75.160.20 液体燃料 标准查询与下载

21/30325716 DC BS ISO 20782 石油产品和其他液体 乙醇 乙醇燃料pH值测定的试验方法

BS ISO 20782. Petroleum products and other liquids. Ethanol. Test method for pH determination of ethanol fuel

PN-EN 16942+A1-2021-08 E 燃料 车辆相容性的标识 消费者信息的图形表达

Fuels--Identification of vehicle compatibility--Graphical expression for consumer information

ASTM D975-21 柴油标准规范

Standard Specification for Diesel Fuel

SN EN 15692-2021 乙醇作为汽油的调和组分 水含量的测定 卡尔费歇尔电位滴定法

Ethanol as a blending component for gasoline - Determination of water content - Karl Fischer potentiometric titration method

LST EN 16942+A1-2021 燃料-车辆兼容性的标识-消费者信息的图形表达

Fuels - Identification of vehicle compatibility - Graphical expression for consumer information

DS/EN 15692:2021 乙醇作为汽油的调合组分 水含量的测定 卡尔·费歇尔电位滴定法

Ethanol as a blending component for gasoline – Determination of water content – Karl Fischer potentiometric titration method

NF M07-130*NF EN 15692:2021 作为汽油混合组分之一的乙醇. 含水量的测定. 卡尔·费歇尔(Karl Fisher)电位滴定法

Ethanol as a blending component for gasoline - Determination of water content - Karl Fischer potentiometric titration method

OENORM EN 589/A1-2021 汽车燃料 LPG 要求和测试方法（修正案）

Automotive fuels - LPG - Requirements and test methods (Amendment)

DB11/ 238-2021 车用汽油环保技术要求

Technical Requirements for Environmental Protection of Motor Gasoline

DB11/ 239-2021 车用柴油环保技术要求

Technical Requirements for Environmental Protection of Vehicle Diesel

ASTM D7719-21a 高芳烃含量无铅碳氢化合物航空汽油试验燃料的标准规范

1.1 This specification covers formulating specifications for purchases of a high aromatic content unleaded hydrocarbon aviation gasoline test fuel under contract and is intended solely for use by purchasing agencies for testing purposes.2 1.2 This specification defines a specific type of high aromatic content unleaded hydrocarbon aviation gasoline (hereafter also referred to as “D7719 fuel”) for use as an aviation spark-ignition test fuel. It does not include all fuels satisfactory for reciprocating aviation engines. Certain equipment or conditions of use may permit a wider, or require a narrower, range of characteristics than is shown by this specification. 1.3 The D7719 fuel defined by this specification does not exhibit identical performance to those leaded fuels for which the existing aircraft and ground-based fuel handling equipment have been designed to operate on. Therefore, the suitability of this test fuel for use on any specific aircraft, aircraft engine, or ground-based fuel handling equipment should be evaluated before use on that equipment. 1.4 Issuance of this specification does not constitute approval to operate certificated aircraft with this fuel. Fuels used in certified engines and aircraft are ultimately approved by the certifying authority subsequent to formal submission of evidence to the authority as part of the certification program for that aircraft and engine model. 1.5 This specification, unless otherwise provided, prescribes the required properties of unleaded D7719 test fuel at the time and place of delivery. 1.6 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.7 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. 1.8 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.

Standard Specification for High Aromatic Content Unleaded Hydrocarbon Aviation Gasoline Test Fuel

ASTM D4176-21a 馏出燃料中游离水和微粒污染的标准试验方法（目视检查程序）

Standard Test Method for Free Water and Particulate Contamination in Distillate Fuels (Visual Inspection Procedures)

GSO ASTM D5186:2021 用超临界流体色谱法测定柴油燃料中芳香族化合物含量和多核芳香族化合物含量的标准试验方法

1.1 This test method covers the determination of the total amounts of monoaromatic and polynuclear aromatic hydrocarbon compounds in motor diesel fuels and blend stocks by supercritical fluid chromatography (SFC). The range of aromatics concentration to which this test method is applicable is from 1 % to 75 % by mass. The range of polynuclear aromatic hydrocarbon concentrations to which this test method is applicable is from 0.5 % to 50 % by mass. 1.2 This test method includes relative bias for Test Method D5186 versus Test Method D1319 and Test Method D6591 versus Test Method D5186 for diesel fuels. The applicable ranges of the correlation ranges are presented in the Relative Bias section. The correlations are applicable only in the stated ranges and only to diesel fuels. 1.3 This test method and correlations were developed for diesel samples not containing biodiesel; the presence of biodiesel will interfere with the results. The correlation equations are only applicable between these concentration ranges and to diesel fuels that do not contain biodiesel. 1.4 The values stated in SI units are to be regarded as standard. The values stated in inch-pound units are for information only

Standard Test Method for Determination of the Aromatic Content and Polynuclear Aromatic Content of Diesel Fuels By Supercritical Fluid Chromatography

GSO ASTM D3699:2021 煤油标准规范

This specification covers two grades of kerosine suitable for use in critical kerosine burner applications: no. 1-K - a special low-sulfur grade kerosine suitable for use in nonflue-connected kerosine burner appliances and for use in wick-fed illuminating lamps, and no. 1-K - a special low-sulfur grade kerosine suitable for use in nonflue-connected kerosine burner appliances and for use in wick-fed illuminating lamps. Kerosine shall be a refined petroleum distillate consisting of a homogeneous mixture of hydrocarbons essentially free of water, inorganic acidic or basic compounds, and excessive amounts of particulate contaminants. The flash point, distillation range, viscosity requirements, sulphur requirements, mercaptan sulphur, copper strip corrosion, freezing point, burning quality, and saybolt color shall be tested to meet the requirements prescribed.

Standard Specification for Kerosine

GSO ASTM D5983:2021 与汽油混合用作汽车火花点火发动机燃料的甲基叔丁基醚 (MTBE) 的标准规范

This specification covers requirements for fuel grade methyl tertiary-butyl ether utilized in commerce, terminal blending, or downstream blending with fuels for spark-ignition engines. The following test methods shall be conducted to meet the specified requirements: appearance; sulfur; solvent-washed gum content; MTBE mass percentage; methanol mass percentage; API gravity; density; copper strip corrosion; water content; vapor pressure; and color.

Standard Specification for Methyl Tertiary-Butyl Ether (MTBE) for Blending With Gasolines for Use as Automotive Spark-Ignition Engine Fuel

GSO ISO 4264:2021 石油产品 用四变量方程计算中间馏分燃料十六烷指数

This document specifies a procedure for the calculation of the cetane index of middle-distillate fuels from petroleum-derived sources. The calculated value is termed the "cetane index by four-variable equation". Throughout the remaining text of this document, the term "cetane index" implies cetane index by four-variable equation. This document is applicable to fuels containing non-petroleum derivatives from tar sand and oil shale. It is not applicable to pure hydrocarbons, nor to distillate fuels derived from coal. Cetane index calculations do not take into account the effects from additives used to enhance the Cetane number. NOTE 1 This document was originally developed using a matrix of fuels, some of which contain non-petroleum derivatives from tar sands and oil shale. NOTE 2 The cetane index is not an alternative way to express the cetane number; it is a supplementary tool, to be used with due regard for its limitations. NOTE 3 The cetane index is used to estimate the cetane number of diesel fuel when a test engine is not available to determine this property directly, or when insufficient sample is available for an engine rating. The most suitable range of fuel properties for application of this document is as follows: Fuel property Range Cetane number 32,5 to 56,5 Density at 15 °C, kg/m3 805,0 to 895,0 10 % (V/V) distillation recovery temperature, °C 171 to 259 50 % (V/V) distillation recovery temperature, °C 212 to 308 90 % (V/V) distillation recovery temperature, °C 251 to 363 Within the range of cetane number (32,5 to 56,5), the expected error of the prediction via the cetane index equation will be less than ±2 cetane numbers for 65 % of the distillate fuels examined. Errors can be greater for fuels whose properties fall outside this range of application. As a consequence of sample-specific biases observed, the expected error can be greater even when the fuel's properties fall inside the recommended range of application. Therefore, users can assess the required degree of prediction agreement to determine the fitness-for-use of the prediction. NOTE 4 Sample specific biases were observed for distillate fuels containing FAME (fatty acid methyl ester).

Petroleum products — Calculation of cetane index of middle-distillate fuels by the four variable equation

GSO ASTM D235:2021 白油及其测试方法

This specification covers hydrocarbon solvents, normally petroleum distillates, used in coatings and dry-cleaning industries. These solvents are also known as mineral spirits and as Stoddard solvents when used in dry cleaning. The following are the types of mineral spirits: Type I, Type II, Type III, Type IV, Class A, Class B, and Class C. The physical and chemical properties of mineral spirits shall conform to the requirements specified for: aromatic content, commercial reference, appearance, flash point, color, kauri-butanol value, bromine number, odor, doctor test, distillation, residue for distillation, copper corrosion, and apparent specific gravity. These properties shall be tested with the specified test methods.

White spirit and its test methods

GSO ISO 8216-1:2021 石油产品 燃料（F 级）分类 第1部分：船用燃料类别

ISO 8216-1:2017 defines the detailed classification of marine fuels within class F (petroleum fuels). It is intended to be read in conjunction with ISO 8216‑99.

Petroleum products — Fuels (class F) classification — Part 1: Categories of marine fuels

GSO ASTM D3227:2021 汽油、煤油、航空涡轮机和馏分燃料中（硫醇硫醇）硫的标准测试方法（电位法）d

1.1 This test method covers the determination of mercaptan sulfur in gasolines, kerosines, aviation turbine fuels, and distillate fuels containing from 0.0003 % to 0.01 % by mass of mercaptan sulfur. Organic sulfur compounds such as sulfides, disulfides, and thiophene, do not interfere. Elemental sulfur in amounts less than 0.0005 % by mass does not interfere. Hydrogen sulfide will interfere if not removed, as described in 9.2. 1.2 The values in acceptable SI units are to be regarded as the standard. 1.2.1 Exception—The values in parentheses are for information only. 1.3 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 and health practices and determine the applicability of regulatory limitations prior to use. For specific warning statements, see Sections 6, 8, 9, and Appendix X1.

Standard Test Method for (Thiol Mercaptan) Sulfur in Gasoline, Kerosene, Aviation Turbine, and Distillate Fuels (Potentiometric Method)d

ASTM D5983-21 作为汽车火花点火发动机燃料与汽油混合用甲基叔丁基醚（MTBE）的标准规范

1.1?This specification covers requirements for fuel grade methyl tertiary-butyl ether utilized in blending with gasolines at 1 % to 15 % by volume (equivalent to 2.7 % by weight oxygen) for use as automotive spark-ignition engine fuel covered by Specification D4814 as well as ot

Standard Specification for Methyl Tertiary-Butyl Ether (MTBE) for Blending With Gasolines for Use as Automotive Spark-Ignition Engine Fuel