Z23 工业废水、污染物分析方法 标准查询与下载

DIN EN 12880:2001 污泥的特性.干残留物和水含量的测定

The document specifies procedures for the determination of dry residue and water content of sludge which for the purpose of the document includes only sludges separated from water and municipal wastewater treatment processes and sludges from similar industries.

Characterization of sludges - Determination of dry residue and water content; German version EN 12880:2000

DIN EN 13342:2001 污泥特性.基耶达尔氮的测定

The document defines terms for sludges describes in the scope of CEN/TC 308: storm water handling, night soil, urban wastewater collecting systems, urban wastewater treatment plants, treating industrial wastewater similar to urban wastewater, water supply treatment plants, water distribution systems, but excluding hazardous sludges from industry.#,,#

Characterization of sludges - Determination of Kjeldahl nitrogen; German version EN 13342:2000

BS EN 13346:2000 污泥特性描述.痕量元素和磷的测定.王水萃取法

This standard specifies methods for the extraction, with aqua regia, of trace elements and phosphorus from sludges and sludge products. The resulting solution is suitable for the determination of As, Cd, Cr, Cu, Hg, Ni, Pb, Se, Zn and P using spectrometric techniques. NOTE 1 With high solute concentrations in extract solutions, spectral interferences and background enhancement should be expected. NOTE 2 This method can be used for other elements except that portion of the elements bonded to silica.

Characterization of sludges - Determination of trace elements and phosphorous - Aqua regia extraction methods

BS EN 13342:2000 污泥特性描述.基尔达斯氮的测定

This method describes a procedure for the determination of "Kjeldahl Nitrogen" in sludge and sludge products. The digestion is catalysed by selenium or copper, the temperature being raised by a high concentration of sodium sulphate. Although wet samples are normally taken for analysis, it is recognized practice to report results on a dry mass basis (g/kg). Consequently, it is also necessary to determine the dry residue of the homogenized sample used for analysis (see EN 12880).

Characterization of sludges - Determination of Kjeldahl nitrogen

JIS B 9930:2000 液压流体动力.流体污染.用显微镜计数方法测定颗粒污染度

Hydraulic fluid power -- Fluid contamination -- Determination of particulate contamination by the counting method using a microscope

JIS B 9931:2000 液体污染物.用重量分析法测定液体污染物

この規格は，油圧システムに使用されている作動油の汚染度を，二通りの質量法によって測定する方法を規定する。

Fluid contamination -- Determination of contaminants by the gravimetric methods

DIN 38407-16:1999 德国对水、废水和淤泥的标准检验方法.可联合测定的物质(F组).第16部分:用气体色谱法测定苯胺衍生物

The document describes a chemical method for the determination of aniline derivates in ground water, potable water and surface water. The substances are determined by gas chromatography after solid-liquid-enrichment respectively liquid-liquid-extraction.#,,#

German standard methods for the examination of water, waste water and sludge - Jointly determinable substances (group F) - Part 16: Determination of aniline derivates by gas chromatography (F 16)

ASTM D6408-99 鞣皮厂液剂分析的标准试验方法

1.1 This test method covers the analysis of tannery liquors made up from vegetable tanning materials. 1.2 The values stated in SI units are to be regarded as the 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.

Standard Test Method for Analysis of Tannery Liquors

ASTM D6408-99(2004) 鞣皮厂液剂分析的标准试验方法

This test method is used to determine the chemical properties of tannery liquors which are relevant for the vegetable tanning process and influence the astringency of vegetable tanning liquors. The astringency of liquors is dependent upon the solids and tannin content and the acidity. This method provides a standard procedure for determining these properties for any sample of vegetable tanning liquor. The specimens are aliquots from the analytical solution prepared from the sample of tannery liquor collected for this purpose. The total solids, soluble solids, and non-tannins content are determined and then the tannin content of the liquor sample is calculated. Because the amount of tannin per liter of analytical solution is less than that required for Test Method D 6401, a table specifying the quantity of prepared hide powder to be used for solutions with lower tannin concentrations is included in this test method. The total acidity of the liquor sample is determined by one of two titrametric procedures described in Test Method D 6410. The results of this test method are dependent on a great many variables but particularly upon: the temperature conditions under which the solutions were prepared and stored and the temperature at which the current analysis is performed; the uniformity and consistency of the Kaolin paste layer deposited onto the filter paper; the rate of solution run-out from the pipette; conditions related to the properties of the hide powder used to react with the tannin content of the solution; etc. It is, therefore, essential that the method be followed exactly in order to obtain reproducible results both among specimens within a laboratory and for analyses between laboratories.1.1 This test method covers the analysis of tannery liquors made up from vegetable tanning materials. 1.2 The values stated in SI units are to be regarded as the 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.

Standard Test Method for Analysis of Tannery Liquors

ASTM D6234-98(2007) 通过合成沉淀漓滤过程对采矿废物的摇混提取的标准试验方法

This test method is intended as a means for obtaining an extract of mining waste. The extract may be used to estimate the release of certain inorganic constituents of the waste under the laboratory conditions described in this test method. The user is advised to minimize the holding time between sampling and testing if the waste is suspected to contain reactive sulfide minerals. Note 28212;This method is not intended to be used as a kinetic test to simulate weathering of mining wastes. For kinetic testing of mining wastes, refer to Test Method D 5744 to determine release rates for constituents of interest. The pH of the extraction fluid used in this test method is to reflect the pH of acidic precipitation in the geographic region in which the waste being tested is to be disposed (see 1.2). An intent of this test method is for the final pH of the extract to reflect the interaction of the extractant with the buffering capacity of the waste. This test method is not intended to provide an extract that is representative of the actual leachate produced from a waste in the field or to produce extracts to be used as the sole basis of engineering design. If the conditions of this test method are not suitable for the test material USEPA Method 1312 may be used. This test method has not been demonstrated to simulate actual disposal site leaching conditions. This test method produces extracts that are amenable to the determination of both major and minor (trace) inorganic constituents. When minor constituents are being determined, it is especially important that precautions be taken in sample storage and handling to avoid possible contamination of the samples. This test method has been tested to determine its applicability to certain inorganic components in the waste. This test method has not been tested for applicability to organic substances, volatile matter (see Note 4), or biologically active samples. This test method has undergone limited testing to determine its reproducibility.1.1 This test method covers a procedure for the shake leaching of mining waste containing at least 80 % dry solids ( 20 % moisture) in order to generate a solution to be used to determine the inorganic constituents leached under the specified testing conditions, that conform to the synthetic precipitation leaching procedure (SPLP).1.2 This test method calls for the shaking of a known weight of mining waste with acidic extraction fluid of a specified composition as well as the separation of the liquid phase for analysis. The pH of the extraction fluid is to reflect the pH of acidic precipitation in the geographic region in which the waste being tested is to be disposed.Note 1Possible sources of information concerning the pH of the precipitation in the geographic region of interest include state and federal environmental agencies, state universities, libraries, etc. pH values given in USEPA Method 1312, that are 4.2 east of the Mississippi River and 5.0 west of the Mississippi River and are based on acid precipitation maps, are examples of values that can be used. If the pH of the laboratory water is less than the desired pH for the site, do not use this test method, use Test Method D 3987.1.3 This test method is intended to describe the procedure for performing single batch extractions only. It does not describe all types of sampling and analytical requirements that may be associated with its application.1.4 The values stated in SI units are to be regarded as the standard.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......

Standard Test Method for Shake Extraction of Mining Waste by the Synthetic Precipitation Leaching Procedure

ASTM D6234-98 通过合成沉淀漓滤过程对采矿废物的摇混提取的标准试验方法

1.1 This test method covers a procedure for the shake leaching of mining waste containing at least 80 % dry solids ( 20 % moisture) in order to generate a solution to be used to determine the inorganic constituents leached under the specified testing conditions, that conform to the synthetic precipitation leaching procedure (SPLP).1.2 This test method calls for the shaking of a known weight of mining waste with acidic extraction fluid of a specified composition as well as the separation of the liquid phase for analysis. The pH of the extraction fluid is to reflect the pH of acidic precipitation in the geographic region in which the waste being tested is to be disposed.Note 18212;Possible sources of information concerning the pH of the precipitation in the geographic region of interest include state and federal environmental agencies, state universities, libraries, etc. pH values given in USEPA Method 1312, that are 4.2 east of the Mississippi River and 5.0 west of the Mississippi River and are based on acid precipitation maps, are examples of values that can be used. If the pH of the laboratory water is less than the desired pH for the site, do not use this test method, use Test Method D 3987.1.3 This test method is intended to describe the procedure for performing single batch extractions only. It does not describe all types of sampling and analytical requirements that may be associated with its application.1.4 The values stated in SI units are to be regarded as the standard.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 establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Standard Test Method for Shake Extraction of Mining Waste by the Synthetic Precipitation Leaching Procedure

ASTM D6234-98(2002) 通过合成沉淀漓滤过程对采矿废物的摇混提取的标准试验方法

1.1 This test method covers a procedure for the shake leaching of mining waste containing at least 80 % dry solids ( 20 % moisture) in order to generate a solution to be used to determine the inorganic constituents leached under the specified testing conditions, that conform to the synthetic precipitation leaching procedure (SPLP).1.2 This test method calls for the shaking of a known weight of mining waste with acidic extraction fluid of a specified composition as well as the separation of the liquid phase for analysis. The pH of the extraction fluid is to reflect the pH of acidic precipitation in the geographic region in which the waste being tested is to be disposed.Note 18212;Possible sources of information concerning the pH of the precipitation in the geographic region of interest include state and federal environmental agencies, state universities, libraries, etc. pH values given in USEPA Method 1312, that are 4.2 east of the Mississippi River and 5.0 west of the Mississippi River and are based on acid precipitation maps, are examples of values that can be used. If the pH of the laboratory water is less than the desired pH for the site, do not use this test method, use Test Method D 3987.1.3 This test method is intended to describe the procedure for performing single batch extractions only. It does not describe all types of sampling and analytical requirements that may be associated with its application.1.4 The values stated in SI units are to be regarded as the standard.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 establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

Standard Test Method for Shake Extraction of Mining Waste by the Synthetic Precipitation Leaching Procedure

DIN 38406-26:1997 德国对水,废水和淤泥的标准检验方法.阳离子(E组).第26部分:石墨管式炉原子吸收光谱法(AAS)测定铊

German standard methods for the examination of water, waste water and sludge - Cations (group E) - Part 26: Determination of thallium by atomic absorption spectrometry (AAS) using electrothermal atomisation (E 26)

HG/T 20590-1997 硫酸、磷肥工业废水处理设计技术规定

1.0.1本规定主要规定了硫酸、磷肥工业废水处理流程、设备、中和药剂的选取与制备，以及废水处理站的设计。 1.0.2本规定适用于硫酸、磷肥工业新建、扩建、改建和技术改造项目的工业废水处理设计。 1.0.3对于扩建、改建和技术改造项目，应充分利用原有的建(构)筑物和处理装置等设施。 1.0.4硫酸、磷肥工业废水处理设计时，应与工艺专业密切配合，采用清洁生产的工艺过程，提高水的重复利用率，减少废水排放量及对水体的污染，节约水资源。 1.0.5本规定所列各种治理方法，都有一定的适用条件，设计时应根据废水量、水质，结合工程具体情况及国家、地方环保规定，经技术经济比较后确定。 1.0.6硫酸工业中产生的稀硫酸，磷肥工业中产生的氟硅酸，首先应考虑综合利用方案。综合利用后产生的废水、废液再进行处理，无法综合利用的稀硫酸及氟硅酸应进行处理，达到排放标准后再排放。 1.0.7废水处理工程应执行与主体工程同时设计、同时施工、同时投产的规定。 1.0.8硫酸、磷肥工业废水处理设计除应执行本规定外，尚应符合现行的有关国家标准、规范的规定。

Design technical regulation for the treatment of wastewater from sulphuric acid &phosphatic fertilizer industries

DIN 38415-3:1996 德国对水,废水和淤泥的统一检验方法.亚有机体试验方法(T组).第3部分:用umu试验测定水和废水化合物中遗传基因能力

This document describes a biological test method for the determination of the genotype potential of water components. As test organism the genetic changed bacterium salmonella typhimurium. The bacteria are treated with different concentrations of the test portion and the umu C-gen will be determined as a reaction to the induced gen toxin. As test result the dillution steps of the test portion are given, where a defined gen toxic effect can not be registered.#,,#

German standard methods for the examination of water, waste water and sludge - Sub-animal testing (group T) - Part 3: Determination of the genotype potential of water and waste water components with the umu-test (T 3)

ASTM D6009-96(2006) 废堆取样的标准指南

This guide is intended to provide guidance for sampling waste piles. It can be used to obtain samples for waste characterization related to use, treatment, or disposal; to monitor an active pile; to prepare for closure of the waste pile; or to investigate the contents of an abandoned pile. Techniques used to sample include both in-place evaluations of the pile and physically removing a sample. In-place evaluations include techniques such as remote sensing, on-site gas analysis, and permeability. Sampling strategy for waste piles is dependent on the following: 4.3.1 Project objectives including acceptable levels of error when making decisions; 4.3.2 Physical characteristics of the pile, such as its size and configuration, access to all parts of it, and the stability of the pile; 4.3.3 Process that generated the waste and the waste characteristics, such as hazardous chemical or physical properties, whether the waste consists of sludges, dry powders or granules, and the heterogeneity of the wastes; 4.3.4 History of the pile, including dates of generation, methods of handling and transport, and current management methods; 4.3.5 Regulatory considerations, such as regulatory classification and characterization data; 4.3.6 Limits and bias of sampling methods, including bias that may be introduced by waste heterogeneity, sampling design, and sampling equipment. It is recommended that this guide be used in conjunction with Guide D 4687, which addresses sampling design, quality assurance, general sampling considerations, preservation and containerization, cleaning equipment, packaging, and chain of custody. A case history of the investigation of a waste pile is included in Appendix X1.1.1 This guide provides guidance for obtaining representative samples from waste piles. Guidance is provided for site evaluation, sampling design, selection of equipment, and data interpretation.1.2 Waste piles include areas used primarily for waste storage or disposal, including above-grade dry land disposal units. This guide can be applied to sampling municipal waste piles.1.3 This guide addresses how the choice of sampling design and sampling methods depends on specific features of the pile.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 Guide for Sampling Waste Piles

ASTM D5839-96(2006) 能量发散X射线荧光光谱法分析危险废油中痕量元素的标准试验方法

The analysis of trace elements is often a regulatory and process specific requirement for facilities utilizing LHWF. With proper instrument standardization, set-up, and quality control, this test method provides the user an accurate, rapid, nondestructive method for trace element determinations.1.1 This test method applies to the determination of trace element concentrations by energy-dispersive X-ray fluorescence (EDXRF) spectrometry in typical liquid hazardous waste fuels (LHWF) used by industrial furnaces.1.2 This test method has been used successfully on numerous samples of LHWF that are mixtures of solvents, oils, paints, and pigments for the determination of the following elements: Ag, As, Ba, Cd, Cr, Hg, Ni, Pb, Sb, Se, and Tl.1.3 This test method also may be applicable to elements not listed above and to the analysis of trace metals in organic liquids other than those used as LHWF.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 Test Method for Trace Element Analysis of Hazardous Waste Fuel by Energy-Dispersive X-Ray Fluorescence Spectrometry

NF A05-107:1995 人工环境下低浓度污染性气体的腐蚀试验

Corrosion tests in artificial atmosphere at very low concentrations of polluting gas(es).

JIS K 0093:1995 在工业废水中多氯联苯的测定方法

Method for determination of polychlorinated biphenyl in industrial waste water

JIS K 0125:1995 工业水和废水中挥发性有机化合物的检测方法

この規格は，工業用水及び工場排水中の揮発性有機化合物のうち，ジクロロメタン，ジブロモクロロメタン，テトラクロロメタン(四塩化炭素)，トリクロロメタン(クロロホルム)，トリブロモメタン(プロモホルム)，プロモジクロロメタン，1,2ージクロロエタン，1, 1,1-トリクロロエタン，1,1,2-トリクロロエタン，1，1-ジクロロエテン(1, 1ージクロロエチレン), cis-1, 2ージクロロエテン(cis-1, 2ージクロロエチレン), trans-1, 2ージクロロエテン(trans-1,2-ジクロロエチレン)，テトラクロロエテン(テトラクロロエチレン)，トリクロロエテン(トリクロロエチレン)1 1,2ージクロロプロパン，1,3ージクロロー1ープロペン.1,4ージクロロべンゼン(pージクロロべンゼン)，ジメチルべンゼン(キシレン)，べンゼン及びメチルべンゼン(トルエン)の試験方法について規定する。

Testing methods for volatile organic compounds in industrial water and waste water