Z10 环境污染物监测方法 标准查询与下载

HJ/T 41-1999 固定污染源排气中石棉尘的测定.镜检法

本标准适用于固定污染源有组织排放的石棉尘测定。 本标准允许的滤膜石棉纤维负荷量范围为100~600根/mm2。

Stationary source emission.Determination of asbestos dust.Microscopic count

HJ/T 40-1999 固定污染源排气中苯并(a)芘的测.定高效液相色谱法

本标准适用于固定污染源有组织排放的苯并（a）芘测定。

Stationary source emission.Determination of benzo(a)pyrene.High performance liquid chromatography

HJ/T 39-1999 固定污染源排气中氯苯类的测定.气相色谱法

本标准适用于固定污染源有组织排放和无组织排放的氯苯类测定。

Stationary source emissio.Determination of chlorobenzenes.Gas chromatography

HJ/T 38-1999 固定污染源排气中非甲烷总烃的测定.气相色谱法

本标准适用于固定污染源有组织排放和无组织排放的非甲烷总烃（NMHC）测定。

Stationary source emission.Determination of nonmethane hydrocarbons.Gas chromatography

HJ/T 23-1998 低、中水平放射性废物近地表处置设施的选址

本标准规定了低、中水平放射性废物近地表处置设施的选址目标，选址方法，选址过程的管理，选址准则和选址过程中需要收集的数据或资料。 本标准适用于低、中水平放射性废物近地表处置设施的选址。本标准不适用于铀水冶尾矿处置场的选址，也不适用于对免管废物进行处置的填埋设施的选址。

Siting of near surface disposal facilities of low-and intermediate-level radioactive wastes

SY 6277-1997 含硫油气田硫化氢监测与人身安全防护规定

本标准规定了含硫油气田开采和生产过程中对硫化氢监测与人身安全防护应遵守的基本准则。 本标准适用于天然气及石油伴生气中含硫化氢的陆上油气田。

Rules of hydrogen sulfide monitoring and protecting for operators in petroleum and nature gas field with hydrogen sulfide

ASTM E1864-97 建筑物和相关结构土壤中,涂料中铅,尘土,空中悬浮微粒危害评估和 评估质量系统的标准操作

1.1 This practice covers the quality system requirements, competency and qualifications, to include minimum requirements for training, sampling design, personnel and equipment, duties, responsibilities, and services of organizations engaged in providing lead assessment services to determine the extent of lead and lead-based paint contamination. 1.2 Organizations evaluated using this practice shall engage in one or more of the following assessment activities: sampling design, sample collection, field testing, data validation, and report writing and recommendations. 1.3 This practice has been developed consistent with the appropriate requirements of Guides E 548 and E 994 and ISO 9001 and ISO Guide 25. 1.4 Where the testing function exists, it must be evaluated using Practice E 1583. 1.5 This practice is meant to be used with Guide D 4840, Practices D 5438, E 1553, E 1727, E 1728, and E 1729, and Terminology E 1605. 1.6 For information and guidance in applying this practice, see EPA 600/8-91/214 and EPA 600/R-93/200. 1.7 This practice contains notes that are explanatory and are not part of the mandatory requirements of the practice. 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 and health practices and determine the applicability of regulatory limitations prior to use.

Standard Practice for Evaluating Quality Systems of Organizations Conducting Facility and Hazard Assessments for Lead in Paint, Dust, Airborne Particulate, and Soil in and around Buildings and Related Structures

ISO 11932:1996 拟再循环、再使用或作非放射性废物处置的固体物质放射性活度的测量

本标准规定了核设施运行和退役产生的，拟再循环、再利用或作非放射性废物处置的固体物质的放 射性活度测量的原则和方法。 本标准适用于核设施运行和退役产生的，拟再循环、再利用或作非放射性废物处置的固体物质的放 射性活度测量，以判明这些物质是否符合发布的清洁解控标准。 其他来源的，拟再循环、再利用或作非放射性废物处置的固体物质的放射性活度测量，可参照本标 准执行。 本标准不适用于一般意义的放射性废物。

Activity measurements of solid materials considered for recycling, re-use, or disposal as non-radioactive waste

JG/T 5066-1996 油液中固体颗粒污染物的重量分析法

本标准规定了油液(液压油、润滑油、徽油)的固体顺粒污染物的重量分析法。 本标准适用于建筑机械与设备用油液的固体顺粒污染物测定。其他机械亦可参照使用。

Determination of solid particulate contaminant in fluids by the gravimetric method

ASTM E1798-96(2008) 有机化学生物降解评估可处理性的标准试验方法

Secondary wastewater treatment using activated sludge is one of the most important biological treatment processes in use today. The porous pot simulates the activated sludge sewage treatment process in the laboratory and provides data that can be used to predict the fate of organic compounds in full scale plants. A good correlation between the laboratory test and full scale plants is achieved by the use of primary effluent or settled domestic sewage and controlling key parameters in ranges typical of such treatment process. These parameters include temperature, pH, DO concentration, hydraulic residence time (HRT) and sludge retention time (SRT).1.1 This test method covers simulating the activated sludge sewage treatment process and therefore gives a measure of the extent of biodegradation or removal likely to occur during sewage treatment. 1.2 Assessment of treatability or biodegradability, or both, of water soluble organic compounds in the porous pot test requires dissolved organic carbon (DOC) measurements or specific chemical analysis. 1.2.1 Dissolved organic carbon (DOC) measurements, relative to the controls, can be used to calculate the removal of the test chemical or water soluble residues by the porous pot treatment (see 12.3). The DOC measurements do not identify water soluble chemicals. Specific chemical analysis, on the other hand, can be used to identify and quantify the parent test chemical or (if standards are available) any water soluble residues formed by the porous pot treatment. A specific chemical analytical method must have a limit of detection (LOD) ≤0.1 mg/L in water or ≤0.1 mg/Kg in solids. 1.3 The feature that distinguishes this test from other activated sludge simulation tests is the retention of the activated sludge in a porous liner, that eliminates the need for a secondary clarifier and facilitates control of the critical parameter, the sludge retention time (SRT). 1.4 Porous pots can be completely sealed and tests using 14C-labeled test compounds are then possible. Carbon dioxide in the exhaust gas and bicarbonate in the effluent can be used together to assess the extent of mineralization, and levels of radiolabel in the sludge and in the aqueous phase may also be determined. 1.5 By simultaneously measuring the efficiency of the pots in removing DOC, it is also possible to determine whether the test compound has any adverse effect on normal sewage treatment processes. 1.6 The SI units given in parentheses are for information only. 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 use. For specific hazard statements see Section 6.

Standard Test Method for Assessing Treatability or Biodegradability, or Both, of Organic Chemicals in Porous Pots

ASTM E1849-96(2002) 鱼和野生动物监测和报告的标准指南

1.1 State and Federal agencies as well as industry have requested guidance for collecting, reporting, and interpreting fish and wildlife incident data. This guide covers planning and completing a thorough investigation to determine an incident's cause. Recommendations for documenting and reporting incidents are provided. A summary of the information necessary for completing a risk assessment and information on how fish and wildlife incident data are considered for regulatory decisions are also provided.1.2 Several agencies collect information and maintain databases regarding fish and wildlife incidents. A list of these databases and the types of information they contain are included. Agencies with regulatory authority relating to fish and wildlife incidents are listed and laws pertaining to fish and wildlife incidents are summarized.1.3 For the purposes of this guide, a fish or wildlife incident is defined as an allegation of an adverse effect on nontarget fish and wildlife species. By today's detecting standards, adverse effects data are usually limited to mortalities. However, as biological monitoring improves, sublethal effects data may be more readily quantifiable and reported.1.4 This guide is arranged as follows:SectionReferenced Documents2Terminology3Significance and Use4Laws and Regulations4.1Benefits of Maintaining Records4.2Ecological Risk Databases4.3Ecological Risk Assessments4.4Precautionary Steps and Safety5Determining the Cause of the Incident6Common Causes of Fish Mortality6.1Common Causes of Wildlife Mortality6.2Investigation of Incidents7Quality Control and Standard Operating Procedures7.1Planning Field Investigation7.2Interagency Coordination7.3Chain of Custody7.4Comprehensive and Systematic Collection of Samples and Information7.5Analyses of Samples7.6Analyses of Data7.7Determining Significance of Investigation7.8Reporting of Incidents8Format of Report8.1Documentation of Information8.2AppendixesReferences1.5 The values stated in both inch-pound and SI units are to be regarded separately as the standard. The values given in parentheses are for information only.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 and health practices and determine the applicability of regulatory limitations prior to use. Specific precautionary statements are given in Section 5.

Standard Guide for Fish and Wildlife Incident Monitoring and Reporting

ASTM E1849-96(2007) 鱼和野生动物监测和报告的标准指南

1.1 State and Federal agencies as well as industry have requested guidance for collecting, reporting, and interpreting fish and wildlife incident data. This guide covers planning and completing a thorough investigation to determine an incident's cause. Recommendations for documenting and reporting incidents are provided. A summary of the information necessary for completing a risk assessment and information on how fish and wildlife incident data are considered for regulatory decisions are also provided.1.2 Several agencies collect information and maintain databases regarding fish and wildlife incidents. A list of these databases and the types of information they contain are included. Agencies with regulatory authority relating to fish and wildlife incidents are listed and laws pertaining to fish and wildlife incidents are summarized.1.3 For the purposes of this guide, a fish or wildlife incident is defined as an allegation of an adverse effect on nontarget fish and wildlife species. By today's detecting standards, adverse effects data are usually limited to mortalities. However, as biological monitoring improves, sublethal effects data may be more readily quantifiable and reported.1.4 This guide is arranged as follows:SectionReferenced Documents2Terminology3Significance and Use4Laws and Regulations4.1Benefits of Maintaining Records4.2Ecological Risk Databases4.3Ecological Risk Assessments4.4Precautionary Steps and Safety5Determining the Cause of the Incident6Common Causes of Fish Mortality6.1Common Causes of Wildlife Mortality6.2Investigation of Incidents7Quality Control and Standard Operating Procedures7.1Planning Field Investigation7.2Interagency Coordination7.3Chain of Custody7.4Comprehensive and Systematic Collection of Samples and Information7.5Analyses of Samples7.6Analyses of Data7.7Determining Significance of Investigation7.8Reporting of Incidents8Format of Report8.1Documentation of Information8.2AppendixesReferences1.5 The values stated in both inch-pound and SI units are to be regarded separately as the standard. The values given in parentheses are for information only.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 and health practices and determine the applicability of regulatory limitations prior to use. Specific precautionary statements are given in Section 5.

Standard Guide for Fish and Wildlife Incident Monitoring and Reporting

ASTM E1849-96 鱼和野生动物监测和报告的标准指南

1.1 State and Federal agencies as well as industry have requested guidance for collecting, reporting, and interpreting fish and wildlife incident data. This guide covers planning and completing a thorough investigation to determine an incident's cause. Recommendations for documenting and reporting incidents are provided. A summary of the information necessary for completing a risk assessment and information on how fish and wildlife incident data are considered for regulatory decisions are also provided. 1.2 Several agencies collect information and maintain databases regarding fish and wildlife incidents. A list of these databases and the types of information they contain are included. Agencies with regulatory authority relating to fish and wildlife incidents are listed and laws pertaining to fish and wildlife incidents are summarized. 1.3 For the purposes of this guide, a fish or wildlife incident is defined as an allegation of an adverse effect on nontarget fish and wildlife species. By today's detection standards, adverse effects data are usually limited to mortalities. However, as biological monitoring improves, sublethal effects data may be more readily quantifiable and reported. 1.4 The values stated in both inch-pound and SI units are to be regarded separately as standard. The values given in parentheses are for information only. 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 and health practices and determine the applicability of regulatory limitations prior to use. Specific precautionary statements are given in Section 5.

Standard Guide for Fish and Wildlife Incident Monitoring and Reporting

ISO 3929:1995 道路车辆 在检验或维修过程中废气排放量的测量方法

Road vehicles - Measurement methods for exhaust gas emmissions during inspection or maintenance

BOCA CHAPTER 10 IPSDC-1995 污水池

This table, a nomogram, determines the distribution pipe or manifold length, hole or distribution pipe spacing, number of boles, dis?ibution discharge rate and hole diameter of pressure distribution systems by the placement of a straightedge between two

Cesspools

ASTM D4687-95(2006) 废料取样一般计划用标准指南

The procedures covered in this guide are general and provide the user with information helpful for writing sampling plans, safety plans, labeling and shipping procedures, chain-of-custody procedures, general sampling procedures, general cleaning procedures, and general preservation procedures. For purposes of this guide, it is assumed that the user has knowledge of the waste being sampled and the possible safety hazards. This guide is not to be used when sampling sites or wastes where safety hazards are unknown. In such cases, the user must use other more appropriate procedures.1.1 This guide provides information for formulating and planning the many aspects of waste sampling (see 1.2) which are common to most waste sampling situations.1.2 The aspects of sampling which this guide addresses are as follows:1.3 This guide does not provide comprehensive sampling procedures for these aspects, nor does it serve as a guide to any specific application. It is the responsibility of the user to assure that the procedures used are proper and adequate.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. For more specific precautionary statements see , , and Section .

Standard Guide for General Planning of Waste Sampling

SL 63-1994 地表水资源质量标准

Quality standards for surface water resources

JIS K 0060:1992 工业废弃物的取样方法

この規格は，産業廃棄物(以下，廃棄物という。)を対象とする各種試験の実施に当たり，ロットの平均性状を決定するために必要なサンプリング方法，試料の縮分方法の一般的事項について規定する。備考1.この規格でいう産業廃棄物とは，汚泥，鉱さい，廃酸，廃アルカリ，燃えがら，ばいじん，廃棄物をコンクリートで固形化したもの(以下，コンクリート固形化物という。)などをいう。2.上記以外の産業廃棄物及びー般廃棄物で形状が類似しているものについても準用できる。

Sampling method of industrial wastes

DIN 38402-6:1991 德国检验水、废水和污泥的标准方法.一般信息(A组).对排放物中水成份控制评定的最低频次(排放策略)

This standard describes a method for assessment of the frequency for controlling of discharge into waters regarding the obedience of limit values for special water contaminants. There is given a measuring strategy on basis of statistical parameters.

German standard methods for the examination of water, waste water and sludge; general information (group A); assessment of the minimum frequency for controlling water constituents in discharges (emission strategy) (A 6)

ISO/TR 6970:1981 道路车辆.摩托车和机动脚踏两用车的污染试验.试车台(底盘测力计)

Road vehicles; Pollution tests for motorcycles and mopeds; Bench (chassis dynamometer)