 7751 : 2016 | Standard Test Method for Determination of Additive Elements in Lubricating Oils by EDXRF Analysis |
ASTM D 7455 : 2019 | Standard Practice for Sample Preparation of Petroleum and Lubricant Products for Elemental Analysis |
ASTM D 7578 : 2018 | Standard Guide for Calibration Requirements for Elemental Analysis of Petroleum Products and Lubricants |
ASTM D 2622 : 2016 | Standard Test Method for Sulfur in Petroleum Products by Wavelength Dispersive X-ray Fluorescence Spectrometry |
ASTM D 7039 : 2015 : REV A | Standard Test Method for Sulfur in Gasoline, Diesel Fuel, Jet Fuel, Kerosine, Biodiesel, Biodiesel Blends, and Gasoline-Ethanol Blends by Monochromatic Wavelength Dispersive X-ray Fluorescence Spectrometry |
ASTM D 7757 : 2017 | Standard Test Method for Silicon in Gasoline and Related Products by Monochromatic Wavelength Dispersive X-ray Fluorescence Spectrometry |
ASTM D 8056 : 2018 | Standard Guide for Elemental Analysis of Crude Oil |
ASTM D 4294 : 2016 : EDT 1 | Standard Test Method for Sulfur in Petroleum and Petroleum Products by Energy Dispersive X-ray Fluorescence Spectrometry |
ASTM D 7212 : 2013 : R2018 | Standard Test Method for Low Sulfur in Automotive Fuels by Energy-Dispersive X-ray Fluorescence Spectrometry Using a Low-Background Proportional Counter (Withdrawn 2024) |
ASTM D 4929 : 2017 | Standard Test Method for Determination of Organic Chloride Content in Crude Oil |
IP 433 : 2015 | PETROLEUM PRODUCTS - DETERMINATION OF VANADIUM AND NICKEL CONTENT - WAVELENGTH-DISPERSIVE X-RAY FLUORESCENCE SPECTROMETRY |
ASTM D 5059 : 2014-07 | TEST METHODS FOR LEAD IN GASOLINE BY X-RAY SPECTROSCOPY |
IP 336 : 2015 | PETROLEUM PRODUCTS - DETERMINATION OF SULFUR CONTENT - ENERGY-DISPERSIVE X-RAY FLUORESCENCE SPECTROMETRY |
ASTM D 6443 : 2014 : REDLINE | TEST METHOD FOR DETERMINATION OF CALCIUM, CHLORINE, COPPER, MAGNESIUM, PHOSPHORUS, SULFUR, AND ZINC IN UNUSED LUBRICATING OILS AND ADDITIVES BY WAVELENGTH DISPERSIVE X-RAY FLUORESCENCE SPECTROMETRY (MATHEMATICAL CORRECTION PROCEDURE) |
IP 352 : 2014 | DETERMINATION OF THE LEAD CONTENT OF AUTOMOTIVE GASOLINE - ENERGY-DISPERSIVE X-RAY FLUORESCENCE SPECTROMETRY METHOD |
ASTM D 7757 : 2017 : REDLINE | Standard Test Method for Silicon in Gasoline and Related Products by Monochromatic Wavelength Dispersive X-ray Fluorescence Spectrometry |
ASTM D 2622 : 2016 : REDLINE | Standard Test Method for Sulfur in Petroleum Products by Wavelength Dispersive X-ray Fluorescence Spectrometry |
ASTM D 7751 : 2016 : REDLINE | Standard Test Method for Determination of Additive Elements in Lubricating Oils by EDXRF Analysis |
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