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1、BS ISO 1952:2008 ICS 73.040; 75.160.10 NO COPYING WITHOUT BSI PERMISSION EXCEPT AS PERMITTED BY COPYRIGHT LAW BRITISH STANDARD Solid mineral fuels Determination of extractable metals in dilute hydrochloric acid Licensed Copy: London South Bank University, South Bank University, 16/11/2008 11:44, Unc
2、ontrolled Copy, (c) BSI This British Standard was published under the authority of the Standards Policy and Strategy Committee on 30 September 2008 BSI 2008 ISBN 978 0 580 57040 7 Amendments/corrigenda issued since publication DateComments BS ISO 1952:2008 National foreword This British Standard is
3、the UK implementation of ISO 1952:2008. The UK participation in its preparation was entrusted to Technical Committee PTI/16, Solid mineral fuels. A list of organizations represented on this committee can be obtained on request to its secretary. This publication does not purport to include all the ne
4、cessary provisions of a contract. Users are responsible for its correct application. Compliance with a British Standard cannot confer immunity from legal obligations. Licensed Copy: London South Bank University, South Bank University, 16/11/2008 11:44, Uncontrolled Copy, (c) BSI BS ISO 1952:2008 Ref
5、erence number ISO 1952:2008(E) ISO 2008 INTERNATIONAL STANDARD ISO 1952 Second edition 2008-09-01 Solid mineral fuels Determination of extractable metals in dilute hydrochloric acid Combustibles minraux solides Dtermination des mtaux extractibles dans lacide chlorhydrique dilu Licensed Copy: London
6、South Bank University, South Bank University, 16/11/2008 11:44, Uncontrolled Copy, (c) BSI BS ISO 1952:2008 ISO 1952:2008(E) PDF disclaimer This PDF file may contain embedded typefaces. In accordance with Adobes licensing policy, this file may be printed or viewed but shall not be edited unless the
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9、likely event that a problem relating to it is found, please inform the Central Secretariat at the address given below. COPYRIGHT PROTECTED DOCUMENT ISO 2008 All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any form or by any means, electro
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11、 Web www.iso.org Published in Switzerland ii ISO 2008 All rights reserved Licensed Copy: London South Bank University, South Bank University, 16/11/2008 11:44, Uncontrolled Copy, (c) BSI BS ISO 1952:2008 ISO 1952:2008(E) ISO 2008 All rights reserved iii Contents Page Foreword iv Introduction v 1 Sco
12、pe . 1 2 Normative references. 1 3 Principle. 1 4 Reagents and materials . 1 5 Apparatus 4 6 Preparation of the test sample 4 7 Procedure 4 8 Expression of results . 5 9 Precision 6 10 Test report . 6 Licensed Copy: London South Bank University, South Bank University, 16/11/2008 11:44, Uncontrolled
13、Copy, (c) BSI BS ISO 1952:2008 ISO 1952:2008(E) iv ISO 2008 All rights reserved Foreword ISO (the International Organization for Standardization) is a worldwide federation of national standards bodies (ISO member bodies). The work of preparing International Standards is normally carried out through
14、ISO technical committees. Each member body interested in a subject for which a technical committee has been established has the right to be represented on that committee. International organizations, governmental and non-governmental, in liaison with ISO, also take part in the work. ISO collaborates
15、 closely with the International Electrotechnical Commission (IEC) on all matters of electrotechnical standardization. International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2. The main task of technical committees is to prepare International Standards.
16、 Draft International Standards adopted by the technical committees are circulated to the member bodies for voting. Publication as an International Standard requires approval by at least 75 % of the member bodies casting a vote. Attention is drawn to the possibility that some of the elements of this
17、document may be the subject of patent rights. ISO shall not be held responsible for identifying any or all such patent rights. ISO 1952 was prepared by Technical Committee ISO/TC 27, Solid mineral fuels, Subcommittee SC 5, Methods of analysis. This second edition cancels and replaces the first editi
18、on (ISO 1952:1976), which has been technically revised. Licensed Copy: London South Bank University, South Bank University, 16/11/2008 11:44, Uncontrolled Copy, (c) BSI BS ISO 1952:2008 ISO 1952:2008(E) ISO 2008 All rights reserved v Introduction Sodium, potassium, calcium, iron and magnesium are co
19、mmonly present in solid mineral fuel. They can contribute significantly to coal-utilization problems, such as boiler-tube fouling and ash disposal; they also affect product quality and gaseous emissions from combustion processes. Research indicates that the amounts of alkaline and earth-alkaline met
20、als extractable with dilute hydrochloric acid are more closely related to the fouling/slagging properties of solid mineral fuel than are the total amounts of the metals. Licensed Copy: London South Bank University, South Bank University, 16/11/2008 11:44, Uncontrolled Copy, (c) BSI BS ISO 1952:2008
21、Licensed Copy: London South Bank University, South Bank University, 16/11/2008 11:44, Uncontrolled Copy, (c) BSI BS ISO 1952:2008 INTERNATIONAL STANDARD ISO 1952:2008(E) ISO 2008 All rights reserved 1 Solid mineral fuels Determination of extractable metals in dilute hydrochloric acid 1 Scope This In
22、ternational Standard describes the extraction from solid mineral fuels by dilute hydrochloric acid and determination of extractable sodium, potassium, calcium, iron and magnesium. 2 Normative references The following referenced documents are indispensable for the application of this document. For da
23、ted references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. ISO 3696, Water for analytical laboratory use Specification and test methods ISO 5068-2, Brown coals and lignites Determination of moisture conten
24、t Part 2: Indirect gravimetric method for moisture in the analysis sample ISO 5069-2, Brown coals and lignites Principles of sampling Part 2: Sample preparation for determination of moisture content and for general analysis ISO 5725-6:1994, Accuracy (trueness and precision) of measurement methods an
25、d results Part 6: Use in practice of accuracy values ISO 11722, Solid mineral fuels Hard coal Determination of moisture in the general analysis test sample by drying in nitrogen ISO 13909-4, Hard coal and coke Mechanical sampling Part 4: Coal Preparation of test samples 3 Principle A portion of the
26、sample is extracted with hot, dilute hydrochloric acid after wetting of the solid mineral fuel with alcohol. All forms of sodium, potassium, magnesium, calcium, iron that are exchangeable or extractable with the hydrochloric acid are extracted from the coal. After removal of the residual solid miner
27、al fuel by filtration, the concentrations of the elements in the filtrate are determined by atomic absorption spectrometry. The concentrations of the elements may also be determined by ICP-OES if the instrument has been validated for the quantification in an appropriate manner. 4 Reagents and materi
28、als Use analytical reagent grade chemicals. Other grades can be used, provided it is documented that the reagent is of sufficiently high purity to permit its use without adversely affecting the accuracy of the determination. Licensed Copy: London South Bank University, South Bank University, 16/11/2
29、008 11:44, Uncontrolled Copy, (c) BSI BS ISO 1952:2008 ISO 1952:2008(E) 2 ISO 2008 All rights reserved 4.1 Water, high-purity deionized water as defined in ISO 3696, or as defined by the equivalent national standard. 4.2 Ethanol. 4.3 Hydrochloric acid (HCl). 4.4 Hydrochloric acid, concentrated, 20 =
30、 1,19 g/ml. 4.5 Hydrochloric acid solution, prepared by mixing 1 part concentrated hydrochloric acid (4.4) with 1 part deionized water (4.1). DANGER The addition of the strong acid, HCl, to water liberates a significant amount of heat and can cause a violent reaction. 4.6 Nitric acid (HNO3), concent
31、rated, 20 = 1,42 g/ml. 4.7 Lanthanum oxide (La2O3). 4.8 Lanthanum solution. Dissolve 23,4 g of La2O3 (4.7) in 350 mL of deionized water (4.1). Slowly add 50 mL of concentrated nitric acid. Stir until solution is completely mixed, transfer to a 1 l volumetric flask, dilute to the mark with water. DAN
32、GER The addition of the strong acid, HNO3, to water liberates a significant amount of heat and can cause a violent reaction. NOTE The lanthanum solution is used as an ionization suppressant during calcium determination. It is possible to use other commonly used ionization suppressants, e.g. cesium,
33、as a alternative. 4.9 Magnesium perchlorate, anhydrous, 2,0 mm +0,7 mm, used as a desiccant. DANGER Regeneration of magnesium perchlorate by oven drying should not be attempted because of the risk of explosion. Magnesium perchlorate is a strong oxidant, and should be kept away from organic materials
34、 such as oils, greases and organic solvents. 4.10 Stock solutions 4.10.1 Sodium chloride (NaCl). 4.10.2 Sodium solution, 1 000 mg/L. Dissolve 2,542 g of sodium chloride (4.10.1) (previously dried at 110 C for 1 h) in 200 mL of deionized water (4.1), stir until solution is completely mixed, transfer
35、to a 1 l volumetric flask, dilute to the mark with water. 4.10.3 Potassium chloride (KCl). 4.10.4 Potassium solution, 1 000 mg/L. Dissolve 1,907 g of potassium chloride (4.10.3) (previously dried at 110 C for 1 h) in 200 ml of water (4.1), transfer to a 1 l volumetric flask, dilute to the mark with
36、water. 4.10.5 Calcium carbonate (CaCO3). 4.10.6 Calcium carbonate solution, 1 000 mg/L. Dissolve 2,497 g of calcium carbonate (4.10.5) (previously dried at 110 C for 1 h) in a solution containing 10 ml of concentrated hydrochloric acid (4.4) and 200 ml of deionized water (4.1), stir until solution i
37、s Licensed Copy: London South Bank University, South Bank University, 16/11/2008 11:44, Uncontrolled Copy, (c) BSI BS ISO 1952:2008 ISO 1952:2008(E) ISO 2008 All rights reserved 3 completely mixed. Bring to a gentle boil to remove excess carbon dioxide. Cool the solution, transfer to a 1 l volumetri
38、c flask, dilute to the mark with water. 4.10.7 Magnesium oxide. 4.10.8 Magnesium solution, 1 000 mg/L. Place 1,658 g of magnesium oxide (4.10.7) (previously heated at 1 000 C for 1 h) in solution containing 10 ml of concentrated hydrochloric acid (4.4) and 200 ml of deionized water (4.1), stir until
39、 solution is completely mixed. Warm until dissolved, cool, transfer to a 1 l volumetric flask, dilute to the mark with water. 4.10.9 Iron, minimum purity 99,8 % Fe. 4.10.10 Iron solution, 1 000 mg/L. Place 1,000 g of pure iron (4.10.9) in a solution containing 20 ml of concentrated hydrochloric acid
40、 (4.4) and 20 ml of deionized water (4.1), stir until solution is completely mixed. Heat to boiling and gently simmer until dissolved. Cool, transfer to a 1 l volumetric flask, dilute to the mark with deionized water. 4.10.11 Commercial stock solutions, optional, certified stock solutions with a con
41、centration of the ion of interest of 1 000 mg/l that can be used as an alternative to preparing stock solutions. 4.11 Calibration solutions, prepared with the volumes of reagents given in Table 1. Prepare calibration solution A, by adding 40 ml of lanthanum solution (4.8) and 32 ml of hydrochloric a
42、cid solution (4.5) to a 1 l volumetric flask. Add 1 ml of each stock solution and stir until the solution is completely mixed. Dilute to the mark with water. Prepare calibration solutions B, C, D, E and the calibration BLANK in the same way as calibration solution A using the volumes of each stock s
43、olution shown in Table 1. Additional calibration solutions within the range of those described here may be prepared in the same manner, in order to increase the number of points on the calibration graph. This can be necessary because of the wide ranges of analyte concentrations likely to be encounte
44、red, and also because of the variations in spectrometer responses. The calibration solutions should be stored in screw-top polyethylene bottles. They should be discarded after three months. Table 1 Volumes of reagents for calibration solutions Calibration solution Concentration of calibration soluti
45、on mg/l Volume of stock solution ml Volume of lanthanum solution ml Volume of hydrochloric acid solution ml A 1 1 40 32 B 2 2 40 32 C 3 3 40 32 D 4 4 40 32 E 5 5 40 32 BLANK 0 0 40 32 4.12 Filter paper, medium-textured filter paper. Licensed Copy: London South Bank University, South Bank University,
46、 16/11/2008 11:44, Uncontrolled Copy, (c) BSI BS ISO 1952:2008 ISO 1952:2008(E) 4 ISO 2008 All rights reserved 5 Apparatus 5.1 Dispensers for reagents, with the following capacities: 5.1.1 for ethanol 5 ml, graduated. 5.1.2 for hydrochloric acid 10 ml, graduated to fit on top of the hydrochloric aci
47、d container. 5.1.3 for lanthanum solution 10 ml. 5.2 Hotplate. 5.3 Atomic absorption spectrometer. 5.4 Desiccator, with desiccant. 5.5 Plastic bottles, polyethylene or polypropylene with screw caps, giving an airtight seal, for storage of all solutions. Condition the bottles before use, by filling w
48、ith nitric acid (4.6) diluted 1 + 9. Allow to stand for at least 48 h. Rinse the bottles thoroughly with water. 5.6 Glassware, 250 ml beaker and 250 ml volumetric flask. 6 Preparation of the test sample The sample shall be the general test sample prepared in accordance with ISO 13909-4 or ISO 5069-2
49、. 7 Procedure 7.1 Preparation of test portion Weigh approximately 1,5 g of the test sample to the nearest 2 mg into a 250 mL glass beaker. Concurrently, determine moisture in accordance with ISO 5068-2 or ISO 11722. 7.2 Preparation of test solution Add 4 ml of ethanol to a glass beaker. Make a paste of the solid mineral fuel, stirring with a glass rod until the sample is thoroughly wetted. Do not remove the stirring rod. Add 50 ml of deionized water to the beaker. Add 8 ml of the hydrochloric acid so
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