紫外气体分析仪检测标准

(CMA)     (CNAS)     (ISO) (高新技术企业)

紫外气体分析仪相关标准参考信息

GB/T 25476-2010 可调谐激光气体分析仪
简介：本标准规定了可调谐激光气体分析仪的要求、试验方法、检验规则、包装、运输、贮存等。本标准适用于使用可调谐半导体激光吸收光谱技术测量混合气体或蒸气中某一种或几种气体组分浓度的可调谐激光气体分析仪。
信息：ICS：71.040.01 CCS：N53 发布：2010-12-01 实施：2011-05-01

DIN EN 61207-6-2016 气体分析仪性能表示.第6部分:光度分析仪(IEC 61207-6-2014).德文版本EN 61207-6-2015
简介：
信息：ICS：71.040.40 CCS：N55 发布：2016-03 实施：

GOST R 55991.5-2014 体外诊断医疗器械. 第5部分. 用于血液气体, 代谢以及酸碱平衡评估的自动分析仪. 公共采购的技术要求
简介：
信息：ICS：11.020 CCS： 发布：2014 实施：2015-06-01

ASTM E1603/E1603M-11(2022) 在罩模式下使用质谱检漏仪或残余气体分析仪进行泄漏测量的标准实施规程
简介：
信息：ICS：23.040.99 CCS： 发布：2022-06-01 实施：

GOST R 8.922-2016 确保测量可追溯性的国家系统. 利用气体分析仪和气体报警装置测定工作区域空气中的可燃气体和蒸汽. 试验方法
简介：
信息：ICS：17.020 CCS： 发布：2016 实施：2017-07-01

IEC 61207-7:2013 气体分析仪性能表示第7部分:可调半导体激光气体分析仪
简介：
信息：ICS：71.040.40 CCS： 发布：2013-09-25 实施：

ASTM D8455-22 基于气体燃料中硅氧烷和三甲基硅醇含量在线的特种硅氧烷GC-IMS分析仪的标准试验方法
简介：
信息：ICS： CCS： 发布：2022-05-01 实施：

GOST R 8.922-2016 确保测量可追溯性的国家系统. 利用气体分析仪和气体报警装置测定工作区域空气中的可燃气体和蒸汽. 试验方法
简介：
信息：ICS：17.020 CCS：N56 发布：2016 实施：2017-07-01

GOST 8.617-2013 确保测量可追溯性的国家系统. 用于测定香烟烟气气相中一氧化碳的非色散红外 (NDIR) 气体分析仪. 验证方法
简介：
信息：ICS：17.020;71.040.40 CCS： 发布：2013 实施：2015-01-01

JJF 1907-2021 环境空气在线监测气体分析仪校准规范
简介：
信息：ICS： CCS： 发布：2021-07-28 实施：2022-01-28

KS I 2219-2015(2020) 气体分析仪校准方法一般规则
简介：
信息：ICS：71.040.40 CCS： 发布：2015-12-31 实施：

GOST 8.629-2013 确保测量可追溯性的国家系统. 可燃气体和蒸气分析仪和气体报警装置的固定式和移动式验证装置. 通用技术要求
简介：
信息：ICS：17.020 CCS： 发布：2013 实施：2015-02-01

HG/T 5831-2021 化工用在线气体质谱分析仪
简介：
信息：ICS：17.040.30;71.100.20 CCS：G98 发布：2021-03-05 实施：2021-07-01

T/ZZB 019-2015 可调谐激光气体分析仪
简介：本标准规定了可调谐激光气体分析仪的范围、规范性引用文件、术语和定义、基本要求、性能要求、安全要求、试验条件、试验方法、检验规则、标识、包装、运输和贮存、质量保证要求等。本标准适用于使用半导体激光器作为光源，基于吸收光谱技术，可测量某一种或几种气体组分浓度的可调谐激光气体分析仪。
信息：ICS：71.040.01 CCS：C3521 发布：2015-09-06 实施：2017-03-06

GOST 8.618-2013 确保测量可追溯性的国家系统. 用于测定工作区空气中可燃性气体和蒸汽的气体分析仪和气体报警装置. 验证程序
简介：
信息：ICS：17.020 CCS： 发布：2013 实施：2014-11-01

DIN EN IEC 61207-3-2020 气体分析仪. 性能表现. 第3部分: 顺磁氧气分析仪(IEC 61207-3-2019); 德文版 EN IEC 61207-3-2019
简介：This part of IEC 61207 applies to the three main methods for measuring oxygen by its paramagnetic property. It considers essential ancillary units and applies to analysers installed indoors and outdoors.
信息：ICS：71.040.40 CCS： 发布：2020-12-01 实施：2020-12-01

ASTM D7166-10(2015) 用于气体燃料硫含量的在线/在线总硫分析仪的标准实践
简介：
信息：ICS：75.160.30 CCS： 发布：2015-06-01 实施：

JJF 1363-2012 硫化氢气体分析仪型式评价大纲
简介：本型式评价大纲适用于硫化氢气体分析仪（包括硫化氢气体检测报警仪和硫化氢气体检测仪）（以下简称仪器）的型式评价。
信息：ICS： CCS：N56 发布：2012-10-08 实施：2013-01-08

T/ZZB 1574-2020 便携式防爆挥发性有机气体分析仪（氢火焰离子化法）
简介：本标准规定了用于总烃分析的便携式防爆挥发性有机气体分析仪（氢火焰离子化法）的术语和定义、基本要求、技术要求、试验方法、检验规则、标志、包装、运输、贮存及质量承诺等。本标准适用于总烃分析的爆炸性危险气体场所及非爆炸危险气体场所用便携式防爆挥发性有机气体分析仪（氢火焰离子化法）（以下简称分析仪）。
信息：ICS：71.040.01 CCS：C261 发布：2020-04-30 实施：2020-05-20

IEC 61207-7 CORR 1-2015 气体分析仪性能表示. 第7部分: 可调半导体激光器气体分析仪; 勘误表1
简介：
信息：ICS：71.040.40 CCS：Q82;N50 发布：2015-06 实施：

JJG 1077-2012 臭氧气体分析仪检定规程
简介：本规程适用于测量空气或其他气体成分中臭氧含量的臭氧气体分析仪(以下简称“仪器”)的首次检定、后续检定和使用中检查。
信息：ICS： CCS：N95 发布：2012-04-17 实施：2012-07-17

IEC 61207-3:2019 RLV 气体分析仪.性能表示.第3部分:顺磁氧分析仪
简介：
信息：ICS：71.040.40 CCS： 发布：2019-06-26 实施：

NF C46-251-6-2015 气体分析仪性能表达式.第6部分:光度计分析仪
简介：La présente partie de l'IEC 61207 s'applique à tous les aspects des analyseurs utilisant les techniques photométriques pour mesurer la concentration d'un ou de plusieurs composants dans un mélange de gaz ou de vapeurs. Il convient de l'utiliser avec l'IEC 61207-1.
信息：ICS：71.040.40 CCS：N04 发布：2015-03-04 实施：2015-03-04

ASTM E1603/E1603M-11 使用质谱检漏仪或残留气体分析仪进行泄漏测量的标准实践
简介：
信息：ICS：23.040.99 CCS： 发布：2011-07-01 实施：

IEC 61207-3:2019 气体分析仪.性能表示法.第3部分:顺磁氧分析仪
简介：
信息：ICS：71.040.40 CCS： 发布：2019-06-26 实施：

BS 7967-2015 用于测量住宅内一氧化碳和家用燃气器具燃烧性能的便携式电子燃烧气体分析仪使用指南
简介：1.1This standard provides guidance for gas operatives on:a)the general use of an electronic portable combustion gas analyser conforming to BS EN 50379-3 and BS 7927:1998 incorporating Amendment No.1:1999;NOTE 1 This standard assumes that a portable combustion gas analyser [often referred to colloquially as a "flue gas analyser" (FGA)J of the type specified in BS EN 50379-3 or BS 7927:1998 incorporating Amendment No. 1:1999 is available to the gas operative and the operative is competent in its use and the interpretation of any reading obtained. This competence can be demonstrated by satisfactory completion of the relevant ACS assessments,which cover the use of electronic portable combustion gas analysers. See Clause 4 for further information on competence.NOTE 2 BS EN 50379-3 superseded BS 7927:1998 incorporating Amendment No. 1:1999 on I March 2007. However,electronic portable combustion gas analysers conforming to BS 7927:1998 incorporating Amendment No. 1:1999 remain acceptable for the purposes of this standard.b)the use of such an electronic portable combustion gas analyser to determine ambient levels of carbon monoxide (CO) and, in certain circumstances (see Notes 4 and 5, and Commentary on 8.1), detect the presence of carbon dioxide (CO) in dwellings;NOTE 3 A definition of a dwelling is given in 3.7.NOTE 4 One of the main combustion products from gas appliances is CO, which is mainly regarded as an asphyxiant, but is also a toxic substancc which could be present in the air in sufficient quantity to prove harmful. For guidance on the occupational health considerations of CO, reference can be made to the HSE Guidance note on Workplace exposure limits,EH4012005 [8].NOTE 5 Electronic portable combustion gas analysers that calculate CO levels from an oxygen (O) measurement are:?well proven for calculating CO levels in combustion gases in the flue of an appliance;?not suitable for measuring ambient levels of CO in dwellings; and?able to detect increases in the ambient CO levels in ambient atmospheres and such increases in CO will provide an early indication of increasing build-up of products of combustion in the room (see Commentary on 8.1).c)the use of an electronic portable combustion gas analyser to measure CO and CO in combustion products from the following types of gas-fired appliances:1)flueless appliances (type A appliances);2)open-flue appliances (type B appliances);3)room-sealed appliances (type C appliances); and4)all appliances for which the gas appliance manufacturer has provided a purpose-designed sampling point or specific sampling instructions;NOTE 6 Type A, type B and type C classification of gas-fired appliances is described in PD CENITR 1749 and in 3.21.d)the use of an electronic portable combustion gas analyser as a diagnostic instrument to assist a gas operative:1)in confirming safe and/or efficient operation at the time of commissioning, in accordance with gas appliance instructions;2)in determining the level of servicing required for a gas-fired appliance;
信息：ICS：13.040.40;97.100.20 CCS：Q82 发布：2015-02-28 实施：2015-02-28

ASTM E498/E498M-11 在示踪探针模式下使用质谱仪检漏仪或残余气体分析仪检漏的标准实施规程
简介：
信息：ICS：19.100 CCS： 发布：2011-07-01 实施：

IEC 61207-3-2019 RLV 气体分析仪.性能表示.第3部分:顺磁氧分析仪
简介：
信息：ICS：71.040.40 CCS： 发布：2019-06-26 实施：

BS EN 61207-6-2015 气体分析仪性能.第6部分:光度分析仪
简介：
信息：ICS：19.080;71.040.40 CCS：N55 发布：2015-01-31 实施：2015-01-31

ASTM E1603/E1603M-2011 用罩式质谱探漏仪或残余气体分析仪作检漏测量的标准试验方法
简介：Test Method A8212;This test method is the most frequently used in leak testing components. Testing of components is correlated to a standard leak, and the actual leak rate is measured. Acceptance is based on the maximum system allowable leakage. For most production needs, acceptance is based on acceptance of parts leaking less than an established leakage rate, which will ensure safe performance over the projected life of the component. Care must be exercised to ensure that large systems are calibrated with the standard leak located at a representative place on the test volume. As the volume tends to be large (>1 m3) and there are often low conductance paths involved, a check of the response time as well as system sensitivity should be made. Test Method B8212;This test method is used for testing vacuum systems either as a step in the final test of a new system or as a maintenance practice on equipment used for manufacturing, environmental test, or conditioning parts. As with Test Method A, the response time and a system sensitivity check may be required for large volumes. Test Method C8212;This test method is to be used only when there is no convenient method of connecting the LD to the outlet of the high-vacuum pump. If a helium LD is used and the high-vacuum pump is an ion pump or cryopump, leak testing is best accomplished during the roughing cycle, as these pumps leave a relatively high percentage of helium in the high-vacuum chamber. This will limit the maximum sensitivity that can be obtained.1.1 This practice covers procedures for testing the sources of gas leaking at the rate of 1 x00D7; 10x2212;8 Pa m3/s (1 x00D7; 10x2212;9 standard-cm3/s at 0x00B0;C) or greater. These test methods may be conducted on any object that can be evacuated and to the other side of which helium or other tracer gas may be applied. The object must be structurally capable of being evacuated to pressures of 0.1 Pa (approximately 10x2212;3 torr). 1.2 Three test methods are described; 1.2.1 Test Method A8212;For the object under test capable of being evacuated, but having no inherent pumping capability. 1.2.2 Test Method B8212;For the object under test with integral pumping capability. 1.2.3 Test Method C8212;For the object under test as in Test Method B, in which the vacuum pumps of the object under test replace those normally used in the leak detector (LD). 1.3 Units8212;The values stated in either SI or std-cc/sec units are to be regarded separately as standard. The values stated in each system may not be exact equivalents: therefore, each system shall be used independently of the other. Combining values from the two systems may result in non-conformance with 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 and health practices and determine the applicability of regulatory limitations prior to use.
信息：ICS：23.040.99 CCS：N56 发布：2011 实施：

IEC 61207-3-2019 气体分析仪.性能表示法.第3部分:顺磁氧分析仪
简介：
信息：ICS：71.040.40 CCS： 发布：2019-06-26 实施：

BS EN 61207-6-2015 气体分析仪性能.第6部分:光度分析仪
简介：
信息：ICS：19.080;71.040.40 CCS：N55 发布：2015-01-31 实施：2015-01-31

ASTM D5454-2011 使用电子湿度分析仪测定气体燃料中水蒸汽含量的标准试验方法
简介：Water content in fuel gas is the major factor influencing internal corrosion. Hydrates, a semisolid combination of hydrocarbons and water, will form under the proper conditions causing serious operating problems. Fuel heating value is reduced by water concentration. Water concentration levels are therefore frequently measured in natural gas systems. A common pipeline specification is 4 to 7 lb/MMSCF. This test method describes measurement of water vapor content with direct readout electronic instrumentation.1.1 This test method covers the determination of the water vapor content of gaseous fuels by the use of electronic moisture analyzers. Such analyzers commonly use sensing cells based on phosphorus pentoxide, P2O5, aluminum oxide, Al2O3, or silicon sensors piezoelectric-type cells and laser based technologies. 1.2 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.
信息：ICS：75.160.30 (Gaseous fuels) CCS：E46 发布：2011 实施：

IEC 61207-2-2019 气体分析仪性能表示法第2部分:用高温电化学传感器测量气体中的氧
简介：
信息：ICS：71.040.40 CCS： 发布：2019-06-18 实施：

IEC 61207-6:2014 气体分析仪的性能表达 - 第6部分:光度分析仪
简介：
信息：ICS：71.040.40 CCS： 发布：2014-11-25 实施：

ASTM D5454-2011e1 使用电子湿度分析仪测定气体燃料中水蒸汽含量的标准试验方法
简介：Water content in fuel gas is the major factor influencing internal corrosion. Hydrates, a semisolid combination of hydrocarbons and water, will form under the proper conditions causing serious operating problems. Fuel heating value is reduced by water concentration. Water concentration levels are therefore frequently measured in natural gas systems. A common pipeline specification is 4 to 7 lb/MMSCF. This test method describes measurement of water vapor content with direct readout electronic instrumentation.1.1 This test method covers the determination of the water vapor content of gaseous fuels by the use of electronic moisture analyzers. Such analyzers commonly use sensing cells based on phosphorus pentoxide, P2O5, aluminum oxide, Al2O3, or silicon sensors piezoelectric-type cells and laser based technologies. 1.2 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.
信息：ICS：75.160.30 (Gaseous fuels) CCS：E46 发布：2011 实施：

IEC 61207-2:2019 气体分析仪性能表示法第2部分:用高温电化学传感器测量气体中的氧
简介：
信息：ICS：71.040.40 CCS： 发布：2019-06-18 实施：

KS C IEC 61207-2-2014(2019) 气体分析仪性能表示 - 第2部分:气体中的氧气（利用高温电化学传感器）
简介：
信息：ICS： CCS： 发布：2014-10-02 实施：

BS 7967-5-2010 住宅和其它楼宇中一氧化碳及燃气设施的燃烧性能.第5部分: 非住宅楼宇中采用便携式电子燃烧气体分析仪测量一氧化碳和二氧化碳及测定燃烧性能的指南
简介：This standard gives guidance for identifying and investigating spillage,leakage or build‑up of combustion products from gas-fired appliances innon-domestic premises. It gives recommendations for determining thecombustion performance of such equipment, using electronic portablecombustion gas analysers. This involves sampling and measuring thecarbon monoxide (CO) and carbon dioxide (CO) in the ambient air andin gas-fired appliance chimneys.This standard is for use with equipment using 1st, 2nd or 3rd familygases.NOTE 1 An operative attending non-domestic premises might berequired to examine standard gas-fired appliances which are domestic orcommercial as well as customized process plant/equipment.NOTE 2 This standard does not cover the response of an emergency serviceprovider (ESP) to a gas emergency. It also does not cover procedures forinvestigating incidents that are reportable under the Reporting of Injuries,Diseases and Dangerous Occurrences Regulations 1995 (RIDDOR) andthe Gas Safety (Management) Regulations 1996 (GSMR).NOTE 3 Combustion products from gas-fired appliances containaldehydes and oxides of nitrogen (NOx), predominantly nitrogenmonoxide (nitric oxide, NO) and nitrogen dioxide (NO). Although thisstandard does not cover the measurement of these substances, quantitiesof such products could be present in the air and could cause harm andirritation to humans. For guidance on the health considerations associatedwith these combustion products, see the Institute for Environment andHealth assessment, Indoor air quality in the home: Nitrogen dioxide,formaldehyde, volatile organic compounds, house dust mites, fungi andbacteria.
信息：ICS：13.040.40;97.100.20 CCS：Q82 发布：2010-09-30 实施：2010-09-30

NB/T 10162-2019 煤矿用红外气体分析仪通用技术条件
简介：
信息：ICS：17.180.99 CCS：N34 发布：2019-06-04 实施：2019-10-01

KS C IEC 61207-6-2014(2019) 气体分析仪的性能表达 - 第6部分:光度分析仪
简介：
信息：ICS： CCS： 发布：2014-10-02 实施：

EN 61207-1-2010 气体分析仪性能表示.第1部分:总则
简介：
信息：ICS： CCS： 发布：2010-07-01 实施：

HG/T 5227-2017 流态化催化裂化再生烟气激光气体分析仪
简介：
信息：ICS：71.120;25.040.40 CCS：G98 发布：2017-11-07 实施：2018-04-01

CFR 40-1065.308-2014 环境保护. 第1065部分:发动机测试程序. 第1065.308节:连续气体分析仪系统响应和更新记录核查,气体分析仪不连续等气体种类补偿.
简介：(a) Scope and frequency. This section describes a verification procedure for system response and updating-recording frequency for continuous gas analyzers that output a gas species mole fraction (i.e., concentration) using a single gas detector, i.e., gas analyzers not continuously compensated for other gas species measured with multiple gas detectors. See § 1065.309 for verification procedures that apply tocontinuous gas analyzers that are continuously compensated for other gas species measured with multiple gas detectors. Perform this verification to determine the system response of the continuous gas analyzer and its sampling system. This verification is required for continuous gas analyzers used for transient or ramped-modal testing. You need not perform this verification for batch gas analyzer systemsor for continuous gas analyzer systems that are used only for discretemode testing. Perform this verification after initial installation (i.e., test cell commissioning) and after any modifications to the system that would change system response. For example, perform this verification if you add a significant volume to the transfer lines by increasing their length or adding a filter; or if you reduce the frequency at which the gas analyzer updates its output or the frequency at which you sample and record gas-analyzer concentrations.
信息：ICS： CCS： 发布：2014-04-28 实施：2014-04-28

IEC 61207-1:2010 气体分析仪的性能表达 - 第1部分:总则
简介：
信息：ICS：71.040.40 CCS： 发布：2010-05-31 实施：

HG/T 5226~5228-2017 浮球液位计、流态化催化裂化再生烟气激光气体分析仪和化工装置用多点柔性铠装热电偶(2017)
简介：
信息：ICS： CCS：G97 发布：2017-11-07 实施：2018-04-01

CFR 40-1065.309-2014 环境保护. 第1065部分:发动机测试程序. 第1065.309节:连续气体分析仪系统响应和更新记录验证-气体分析仪等气体种类不断补偿.
简介：(a) Scope and frequency. This section describes a verification procedure for system response and updating-recording frequency for continuous gas analyzers that output a single gas species mole fraction (i.e., concentration) based on a continuous combination of multiple gas species measured with multiple detectors (i.e., gas analyzers continuously compensated for other gas species). See §1065.308 for verification procedures that apply to continuous gas analyzers that are not continuously compensated for other gas species or that use only one detector for gaseous species. Perform this verification to determine the system response of the continuous gas analyzer and its sampling system. This verification is required for continuous gas analyzers used for transient or ramped-modal testing. You need not perform this verification for batch gas analyzers or for continuous gas analyzers that are used only for discretemode testing. For this check we consider water vapor a gaseous constituent. This verification does not apply to any processing of individual analyzer signals that are time-aligned to their t50 times and were verified according to § 1065.308. For example, this verification does not apply to correction for water removed from the sample done in post-processing according to § 1065.659 (40 CFR 1066.620 for vehicle testing) and it does not apply to NMHC determination from THC and CH4 according to § 1065.660. Perform this verification after initial installation i.e., test cell commissioning) and after any modifications to the system that would change the system response.
信息：ICS： CCS： 发布：2014-04-28 实施：2014-04-28

ASTM D7166-10 用于气体燃料硫含量的在线/在线总硫分析仪的标准实践
简介：
信息：ICS： CCS： 发布：2010-01-01 实施：

ASTM E498/E498M-11(2017) 使用质谱仪检漏仪或残留气体分析仪进行探测模式的泄漏标准实践
简介：
信息：ICS：19.100 CCS： 发布：2017-06-01 实施：

CFR 40-1065.550-2014 环境保护. 第1065部分:发动机测试程序. 第1065.550节:气体分析仪系列验证和漂移验证.
简介：(a) Range verification. If an analyzer operated above 100% of its range at any time during the test, perform the following steps:
信息：ICS： CCS： 发布：2014-04-28 实施：2014-04-28

ASTM D7166-2010(2015) 气体燃料含硫量基于总硫分析仪在线 (On-line/At-line) 的标准实施规程
简介：5.1x00a0;On-line, at-line, in-line and other near-real time monitoring systems that measure fuel gas characteristics such as the total sulfur content are prevalent in the natural gas and fuel gas industries. The installation and operation of particular systems vary on the specific objectives, contractual obligations, process type, regulatory requirements, and internal performance requirements needed by the user. This protocol is intended to provide guidelines for standardized start-up procedures, operating procedures, and quality assurance practices for on-line, at-line, in-line and other near-real time total sulfur monitoring systems. 1.1x00a0;This practice is for the determination of total sulfur from volatile sulfur-containing compounds in high methane or hydrogen content gaseous fuels using on-line/at-line instrumentation. 1.2x00a0;The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.3x00a0;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.
信息：ICS： CCS： 发布：2010 实施：

ASTM E1603/E1603M-11(2017) 使用质谱检漏仪或残留气体分析仪进行泄漏测量的标准实践
简介：
信息：ICS：23.040.99 CCS： 发布：2017-06-01 实施：

NF C46-251-7-2014 气体分析仪性能表示. 第7部分: 可调半导体激光器气体分析仪
简介：La présente partie de la CEI 61207 s'applique à tous les aspects des analyseurs à TSLAS utilisés pour la mesure de la concentration d'un ou de plusieurs composants de gaz dans un mélange gazeux ou de la vapeur.Elle s'applique aux analyseurs à sources lasers à semiconducteurs accordables et utilisés dans le cadre de la spectroscopie d'absorption, comprenant les techniques d'absorption directe, FMS, WMS, spectroscopie d'absorption multipassages, CRDS, ICOS, PAS et CEAS, etc.
信息：ICS：71.040.40 CCS：N51 发布：2014-03-26 实施：2014-03-26

ASTM D7166-2010 基于总硫量分析仪的气体燃料中的硫含量在线分析的标准实施规程
简介：On-line, at-line, in-line and other near-real time monitoring systems that measure fuel gas characteristics such as the total sulfur content are prevalent in the natural gas and fuel gas industries. The installation and operation of particular systems vary on the specific objectives, contractual obligations, process type, regulatory requirements, and internal performance requirements needed by the user. This protocol is intended to provide guidelines for standardized start-up procedures, operating procedures, and quality assurance practices for on-line, at-line, in-line and other near-real time total sulfur monitoring systems.1.1 This practice is for the determination of total sulfur from volatile sulfur-containing compounds in high methane or hydrogen content gaseous fuels using on-line/at-line instrumentation. 1.2 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 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.
信息：ICS： CCS：E24 发布：2010 实施：

SY/T 6679.4-2016 综合录井仪校准方法 第4部分：红外气体分析仪
简介：
信息：ICS：75.180 CCS：E90 发布：2016-12-05 实施：2017-05-01

BS EN 61207-7-2014 气体分析仪性能表示. 可调半导体激光器气体分析仪
简介：
信息：ICS：71.040.40 CCS：Q82 发布：2014-01-31 实施：2014-01-31

KS I 2217-2009 非色散红外线气体分析仪
简介：이 표준은 파장 비분산ㆍ정필터 방식의 적외선 가스분석계(이하 분석계라 한다.)로 편위 방식
信息：ICS：71.040.40 CCS：N52 发布：2009-10-12 实施：2009-10-12

SY/T 6679.4-2016 综合录井仪校准方法 第4部分：红外气体分析仪
简介：
信息：ICS：75.180 CCS：E90 发布：2016-12-05 实施：2017-05-01

BS EN 61207-7-2014 气体分析仪性能表示. 可调半导体激光器气体分析仪
简介：
信息：ICS：71.040.40 CCS：Q82 发布：2014-01-31 实施：2014-01-31

ASTM E498-95(2006) 在示踪探针模式下使用质谱检漏仪或残余气体分析仪进行泄漏的标准试验方法
简介：
信息：ICS：19.100 CCS： 发布：2006-12-01 实施：

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