13.040.99 有关空气质量的其他标准 标准查询与下载

ASTM D6602-13(2018) 可能的炭黑逃逸排放或其他环境微粒的采样和测试的标准做法 或两者​​兼有

Standard Practice for Sampling and Testing of Possible Carbon Black Fugitive Emissions or Other Environmental Particulate, or Both

T/CBTA 0001-2018 烧结砖瓦工业大气污染物治理设施工程技术规范

本标准规定了烧结砖瓦工业大气污染物治理设施排放工程的术语和定义、污染物与污染负荷、总体要求、工艺设计、主要工艺设备和材料、检测与过程控制、主要辅助工程、安全与卫生、工程施工与验收、运行与维护等技术要求。 本标准适用于烧结砖瓦工业大气污染物治理设施排放工程，可作为烧结砖瓦企业建设项目环境影响评价、环境保护设施设计、施工、调试、验收和运行管理以及环境监理、排污许可证审批的技术依据。非烧结砖瓦企业大气污染物治理设施排放工程可参照执行。

Engineering technical specification for air pollutant control facilities of sintered brick and tile industry

ASTM D6399-18 选择飞机机舱空气质量仪器和方法的标准指南

1.1 This guide covers information and guidance for the selection of instrumentation and test methods for measuring air quality in aircraft passenger cabins as well as in areas limited to flightcrew access. 1.2 This guide assumes that a list of pollutants to be measured, or analytes of interest, which are present, or may be present, in aircraft cabins is available. 1.3 This guide provides information and guidance to identify levels of concern pertaining to public and occupational exposures to relevant air pollutants. This guide does not address levels of concern, if any, related to degradation of materials or aircraft components because of the presence of air pollutants. 1.4 Based on levels of concern for public and occupational exposures for each pollutant of interest, this guide provides recommendations for developing three aspects of data quality objectives (a) detection limit; (b) precision; and (c) bias. 1.5 This guide summarizes information on technologies for measurement of different groups or classes of air pollutants to provide a basis for selection of instruments and methods. The guide also identifies information resources on types of available measurement systems. 1.6 This guide provides general recommendations for selection of instruments and methods. These recommendations are based on concepts associated with data quality objectives discussed in this guide and the information on available instruments and methods summarized in this guide. 1.7 This guide is specific to chemical contaminants and does not address bioaerosols, which may be present in the cabin environment. 1.8 This guide does not provide details on use or operation of instruments or methods for the measurement of cabin air quality. 1.9 This guide does not provide information on the design of a monitoring strategy, including issues such as frequency of measurement or placement of samplers. 1.10 Users of this guide should be familiar with, or have access to, individuals who have a background in (a) use of instruments and methods for measurement of air pollutants and (b) principles of toxicology and health-effects of environmental exposure to air pollutants. 1.11 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.12 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. 1.13 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 Guide for Selecting Instruments and Methods for Measuring Air Quality in Aircraft Cabins

DIN EN 15267-4:2017 空气质量. 自动测量系统认证. 第4部分: 定期测量固定源排放用自动测量系统的性能标准和试验规程; 德文版本EN 15267-4-2017

Air quality - Certification of automated measuring systems - Part 4: Performance criteria and test procedures for automated measuring systems for periodic measurements of emissions from stationary sources; German version EN 15267-4:2017

ASTM E1644-17 用于确定铅的除尘样品的热板消解的标准实践

1.1 This practice covers the acid digestion of surface dust samples (collected using wipe sampling practices) and associated quality control (QC) samples for the determination of lead. 1.2 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.2.1 Exception—Informational inch-pound units are provided in Note 3. 1.3 This practice contains notes which are explanatory and not part of mandatory requirements of 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.

Standard Practice for Hot Plate Digestion of Dust Wipe Samples for the Determination of Lead

BS EN 15267-4:2017 空气质量. 自动测量系统认证. 定期测量固定源排放用自动测量系统的性能标准和试验规程

Air quality. Certification of automated measuring systems. Performance criteria and test procedures for automated measuring systems for periodic measurements of emissions from stationary sources

EN 15267-4:2017 空气质量-自动测量系统的质量保证-第4部分:定期测量固定源排放量自动测量系统的性能标准和试验程序

This European Standard specifies the general performance criteria and test procedures for portable automated measuring systems (P-AMS) used for periodic measurements of stationary source emissions. It applies to the performance testing of P-AMS based on measurement techniques specified by the standard reference method (SRM) or an alternative method (AM). Performance testing is based on the general performance criteria and test procedures specified in this European Standard and on the specific requirements specified for the SRM or AM. This includes testing of the applicability and correct implementation of the QA/QC procedures specified for the SRM or AM. This European Standard supports the requirements of particular EU Directives.

Air quality - Certification of automated measuring systems - Part 4: Performance criteria and test procedures for automated measuring systems for periodic measurements of emissions from stationary sources

VDI 3928-2017 化学吸附废气净化

The standard contains process-specific advice for the design, construction and operation of mainly dry or semi-dry operating waste gas purification systems for industrial production processes and incineration units. The results shown in the figures and tables are typical examples. Because of the numerous interdependencies between system and waste gas parameters, they are applicable only to the specific case. The quoted operating data were measured in plants built according to the current state of the art.

Waste gas cleaning by chemisorption

ASTM D6306-17 室内空气中气态污染物扩散采样器放置和使用的标准指南

5.1 Diffusive samplers provide a useful sampling option for studying time-weighted average indoor air concentrations of vapor-phase pollutants. They are easy and cost-effective to deploy enabling the collection of relatively large data sets. 5.2 The objective of this guide is to provide guidance for the placement and use of diffusive samplers that when uniformly applied enables the user to eliminate many potential interferences that may occur in diffusive sampling of indoor air. Since the analysis of the indoor environment by diffusive sampling is influenced by many factors other than the method of sampling, efforts are made to minimize interfering factors and maintain the air at conditions typical of the measurement location within the vicinity of the diffusive sampler. However, when performing certain diagnostic or special measurements, non-typical indoor air environmental conditions may be desirable or required. Thus, the objectives of a sampling study determine the conditions needed for sampling. 5.3 Diffusive sampling provides for time integrated measurements. Diffusive samplers are usually placed in an indoor environment over a time period to obtain a time weighted average concentration; hence, interfering factors potentially occurring over this period should be anticipated and eliminated where possible. Diffusive samplers often lack the sensitivity to measure short-term peak concentrations. 5.4 With suitable instruction regarding placement of diffusive samplers, placement, and retrieval of the samplers can be performed by unskilled personnel (for example, occupants). 1.1 This guide covers the placement and use of diffusive samplers in an indoor environment. 1.2 The primary use of diffusive samplers is to measure the exposure concentrations of specific gaseous air contaminants for occupants in a variety of indoor environments. 1.3 Diffusive samplers within this guide are used to measure concentrations of air contaminants in residences, public buildings, offices, and other non-industrial environments. A diffusive sampler is any air sampler that does not utilize electrical or mechanical power in order to supply air to the sorbent media or chemical reactant within the sampler and that samples according to Fick’s first law of diffusion. 1.4 The purpose of this guide is to ensure uniformity of sampling within a variety of indoor environments and to facilitate comparison of results. 1.5 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.6 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. 1.7 Th......

Standard Guide for Placement and Use of Diffusive Samplers for Gaseous Pollutants in Indoor Air

DIN 33896:2016 技术设备的粉尘排放 工作台上使用的机器粉尘排放率的基本测定方法

Dust emission of technical equipment - Basic method for determination of the dust emission rate of machines intended for the use on work tables

VDI 2441-2016 通过冷等离子体清洁工艺气体和废气 势垒放电、电晕放电、紫外线辐射

In non-thermal plasma the coupled energy is mainly transferred to the electrons, while the gas temperature is similar to the level of the ambient temperature. The energy of the electrons is used to break down hydrocarbon compounds. Consequently, the range of application of the standard mainly focuses on odorous gases and those containing less concentrated gaseous hydrocarbons. In this context, the standard includes information for planning, construction and operation of non-thermal plasma systems for exhaust gas purification.

Process gas and waste gas cleaning by cold plasma - Barrier discharge, corona discharge, UV radiation

VDI 3477-2016 生物废气净化-生物过滤器

This standard covers the treatment of waste gas/exhaust air containing gaseous air pollutants, aerosols and notably odorants. The described biodegradation of the pollutants is accomplished under aerobic conditions by micro-organisms colonizing on solid support media. This standard gives an overview of waste gas streams that have been successfully treated and/or pollutants that have been effectively degraded in biofilter systems. It addresses the criteria to be considered for the proper design of the biofilter system, discusses performance evaluation criteria and presents production processes in which biofilters have become successfully established for waste gas treatment.

Biological waste gas purification - Biofilters

VDI 3476 Blatt 1-2015 废气净化 催化废气净化的方法 基本原理

This standard describes the state of the art in the field of catalytic waste gas cleaning. It serves as the basis for method selection, design, operation and ecological and economic evaluation of facilities and catalysts for catalytic waste gas cleaning. Questions related to the practical application of the methods have been considered with top priority. The standard covers the application of the catalytic waste gas cleaning in stationary plants and processes only. The catalytic waste gas cleaning of flue gases of power plants is described in standard VDI 3927 Part 1. The standards provides the fundamentals for VDI 3476 Part 2 (oxidative processes) and VDI 3476 Part 3 (methods of catalytic waste gas cleaning).

Waste gas cleaning - Methods of catalytic waste gas cleaning - Fundamentals

ASTM D4532-15 采用气旋采样器对工作场所环境中可吸入粉尘的标准试验方法

5.1 This test method covers the determination of respirable dust concentration in workplace atmospheres. 5.2 Variations of the test method are in world-wide use for determining compliance relative to occupational exposure levels. 5.3 The test method may be used to verify dust control measures. 5.4 The test method may also be applied in research into health effects of dust in an occupational setting. 1.1 This test method provides details for the determination of respirable dust concentration defined in terms of international convention in a range from 0.5 to 10 mg/m3 in workplace atmospheres. Specifics are given for sampling and analysis using any one of a number of commercially available cyclone samplers. 1.2 The limitations on the test method are a minimum weight of 0.1 mg of dust on the filter, and a maximum loading of 0.3 mg/m2 on the filter. The test method may be used at higher loadings if the flow rate can be maintained constant. 1.3 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.4 This test method contains notes that are explanatory and are not part of the mandatory requirements of the method. 1.5 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 consult and establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Standard Test Method for Respirable Dust in Workplace Atmospheres Using Cyclone Samplers

VDI 2442-2014 废气净化 热力废气净化方法

Die Richtlinie enthalt essenzielle Hinweise fur Planung, Bau und Betrieb von thermischen Abgasreinigungsanlagen. Hierzu zahlen Anlagen mit nahezu adiabater Reaktionszone (z.B. keramisch ausgekleidete Brennkammern) und nicht adiabater Reaktionszone (z.B. Fackeln, Dampfkessel). Die Richtlinie unterstutzt die Anwender bei der Gestalltung eines Systems zur thermischen Abgasreinigung und gibt Hinweise zur Abwarmenutzung, zum Bedarf an Energie- und Hilfsstoffen und zur Emissionsminderung. Weiterhin werden Aspekte der technischen Gewahrleistung und Entscheidungskriterien aufgefuhrt. Die in dieser Richtlinie aufgefuhrten Betriebsbedingungen, Anlagenbeispiele und -d

Waste gas cleaning - Methods of thermal waste gas cleaning

ASTM D6178-14 由基床排放的挥发性有机化学药品的短期吸入暴露测定的标准实施规程

5.1 The objective of this practice is to provide procedures for estimation of human inhalation exposure to VOCs emitted from bedding sets. The estimated inhalation exposure can be used as an input to characterization of health risks from short-term VOC exposures. 5.2 The results of exposure estimation for specific raw materials and components, or processes used in manufacturing different bedding sets, can be used to compare their relative impacts on exposures. 1.1 This practice covers the procedures for estimation of short-term human inhalation exposure to volatile organic chemicals (VOCs) emitted from bedding sets when a new bedding set is first brought into a house. 1.2 The estimated exposure is based on an estimated emission profile of VOCs from bedding sets. 1.3 The VOC emission from bedding sets, as in the case of other household furnishings, usually are highest when the products are new. Procedures described in this practice also are applicable to used bedding sets. 1.4 Exposure to airborne VOC emissions in a residence is estimated for a household member, based on location and activity patterns. 1.5 The estimated exposure may be used for characterization of health risks that could result from short-term exposures to VOC emissions. 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 and health practices and determine the applicability of regulatory limitations prior to its use.

Standard Practice for Estimation of Short-term Inhalation Exposure to Volatile Organic Chemicals Emitted from Bedding Sets

ASTM D6331-14 测定低浓度固定源颗粒物质质量浓度的标准试验方法 (人工重量分析法)

5.1 The measurement of particulate matter and collected residue emission rates is an important test method widely used in the practice of air pollution control. Particulate matter measurements after control devices are necessary to determine total emission rates into the atmosphere. 5.1.1 These measurements, when approved by federal or state agencies, are often required for the purpose of determining compliance with regulations and statutes. 5.1.2 The measurements made before and after control devices are often necessary to demonstrate conformance with contractual performance specifications. 5.2 The collected residue obtained with this test method is also important in characterizing stack emissions. However, the utility of these data is limited unless a chemical analysis of the collected residue is performed. 5.3 These measurements also can be used to calibrate continuous particulate emission monitoring systems by correlating the output of the monitoring instruments with the data obtained by using this test method. 5.3.1 This test method is useful in such correlation applications when emissions are less than 20 mg/m3. 5.3.2 The correlation test method is most valid when the monitoring instrumentation samples the particulate matter under the same test conditions as this test method. 1.1 This test method2 covers a method for the measurement of particulate matter (dust) concentration in emission gases in the concentrations below 20 mg/m3 standard conditions, with special emphasis around 5 mg/m3. 1.2 To meet the requirements of this test method, the particulate sample is weighed to a specified level of accuracy. At low dust concentrations, this is achieved by: 1.2.1 Exercising extreme care in weighing, 1.2.2 Extending the sampling time at conventional sampling rates, or 1.2.3 Sampling at higher rates at conventional sampling times (high-volume sampling). 1.3 This test method differs from Test Method D3685/D3685M by requiring the mass measurement of filter blanks, specifying weighing procedures, and requiring monitoring of the flue gas flow variability over the testing period. It requires that the particulate matter collected on the sample filter have a mass at least five times a positive mass difference on the filter blank. High volume sampling techniques or an extension of the sampling time may be employed to satisfy this requirement. 1.4 This test method may be used for calibration of ......

Standard Test Method for Determination of Mass Concentration of Particulate Matter from Stationary Sources at Low Concentrations &40;Manual Gravimetric Method&41;

VDI 3476 Blatt 3-2012 废气净化 催化废气净化方法 选择性催化还原

This guideline describes the basis for the choice of methods, the design, operation of facilities and the use of catalysts for catalytic waste gas cleaning. Selective catalytic reduction processes are described. The focus is on the design documentation and examples for the practical use of these methods.The chemism of the catalytic processes and of deactivation of catalysts, catalyst types and the parameters for nitrous oxide reduction rate calculation and for dimensioning of reactors are covered in detail. It contains numerous examples from oil and coal fired power plants, thermal treatment of waste and cleaning of waste gases from motor vehicle combustion as well as marine diesel engines. In addition, special applications are described for reduction of nitrous oxide from nitric acid production.In this guideline operators and planners find emission and operating data of performed plants for which is proven that the selective catalytic reduction is applicable to reduce the exemplified listed pollutants.

Waste gas cleaning - Methods of catalytic waste gas cleaning - Selective catalytic reduction

ASTM D6332-12(2017) 测量一氧化碳测量器对气体和蒸气的动态反应的试验系统的标准指南

5.1 This guide provides information on testing systems and their components used for measuring responses of CO alarms or detectors subjected to gases, vapors, and their mixtures. Components of a testing system include a chamber, clean air supply module, humidification module, gas and vapor delivery module, and verification and control instrumentation. 5.2 The CO detector is tested by sequential exposure to CO and interference gases at the specified challenge concentrations. A properly functioning alarm/detector will sound upon sufficient exposure to CO but will not sound upon any exposure to interference gases consistent with applicable standards (for example, IAS 6-96 (1),5 L 2034). 1.1 This guide describes testing systems used for measuring responses of carbon monoxide (CO) alarms or detectors subjected to gases, vapors, and their mixtures. 1.2 The systems are used to evaluate responses of CO detectors to various CO concentrations, to verify that the detectors alarm at certain specified CO concentrations, and to verify that CO detectors do not alarm at certain other specified CO concentrations. 1.3 The systems are used for evaluating CO detector responses to gases and vapors that may interfere with the ability of detectors to respond to CO. 1.4 Major components of such a testing system include a chamber, clean air supply module, humidification module, gas and vapor delivery module, and verification and control instrumentation. 1.5 For each component, this guide provides a comparison of different approaches and discusses their advantages and disadvantages. 1.6 The guide also presents recommendations for a minimum configuration of a testing system. 1.7 Units—The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.8 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 more specific safety precautionary information, see 6.2. 1.9 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 Guide for Testing Systems for Measuring Dynamic Responses of Carbon Monoxide Detectors to Gases and Vapors

DB23/ 1395-2010 糠醛工业大气污染物排放标准

Emission standard of air pollutants for furfural industry