Name: ASTM D 1067 : 2011
Brand: ASTM
Price: 122.77 AUD

ASTM D 1067 : 2011

Superseded

View Superseded by

Standard Test Methods for Acidity or Alkalinity of Water

Available format(s)

Hardcopy , PDF

Superseded date

11-11-2014

Language(s)

English

Published date

01-04-2011

Publisher

American Society for Testing and Materials

1.1 These test methods cover the determination of acidity or alkalinity of all types of water. Three test methods are given as follows:

	Sections
Test Method A (Electrometric Titration)	7 to 15
Test Method B (Electrometric or Color-Change Titration)	16 to 24
Test Method C (Color-Change Titration After Hydrogen Peroxide Oxidation and Boiling)	25 to 33

1.2 In all of these test methods the hydrogen or hydroxyl ions present in water by virtue of the dissociation or hydrolysis of its solutes, or both, are neutralized by titration with standard alkali (acidity) or acid (alkalinity). Of the three procedures, Test Method A is the most precise and accurate. It is used to develop an electrometric titration curve (sometimes referred to as a pH curve), which defines the acidity or alkalinity of the sample and indicates inflection points and buffering capacity, if any. In addition, the acidity or alkalinity can be determined with respect to any pH of particular interest. The other two methods are used to determine acidity or alkalinity relative to a predesignated end point based on the change in color of an internal indicator or the equivalent end point measured by a pH meter. They are suitable for routine control purposes.

1.3 When titrating to a specific end point, the choice of end point will require a careful analysis of the titration curve, the effects of any anticipated changes in composition on the titration curve, knowledge of the intended uses or disposition of the water, and a knowledge of the characteristics of the process controls involved. While inflection points (rapid changes in pH) are usually preferred for accurate analysis of sample composition and obtaining the best precision, the use of an inflection point for process control may result in significant errors in chemical treatment or process control in some applications. When titrating to a selected end point dictated by practical considerations, (1) only a part of the actual neutralizing capacity of the water may be measured, or (2) this capacity may actually be exceeded in arriving at optimum acidity or alkalinity conditions.

1.4 A scope section is provided in each test method as a guide. It is the responsibility of the analyst to determine the acceptability of these test methods for each matrix.

1.5 Former Test Methods C (Color-Comparison Titration) and D (Color-Change Titration After Boiling) were discontinued. Refer to Appendix X4 for historical information.

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 use.

7.1 This test method is applicable to the determination of acidity or alkalinity of all waters that are free of constituents that interfere with electrometric pH measurements. It is used for the development of a titration curve that will define inflection points and indicate buffering capacity, if any. The acidity or alkalinity of the water or that relative to a particular pH is determined from the curve.

16.1 This test method covers the rapid, routine control measurement of acidity or alkalinity to predesignated end points of waters that contain no materials that buffer at the end point or other materials that interfere with the titration by reasons that may include color or precipitation.

25.1 This test method is intended specifically for mine drainage, surface streams receiving mine drainage, industrial waste waters containing waste acids and their salts, and similar waters bearing substantial amounts of ferrous iron or other polyvalent cations in a reduced state.

25.2 Because the oxidation and hydrolysis of ferrous iron generate acidity, a reliable measure of acidity or alkalinity is obtained only when complete oxidation is achieved and hydrolysis to ferric salts is completed (see Appendix X3). In many instances, the concentration of ferrous iron is such that a 2-min boiling period is not sufficient to assure complete oxidation. In this test method, hydrogen peroxide is added prior to boiling to accelerate the chemical reactions needed for equilibrium.

25.3 This test method may be used to determine approximate alkali requirements for neutralization and to assure comparability of results when both alkaline and acid flows are under consideration in mine drainage treatment.

Committee	D 19
DocumentType	Test Method
Pages	8
PublisherName	American Society for Testing and Materials
Status	Superseded
SupersededBy	ASTM D 1067 : 2016
Supersedes	ASTM D 1067 : 2006

ASTM D 1293 : 2018	Standard Test Methods for pH of Water
ASTM E 2169 : 2017	Standard Practice for Selecting Antimicrobial Pesticides for Use in Water-Miscible Metalworking Fluids
ASTM D 6469 : 2017	Standard Guide for Microbial Contamination in Fuels and Fuel Systems
ASTM E 1391 : 2003 : R2014	Standard Guide for Collection, Storage, Characterization, and Manipulation of Sediments for Toxicological Testing and for Selection of Samplers Used to Collect Benthic Invertebrates
ASTM D 8006 : 2016	Standard Guide for Sampling and Analysis of Residential and Commercial Water Supply Wells in Areas of Exploration and Production (E&P) Operations
ASTM D 5952 : 2008 : R2015	Standard Guide for the Inspection of Water Systems for Legionella and the Investigation of Possible Outbreaks of Legionellosis (Legionnaires' Disease or Pontiac Fever) (Withdrawn 2024)
ASTM D 5744 : 2018	Standard Test Method for Laboratory Weathering of Solid Materials Using a Humidity Cell
ASTM C 500/C500M : 2007 : R2019	Standard Test Methods for Asbestos-Cement Pipe (Withdrawn 2022)
ASTM D 3087 : 2017	Standard Test Method for Operating Performance of Anion-Exchange Materials for Strong Acid Removal
ASTM D 5091 : 1995 : R2014	Standard Guide for Water Analysis for Electrodialysis/Electrodialysis Reversal Applications (Withdrawn 2023)
ASTM D 1782 : 2017	Standard Test Methods for Operating Performance of Particulate Cation-Exchange Materials
ASTM E 1915 : 2013	Standard Test Methods for Analysis of Metal Bearing Ores and Related Materials for Carbon, Sulfur, and Acid-Base Characteristics
ASTM E 2275 : 2014	Standard Practice for Evaluating Water-Miscible Metalworking Fluid Bioresistance and Antimicrobial Pesticide Performance
ASTM D 4993 : 2008 : R2014	Standard Practice for Calculation and Adjustment of Silica (SiO<inf>2</inf>) Scaling for Reverse Osmosis (Withdrawn 2023)
ASTM D 3739 : 2019	Standard Practice for Calculation and Adjustment of the Langelier Saturation Index for Reverse Osmosis
ASTM D 2946 : 2001 : R2018	Standard Terminology for Asbestos and Asbestos–Cement Products (Withdrawn 2022)
ASTM D 7294 : 2013	Standard Guide for Collecting Treatment Process Design Data at a Contaminated Site—A Site Contaminated With Chemicals of Interest