ICS 75.160.30
Gaseous fuels
Standards in This Category
LVS EN ISO 4257:2002
Liquefied petroleum gases - Method of sampling
This technical specification establishes the fundamental procedures for obtaining representative samples of liquefied petroleum gas from various sources and storage conditions. It outlines the
LVS EN ISO 4256:2002
Liquefied petroleum gases - Determination of gauge vapour pressure - LPG method
This document outlines the methodology for determining the vapor pressure of liquefied petroleum gas using the LPG method. It establishes a standardized procedure to ensure accurate and consistent
LVS EN ISO 6251:2003
Liquefied petroleum gases - Corrosiveness to copper - Copper strip test
This technical specification establishes the methodology for assessing the corrosive influence of liquefied petroleum gases on copper materials. The procedure utilizes a dedicated test involving
LVS EN ISO 8819:2003
Liquefied petroleum gases - Detection of hydrogen sulfide - Lead acetate method
This document establishes a standardized method for determining hydrogen sulfide content within liquefied petroleum gas. The procedure relies on the chemical reaction between hydrogen sulfide and
LVS EN ISO 8973:2003
Liquefied petroleum gases - Calculation method for density and vapour pressure
This document establishes a standardized procedure for calculating vapor density and pressure associated with liquefied petroleum gases. The methodology outlined within the text provides a systematic
LVS EN ISO 13758:2002
Liquefied petroleum gases - Assessment of the dryness of propane - Valve freeze method
This standard establishes a comprehensive methodology for assessing the dryness of propane within liquefied petroleum gas systems. Specifically, it details the valve freezing technique, a critical
LVS EN ISO 13757:2002
Liquefied petroleum gases - Determination of oily residues - High-temperature method
This document establishes a specialized analytical procedure for the quantification of oil residues within liquefied petroleum gases. It outlines a rigorous methodology utilizing high-temperature
LVS EN 15984:2022
Petroleum industry and products - Determination of composition of refinery heating gas and calculation of carbon content and calorific value - Gas chromatography method
This standard outlines a method for analyzing the composition of refinery gases within the petroleum refining industry. It provides detailed procedures for determining the specific chemical makeup of
LVS EN 16723-2:2017
Natural gas and biomethane for use in transport and biomethane for injection in the natural gas network - Part 2: Automotive fuels specification
This technical specification establishes the quality requirements and testing procedures for natural gas and biomethane intended for use as vehicular fuel. The document focuses specifically on the
LVS EN 27941:2002
Commercial propane and butane - Analysis by gas chromatography
This document establishes the requirements for determining the composition of commercial propane and butane mixtures using gas chromatography. It specifies the analytical procedures necessary to
SM EN 589:2024
Fuels for Motor Vehicles. LPG. Requirements and Test Methods
This technical specification outlines the comprehensive requirements and testing methodologies for liquefied petroleum gas utilized as an automotive fuel. It establishes precise quality criteria to
SM EN 15984:2022
Petroleum industry and petroleum products. Determination of the composition of combustible refinery gases and calculation of carbon content and calorific value. Gas chromatography method
This technical specification outlines a precise analytical method for determining the composition of combustible refinery gases within the petroleum industry. The procedure relies on gas
SM EN ISO 23306:2021
Specifications for liquefied natural gas - fuel for maritime applications
This document establishes comprehensive technical specifications for liquefied natural gas intended for use as marine fuel. It defines the essential quality parameters required to ensure safe and
SM EN ISO 20884:2020
Petrolium products. Determination of sulfur content in motor fuels. Method by wavelength-dispersive X-ray fluorescence spectrometry
This document establishes a standardized analytical procedure for determining sulfur content within automotive fuels using wavelength dispersive X-ray fluorescence spectroscopy. The methodology
SM ISO 9162:2018
Petroleum products. Fuels (class F). Liquefied petroleum gas. Specifications
This specification establishes the technical requirements and testing methods for liquefied petroleum gas classified under fuel type F. The document outlines precise criteria regarding composition,
SM ISO 7941:2018
Commercial Propane and Butan. Analysis by Gas Chromatography
This standard outlines the methodology for the qualitative and quantitative analysis of commercial propane and butane mixtures using gas chromatography. It establishes specific procedural
SM EN 16723-2:2017
Natural gas and biogas for use in road vehicles and biomethane for injection into the natural gas grid – Part 2: Specifications for automotive fuels
This specification establishes the technical requirements and test methods for gaseous fuels used in motor vehicles powered by natural gas and biomethane. It specifically addresses the fuel quality
SM ISO 8216-3:2017
Produse petroliere. Combustibili (clasa F). Clasificare. Partea 3: Familia L (Gaze petroliere lichefiate)
This standard establishes a comprehensive classification system specifically designed for fuel products within the F category, with a particular focus on the L group representing liquefied petroleum
SM EN 720-1:2016
Portable gas cylinders. Gases and gas mixtures. Part 1: Properties of pure gases
This technical specification establishes the fundamental requirements for the properties of pure gases contained within portable gas vessels. It focuses specifically on the first part of a
SM EN ISO 13757:2016
Crude oil analyses. Determination of oily residues. High-temperature method
This document establishes the procedural framework for analyzing residues within petroleum gas, specifically utilizing a high-temperature methodology. The approach defines the necessary equipment