75.060 天然气 标准查询与下载

prEN ISO 10715:2021 天然气 气体采样（ISO/DIS 10715:2021）

Natural gas - Gas sampling (ISO/DIS 10715:2021)

KS I ISO 6978-2-2021 天然气汞的测定第2部分:金/铂合金上汞的混汞取样

Natural gas ― Determination of mercury ― Part 2: Sampling of mercury by amalgamation on gold/platinum alloy

KS I ISO 6974-3:2021 天然气.用气相色谱法测定成分和相关不确定度.第3部分:精密度和偏差

Natural gas — Determination of composition and associated uncertainty by gas chromatography — Part 3: Precision and bias

KS I ISO 6978-2:2021 天然气汞的测定第2部分:金/铂合金上汞的混汞取样

Natural gas ― Determination of mercury ― Part 2: Sampling of mercury by amalgamation on gold/platinum alloy

KS I ISO 6978-1:2021 天然气汞的测定第1部分:碘化学吸附汞取样

Natural gas ― Determination of mercury ― Part 1: Sampling of mercury by chemisorption on iodine

KS I ISO 6978-1-2021 天然气汞的测定第1部分:碘化学吸附汞取样

Natural gas ― Determination of mercury ― Part 1: Sampling of mercury by chemisorption on iodine

KS I ISO 6974-3-2021 天然气.用气相色谱法测定成分和相关不确定度.第3部分:精密度和偏差

Natural gas — Determination of composition and associated uncertainty by gas chromatography — Part 3: Precision and bias

T/CAS 478-2021 液化天然气罐式集装箱气化站技术规程

1　范围 本标准规定了液化天然气（LNG）罐式集装箱（以下简称“罐箱”）气化站的站址选择、总平面布置、工艺及设施、消防设施及给排水、电气、仪表、报警和紧急切断系统、建筑与供暖通风、施工验收、运行维护的要求。 本标准适用于总储存容积不大于184m3（几何容积）LNG罐箱气化站的设计、施工、验收及运行维护。 本文件不适用于以下厂站的设计、施工验收及运行维护： ——与压缩天然气供应站、液化石油气供应站、加气站及加油站等合建的LNG罐箱气化站； ——有LNG气瓶灌装功能的LNG罐箱气化站。 2　规范性引用文件 下列文件对于本文件的应用是必不可少的。凡是注日期的引用文件，仅注日期的版本适用于本文件。凡是不注日期引用文件，其最新版本（包括所有的修改单）适用于本文件。 GB/T 150.1 压力容器第1部分：通用要求 GB/T 150.2 压力容器第2部分：材料 GB/T 150.3 压力容器第3部分：设计 GB/T 150.4 压力容器第4部分：制造、检验和验收 GB 3096  声环境质量标准 GB/T 4272 设备及管道绝热技术通则 GB 5749  生活饮用水卫生标准 GB 8624  建筑材料及制品燃烧性能分级 GB/T 11790 设备及管道保冷技术通则 GB 12348 工业企业厂界环境噪声排放标准 GB/T 14976 流体输送用不锈钢无缝钢管 GB/T 17393 覆盖奥氏不锈钢用绝热材料规范 GB/T 19204 液化天然气的一般特性 GB/T 20368-2012 液化天然气（LNG）生产、储存和装运 GB/T 20801 压力管道规范 工业管道 GB/T 24918 低温介质用紧急切断阀 GB/T 24925 低温阀门技术条件 GB/T 29639 生产经营单位生产安全事故应急预案编制导则 GB/T 38753 液化天然气 GB/T 38810 液化天然气用不锈钢无缝钢管 GB 50015 建筑给水排水设计标准 GB 50016—2014 建筑设计防火规范 GB 50019 工业建筑供暖通风与空气调节设计规范 GB 50028—2006 城镇燃气设计规范 GB 50032 室外给水排水和燃气热力工程抗震设计规范 GB 50052 供配电系统设计规范 GB 50057 建筑物防雷设计规范 GB 50058 爆炸危险环境电力装置设计规范 GB 50126 工业设备及管道绝热工程施工规范 GB 50140 建筑灭火器配置设计规范 GB 50151 泡沫灭火系统设计规范 GB 50156-2012 汽车加油加气站设计与施工规范 GB 50184 工业金属管道工程施工质量验收规范 GB 50187 工业企业总平面设计规范 GB 50204 混凝土工程施工质量验收规范 GB 50231 机械设备安装工程施工及验收通用规范 GB 50235 工业金属管道工程施工规范 GB 50236 现场设备、工业管道焊接工程施工规范 GB 50264 工业设备及管道绝热工程设计规范 GB 50316 工业金属管道设计规范 GB 50351 储罐区防火堤设计规范 GB 50484 石油化工建设工程施工安全技术规范 GB 50493 石油化工可燃气体和有毒气体检测报警设计规范 GB 50494 城镇燃气技术规范 GB 50650 石油化工装置防雷设计规范 GB 50974 消防给水及消火栓系统技术规范 GB/T 51257 液化天然气低温管道设计规范 CJJ 33 城镇燃气输配工程施工及验收规范 CJJ 51 城镇燃气设施运行、维护和抢修安全技术规程 CJJ/T 148 城镇燃气加臭技术规程 CJJ/T 153 城镇燃气标志标准 NB/T 47013.1 承压设备无损检测 第1部分：通用要求 NB/T 47013.2 承压设备无损检测 第2部分：射线检测 NB/T 47059 冷冻液化气体罐式集装箱 HG/T 20508 控制室设计 SH/T 3097 石油化工静电接地设计规范 TSG R0005 移动式压力容器安全技术监察规程 T/BSTAUM 001-2017 小型液化天然气气化站技术规程 3　术语和定义 下列术语和定义适用于本标准。 3.1　 液化天然气罐式集装箱 liquefied natural gas tank container 由真空绝热罐体、框架结构、管路、安全附件和操作箱等组成的、用于运输和储存液化天然气的罐式集装箱，简称LNG罐箱。 3.2　 LNG罐箱气化站 LNG tank containers vaporizing station 利用LNG罐箱作为LNG储存设施，具有储存、气化、调压、计量或加臭功能，通过管道向用户输送天然气的厂站。 3.3　 LNG罐箱区 LNG tank containers zone 存放一个或多个LNG罐箱的场所。 3.4　 LNG罐箱运输车 LNG tank containers transportation truck 用于运输LNG罐箱的专用车辆，由牵引车和半挂车组成。

Technical regulations for liquefied natural gas tank containers vaporizing station

NB/T 10489-2021 进入天然气长输管道的生物天然气质量要求

Quality requirements for bionatural gas entering long-distance natural gas pipelines

GOST 20060-2021 天然燃气 水蒸汽及水分露点测定法

Natural gas. Determination of water dew point temperature

GOST 34712-2021 天然气 紫外荧光法测定总硫

Natural gas. Determination of total sulfur by ultraviolet fluorescence method

GOST 31369-2021 天然气 热值、密度和相对密度及化合物沃泊指数的计算

Natural gas. Calculation of calorific values, mass volume, relative density and Wobbe indices from the composition

GOST 20061-2021 天然燃气 碳氢化合物露点测定法

Natural gas. Determination of hydrocarbon dew point temperature

GOST 34721-2021 天然气 密度测定法测定密度

Natural gas. Determination of density by picknometric method

KS M 2890-2020 生物甲烷

Biomethane

OENORM EN ISO 10101-2:2020 天然气 用卡尔费休法测定水分 第2部分：容量法（ISO/DIS 10101-2:2020）

Natural gas - Determination of water by the Karl Fischer method - Part 2: Volumetric procedure (ISO/DIS 10101-2:2020)

ASTM D4888-20 使用长度的污染物检测管的天然气中的水蒸气的标准测试方法

1.1 This test method covers a procedure for rapid and simple field determination of water vapor in natural gas pipelines. Available detector tubes provide a total measuring range of 0.1 to 40 mg/L, although the majority of applications will be on the lower end of this range (that is, under 0.5 mg/L). At least one manufacturer provides tubes that read directly in pounds of water per million cubic feet of gas. See Note 1. 1.2 Detector tubes are usually subject to interferences from gases and vapors other than the target substance. Such interferences may vary among brands because of the use of different detection methods. Consult manufacturer’s instructions for specific interference information. Alcohols and glycols will cause interferences on some water vapor tubes because of the presence of the hydroxyl group on those molecules. 1.3 Units—The values stated in SI units are to be regarded as the standard. 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. 1.5 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 Test Method for Water Vapor in Natural Gas Using Length-of-Stain Detector Tubes

ASTM D1988-20 使用长度为污染检测器的天然气硫醇的标准试验方法

1.1 This test method covers a rapid and simple field determination of mercaptans in natural gas pipelines. Available detector tubes provide a total measuring range of 0.5 to 160 ppm by volume of mercaptans, although the majority of applications will be on the lower end of this range (that is, under 20 ppm). Besides total mercaptans, detector tubes are also available for methyl mercaptan (0.5 to 100 ppm), ethyl mercaptan (0.5 to 120 ppm), and butyl mercaptan (0.5 to 30 mg/M3 or 0.1 to 8 ppm). NOTE 1—Certain detector tubes are calibrated in terms of milligrams per cubic metre (mg/M3 ) instead of parts per million by volume. The conversion is as follows for 25 °C (77 °F) and 760 mm Hg. mg/M3 5 ppm 3molecular weight 24.45 (1) 1.2 Detector tubes are usually subject to interferences from gases and vapors other than the target substance. Such interferences may vary among brands because of the use of different detection principles. Many detector tubes will have a precleanse layer designed to remove interferences up to some maximum level. Consult manufacturer’s instructions for specific interference information. Hydrogen sulfide and other mercaptans are usually interferences on mercaptan detector tubes. See Section 6 for interferences of various methods of detection. 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, health, and environmental practices and determine the applicability of regulatory limitations prior to use. For specific hazard statements, see 8.3. 1.4 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 Test Method for Mercaptans in Natural Gas Using Length-of-Stain Detector Tubes

ASTM D4810-20 使用长度的污染物检测管的天然气中硫化氢的标准测试方法

1.1 This test method covers a procedure for a rapid and simple field determination of hydrogen sulfide in natural gas pipelines. Available detector tubes provide a total measuring range of 0.5 ppm by volume up to 40 % by volume, although the majority of applications will be on the lower end of this range (that is, under 120 ppm). 1.2 Typically, sulfur dioxide and mercaptans may cause positive interferences. In some cases, nitrogen dioxide can cause a negative interference. Most detector tubes will have a “precleanse” layer designed to remove certain interferences up to some maximum interferent level. Consult manufacturers’ instructions for specific interference information. 1.3 Units—The values stated in SI units are to be regarded as the standard. 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. 1.5 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 Test Method for Hydrogen Sulfide in Natural Gas Using Length-of-Stain Detector Tubes

OENORM EN ISO 10101-3:2020 天然气 用卡尔费休法测定水分 第3部分：库仑法（ISO/DIS 10101-3:2020）

Natural gas - Determination of water by the Karl Fischer method - Part 3: Coulometric procedure (ISO/DIS 10101-3:2020)