Z23 工业废水、污染物分析方法 标准查询与下载



共找到 135 条与 工业废水、污染物分析方法 相关的标准,共 9

本标准规定了砷钼蓝分光光度法测定煤矿水中砷含量的方法。 本标准适用于煤矿水中砷含量的测定。当试验水样取用量为100ml时,其浓度范围为0.05~0.25mg/L。

Determination of arsenic in coal mine water

ICS
13.060.30
CCS
Z23
发布
2006-01-17
实施
2006-07-01

本标准规定了用离子选择电极法测定煤矿水中氟离子含量和方法。 本标准适用于煤矿水中氟离子的测定。测定氟离子浓度的范围为0.05~2.5mg/L。

Determination of fluorine ion in coal mine water

ICS
13.060.30
CCS
Z23
发布
2006-01-17
实施
2006-07-01

本标准规定了邻菲啰啉比色法测定煤矿水中二价铁离子和三价铁离子的含量。 本标准适用于煤矿水中二价铁离子和三价铁离子含量的测定。当取用试验水样25ml时,其二价铁离子和三价铁离子浓度范围为0.25~8.00mg/L。

Determination of iron ion in coal mine water

ICS
13.060.30
CCS
Z23
发布
2006-01-17
实施
2006-07-01

This Standard establishes requirements for FOG (Fats, Oils, and Greases) disposal systems. FOG disposal systems shall be designed to (a) remove FOG from effluent, (b) retain separated FOG, (c) internally dispose retained FOG by means and methods of mass and volume reduction as required by para 4.3.2. The use of alternate materials or methods are permitted, provided the proposed material and method complies with the performance requirements and intent of this Standard.

FOG (Fats, Oils, and Greases) Disposal Systems

ICS
13.030.30
CCS
Z23
发布
2006
实施

Reference blocks fabricated to this practice will exhibit specific area-amplitude and distance-amplitude relationships only with an immersion test at 5 MHz using the search unit, test instrument, and test parameters described in this practice. Comparison tests at other frequencies or with uncalibrated test systems will not necessarily give the same relationships shown in this practice. Note 28212;The 1964 and prior issues of this practice required a test frequency of 15 MHz. Blocks conforming to earlier issues of this practice may not produce ultrasonic responses that conform to this issue. See Section 13 regarding provision for recertification or correction curves and tables. Although the primary ultrasonic evaluation of blocks is performed at a specified frequency, the blocks may be used to standardize ultrasonic tests at any frequency and with any pulse-echo ultrasonic test system. Establishment of distance-amplitude and area-amplitude characteristics is necessary for each application. This use may be inappropriate for other materials and curved surfaces without special compensation. Also see (3) for cautions regarding use of standard blocks for test standardization.1.1 This practice covers a procedure for fabricating aluminum alloy ultrasonic standard reference blocks that can be used for checking performance of ultrasonic testing equipment and for standardization and control of ultrasonic tests of aluminum alloy products using pulsed longitudinal waves introduced into test material either by the direct-contact method or by the immersion method. A recommended procedure for checking blocks is described and calibration data for a number of reference blocks are tabulated. Statements concerning procedures are provided without a discussion of the technical background for the preference. The necessary technical background can be found in Refs. (1-15).Note 18212;Practice E 428 and Guide E 1158 also describe procedures for selecting material, fabricating blocks, and checking response. Unlike this practice, there is no requirement for evaluation relative to a specified standard target.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 Fabricating and Checking Aluminum Alloy Ultrasonic Standard Reference Blocks

ICS
77.040.01 (Testing of metals in general); 77.120.1
CCS
Z23
发布
2006
实施

1.1 This practice covers procedures for performing visual inspections of asbestos response actions to:1.1.1 Establish the extent of the required work before it begins;1.1.2 Determine the progress and quality of the work and evaluate the completeness of the response action; and1.1.3 Evaluate the cleanliness of the work area prior to final air testing for clearance (if performed), and subsequent to dismantling of critical barriers.1.2 This practice can be used on an abatement project, or for operations and maintenance (OM) work, performed by the building owner's staff. It can also be used in conjunction with contract documents between the building owner and other parties involved in an abatement project. Note 1Standard contract documents (such as AIA and EJCDC documents) define contractual relationships and responsibilities for projects within the construction industry. Asbestos abatement projects differ from traditional construction projects in the manner of their design and execution, as well as in the type and level of oversight required to substantiate their successful completion. Non-traditional responsibilities are given to the building owner, project designer, and abatement contractor by this practice. Furthermore, responsibilities related to project oversight, inspections, and approvals are placed upon an additional non-traditional representative of the building owner; the project monitor, as defined by this practice. All parties are cautioned that the subject authorities and corresponding responsibilities be understood, mutually agreed upon, and correspondingly addressed with appropriate modifications, if necessary, to the contract documents for a specific project.1.3 This practice provides the following information:1.3.1 The objectives of the visual inspection process;1.3.2 The responsibilities and qualifications of the individuals involved in the visual inspections;1.3.3 The schedule of visual inspection activities during an abatement project and OM work;1.3.4 The inspection procedures for the various types of abatement work and OM tasks; and1.3.5 The criteria for certifying work as complete on the basis of the visual inspections.1.4 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.1.5 Warning-Asbestos fibers are acknowledged carcinogens. Breathing asbestos fibers can result in disease of the lungs including asbestosis, lung cancer, and mesothelioma. Precautions in this standard practice should be taken to avoid creating and breathing airborne asbestos particles from materials known or suspected to contain asbestos. See for regulatory requirements addressing asbestos.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 safety statements, see 12.2.

Standard Practice for Visual Inspection of Asbestos Abatement Projects

ICS
13.030.30 (Special wastes)
CCS
Z23
发布
2005
实施

1.1 This practice covers procedures for performing visual inspections of asbestos response actions to:1.1.1 Establish the extent of the required work before it begins;1.1.2 Determine the progress and quality of the work and evaluate the completeness of the response action; and1.1.3 Evaluate the cleanliness of the work area prior to final air testing for clearance (if performed), and subsequent to dismantling of critical barriers.1.2 This practice can be used on an abatement project, or for operations and maintenance (OM) work, performed by the building owner's staff. It can also be used in conjunction with contract documents between the building owner and other parties involved in an abatement project. Note 18212;Standard contract documents (such as AIA and EJCDC documents) define contractual relationships and responsibilities for projects within the construction industry. Asbestos abatement projects differ from traditional construction projects in the manner of their design and execution, as well as in the type and level of oversight required to substantiate their successful completion. Non-traditional responsibilities are given to the building owner, project designer, and abatement contractor by this practice. Furthermore, responsibilities related to project oversight, inspections, and approvals are placed upon an additional non-traditional representative of the building owner; the project monitor, as defined by this practice. All parties are cautioned that the subject authorities and corresponding responsibilities be understood, mutually agreed upon, and correspondingly addressed with appropriate modifications, if necessary, to the contract documents for a specific project.1.3 This practice provides the following information:1.3.1 The objectives of the visual inspection process;1.3.2 The responsibilities and qualifications of the individuals involved in the visual inspections;1.3.3 The schedule of visual inspection activities during an abatement project and OM work;1.3.4 The inspection procedures for the various types of abatement work and OM tasks; and1.3.5 The criteria for certifying work as complete on the basis of the visual inspections.1.4 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered 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. For specific safety statements, see 12.2.

Standard Practice for Visual Inspection of Asbestos Abatement Projects

ICS
13.030.30 (Special wastes)
CCS
Z23
发布
2005
实施

The method specified in this standard serves to determine arsenic in water in concentrations by mass ranging from 2 μg/I to 100 μg/I if a volume of 20 μI is injected. The limit of determination is often lower and shall be determined in each laboratory by calibration experiments. The method is also suitable for higher concentrations if the sample is diluted or a smaller volume of the test solution is taken. Arsenic in sludge and sediments can be determined using suitable digestion methods (see DIN EN 13346).

German standard methods for the examination of water, waste water and sludge - Anions (group D) - Part 35: Determination of arsenic - Method by graphite furnace atomic absorption spectrometry (GF-AAS) (D 35)

ICS
13.060.50
CCS
Z23
发布
2004-09
实施

This document gives indication for dealing of the combined incineration treatment of sludge and household waste. This document is applicable to sludges described in the scope of CEN/TC 308 i.e. specifically derived from : ? storm water handling ; ? night soil ; ? urban wastewater collecting systems ; ? urban wastewater treatment plants ; ? treating industrial wastewater similar to urban wastewater (as defined in Directive 91/271/EEC ) ; but excluding hazardous sludges from industry. Annex A gives information on various systems to input sludge into a household waste incineration plant.

Characterisation of sludges - Good practice for combined incineration of sludges and household wastes

ICS
13.030.20;13.030.40
CCS
Z23
发布
2004-08
实施

This document describes good practice for the incineration of sludges with and without grease and screenings. This document is applicable for sludges described in the scope of CEN/TC 308 specifically derived from : ? night soil ; ? urban wastewater collecting systems ; ? urban wastewater treatment plants ; ? treatment of industrial wastewater similar to urban wastewater (as defined in Directive 91/271/EC) ; but excluding hazardous sludges from industry. This document is not applicable to co-incineration of sludge and other wastes, (either urban or hazardous) (see CEN/TR 13768) and to the use of sludge in cement kilns. Annex A gives tables of data for different typical parameters for sludge, furnace and ash.

Characterisation of sludges - Good practice for sludges incineration with and without grease and screenings

ICS
13.030.20
CCS
Z23
发布
2004-08
实施

本标准规定了高氯废水化学需氧量的测定方法,本方法适用于油气田和炼化企业氯离子含量高达几万至十几万毫克每升高氯废水化学需氧量(COD)的测定。方法的最低检出限0.20mg/L,测定上限62.5mg/L。

High-chlorine wastewater-Determination of chemical oxygen demand-Potassium iodide alkaline Permanganate method

ICS
13.060.01
CCS
Z23
发布
2003-09-30
实施
2004-01-01

This document describes a biological test method for the determination of the non-acute-poisonous efffect of waste water to fish eggs by dilution limits. ...

German standard methods for the examination of water, waste water and sludge - Subanimal testing (group T) - Part 6: Toxicity to fish; Determination of the non-acute-poisonous effect of waste water to fish eggs by dilution limits (T 6)

ICS
13.060.70
CCS
Z23
发布
2003-08
实施

This Technical Report gives indication on sludge utilisation within reclamation programmes of disturbed land. This Technical Report is applicable to sludges described in the scope of CEN/TC 308; for example: - storm water handling; - urban wastewater collecting systems; - urban wastewater treatment plants; - treating industrial wastewater similar to urban wastewater (as defined in Directive 91/271/EEC [18]); - water supply treatment plants; - water distribution systems; - sludge derived materials; - but excluding hazardous sludges from industry.

Characterization of sludges. Good practice for sludge utilisation in land reclamation

ICS
13.030.20;13.080.99
CCS
Z23
发布
2003-07-25
实施
2003-07-25

1.1 This practice covers procedures for performing visual inspections of asbestos response actions to:1.1.1 Establish the extent of the required work before it begins;1.1.2 Determine the progress and quality of the work and evaluate the completeness of the response action; and1.1.3 Evaluate the cleanliness of the work area prior to final air testing for clearance (if performed), and subsequent to dismantling of critical barriers.1.2 This practice can be used on an abatement project, or for operations and maintenance (OM) work, performed by the building owner's staff. It can also be used in conjunction with contract documents between the building owner and other parties involved in an abatement project. Note 18212;Standard contract documents (such as AIA and EJCDC documents) define contractual relationships and responsibilities for projects within the construction industry. Asbestos abatement projects differ from traditional construction projects in the manner of their design and execution, as well as in the type and level of oversight required to substantiate their successful completion. Non-traditional responsibilities are given to the building owner, project designer, and abatement contractor by this practice. Furthermore, responsibilities related to project oversight, inspections, and approvals are placed upon an additional non-traditional representative of the building owner; the project monitor, as defined by this practice. All parties are cautioned that the subject authorities and corresponding responsibilities be understood, mutually agreed upon, and correspondingly addressed with appropriate modifications, if necessary, to the contract documents for a specific project.1.3 This practice provides the following information:1.3.1 The objectives of the visual inspection process;1.3.2 The responsibilities and qualifications of the individuals involved in the visual inspections;1.3.3 The schedule of visual inspection activities during an abatement project and OM work;1.3.4 The inspection procedures for the various types of abatement work and OM tasks; and1.3.5 The criteria for certifying work as complete on the basis of the visual inspections.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 specific safety statements, see 12.2.

Standard Practice for Visual Inspection of Asbestos Abatement Projects

ICS
13.030.30 (Special wastes)
CCS
Z23
发布
2003
实施

The document describes four chemical methods for the determination of cyanide in water in a concentration range from 0,05 mg/l to 10 mg/l. The parameters total cyanide and easily released cyanide are determined each by chromatography of ions and by potentiometric titration.#,,#

German standard methods for examination of water, waste water and sludge - Anions (group D) - Part 7: Determination of cyanides in low polluted water by liquid chromatography of ions or potentiometric titration (D 7)

ICS
13.060.50
CCS
Z23
发布
2002-04
实施

The document specifies two chemical methods. The first method is applicable to the determination of the mass concentration of calcium in ground water, surface water and drinking water in mass range from 2 mg/l to 100 mg/l (accordingly 0,05 mmol/l to 2,5 mmol/l). A higher calcium range the sample shall be diluted accordingly. The method is applicable to waste water, too, if there are no interfering concentrations of heavy metals. The second method is applicable to the determination of the sum of the concentration of calcium and magnesium in ground water, surface water and drinking water with concentrations of calcium and magnesium higher than 0,05 mmol/l. Sea water and water with comparable high salt contents as well as waste water shall not be examined with this method. In this case DIN EN ISO 7980 (atomic absorption spectrometric method) is suitable, for instance.

German standard methods for the examination of water, waste water and sludge - Cations (group E) - Part 3: Determination of calcium and magnesium, complexometric method (E 3)

ICS
13.060.50
CCS
Z23
发布
2002-03
实施

The document specifies a chemical method for the determination of 15 selected polycyclic aromatic hydrocarbons (PAH) in sludge and sediment with mass fraction w = 0,05 mg per kg dry solids m. This method can be used for determination of PAH, which not mentioned in the document, provided that the correctness is covered. Two methods for the preparation of sludge and sediment are described. By method A the original sample and by method B the dried sample is extracted. Afterwards the PAH are separated by HPLC and identified and quantified by fluorescence detection.#,,#

German standard methods for the examination of water, waste water and sludge - Sludge and sediments (group S) - Part 23: Determination of 15 polycyclic aromatic hydrocarbons (PAH) by high performance liquid chromatography (HPLC) and fluorescence detection

ICS
13.060.50
CCS
Z23
发布
2002-02
实施

1.1 This practice covers procedures for performing visual inspections of asbestos response actions to:1.1.1 Establish the extent of the required work before it begins;1.1.2 Determine the progress and quality of the work and evaluate the completeness of the response action; and1.1.3 Evaluate the cleanliness of the work area prior to final air testing for clearance (if performed), and subsequent to dismantling of critical barriers.1.2 This practice can be used on an abatement project, or for operations and maintenance (OM) work, performed by the building owner's staff. It can also be used in conjunction with contract documents between the building owner and other parties involved in an abatement project. Note 18212;Standard contract documents (such as AIA and EJCDC documents) define contractual relationships and responsibilities for projects within the construction industry. Asbestos abatement projects differ from traditional construction projects in the manner of their design and execution, as well as in the type and level of oversight required to substantiate their successful completion. Non-traditional responsibilities are given to the building owner, project designer, and abatement contractor by this practice. Furthermore, responsibilities related to project oversight, inspections, and approvals are placed upon an additional non-traditional representative of the building owner; the project inspector, as defined by this practice. All parties are cautioned that the subject authorities and corresponding responsibilities be understood, mutually agreed upon, and correspondingly addressed with appropriate modifications, if necessary, to the contract documents for a specific project.1.3 This practice provides the following information:1.3.1 The objectives of the visual inspection process;1.3.2 The responsibilities and qualifications of the individuals involved in the visual inspections;1.3.3 The schedule of visual inspection activities during an abatement project and OM work;1.3.4 The inspection procedures for the various types of abatement work and OM tasks; and1.3.5 The criteria for certifying work as complete on the basis of the visual inspections.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 specific safety statements, see 12.2.

Standard Practice for Visual Inspection of Asbestos Abatement Projects

ICS
13.030.30 (Special wastes)
CCS
Z23
发布
2002
实施

本方法适用于氯离子含量小于20000mg/L的高氯废水中化学需氧量(COD)的测定。方法检出限为30mg/L。适用于油田、沿海练油厂、油库、氯碱厂、废水深海排放等废水中COD的测定。

High-chlorine wastewater.Determination of chemical oxygen demand.Chlorine emendation method

ICS
13.060.01
CCS
Z23
发布
2001-09-11
实施
2001-12-01

The document specifies procedures for the determination of the loss on ignition of dry matter sludges after the dry residues of the sludge have been determined in accordance with prEN 12880:2000 (dry residue and water content).

Characterization of sludges - Determination of the loss on ignition of dry mass; German version EN 12879:2000

ICS
13.030.20
CCS
Z23
发布
2001-02
实施



Copyright ©2007-2022 ANTPEDIA, All Rights Reserved
京ICP备07018254号 京公网安备1101085018 电信与信息服务业务经营许可证:京ICP证110310号