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YS/T 667.4-2009: The testing methods for chemical alumina. Part 4: Determining concentration of arsenic and mercury in 4A zeolite by HG-ICP-AES
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The testing methods for chemical alumina. Part 4: Determining concentration of arsenic and mercury in 4A zeolite by HG-ICP-AES
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YS/T 667.4-2009
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Basic data | Standard ID | YS/T 667.4-2009 (YS/T667.4-2009) | | Description (Translated English) | The testing methods for chemical alumina. Part 4: Determining concentration of arsenic and mercury in 4A zeolite by HG-ICP-AES | | Sector / Industry | Nonferrous Metallurgy Industry Standard (Recommended) | | Classification of Chinese Standard | H30 | | Classification of International Standard | 71.100.10 | | Word Count Estimation | 7,794 | | Date of Issue | 2009-12-04 | | Date of Implementation | 2010-06-01 | | Regulation (derived from) | MIIT [2009] No. 66 | | Issuing agency(ies) | Ministry of Industry and Information Technology | | Summary | This standard specifies the 4A zeolite arsenic, mercury method. This standard applies to 4A zeolite arsenic, mercury determination. Measuring range: Arsenic 5 �� 10-5% ~ 5 �� 10-3%, mercury 1 �� 10-5% ~ 5 �� 10-3%. | YS/T 667.4-2009: The testing methods for chemical alumina. Part 4: Determining concentration of arsenic and mercury in 4A zeolite by HG-ICP-AES
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The testing methods for chemical alumina.Part 4. Determining concentration of arsenic and mercury in 4A zeolite by HG-ICP-AES
ICS
H30
People's Republic of China Nonferrous Metals Industry Standard
Chemical alumina chemical analysis methods
Part 4 Determination of 4A Zeolite arsenic and mercury content
Hydride Generation - inductively coupled plasma emission spectrometry
Posted 2009-12-04
2010-06-01 implementation
Ministry of Industry and Information Technology of the People's Republic of China released
Foreword
YS/T 667 "Chemical alumina chemical analysis methods," is divided into four parts.
--- Part 1 emits light with aluminum hydroxide filler and quasi boehmite of cadmium, chromium, vanadium content - Inductively coupled plasma
Spectroscopy;
--- Part 2 generating filler aluminum hydroxide and quasi boehmite arsenic, mercury, lead content was measured hydride - Inductively Coupled
Plasma emission spectrometry;
--- Part 3 4A zeolite cadmium, chromium, vanadium content - Inductively coupled plasma atomic emission spectrometry;
--- Part 4 Determination of 4A Zeolite hydride arsenic, mercury content generation - inductively coupled plasma emission spectrometry.
This is Part 4.
Appendix A of this section is an informative annex.
The non-ferrous metal part by the National Standardization Technical Committee and centralized.
Drafting this Part. Aluminum Corporation of China Shandong Branch, China Nonferrous Metals Industry Standards and Metrology Institute for Quality.
The main drafters of this section. Zhang Xinyu, Yun-Xia Wang, Chen Jianli.
This part certifier. Liyue Ping, Zhaogui Fen.
Chemical alumina chemical analysis methods
Part 4 Determination of 4A Zeolite arsenic and mercury content
Hydride Generation - inductively coupled plasma emission spectrometry
1 Scope
YS/T of the provisions of the section 667 determination 4A zeolite arsenic, mercury content.
This section applies to arsenic, mercury determination 4A zeolite. Measuring range. Arsenic 5 × 10-5% ~ 5 × 10-3%; mercury 1 × 10-5% ~
5 × 10-3%.
2 principle of the method
Sample is dissolved in hydrochloric acid, at a certain acidity, measured elements in the hydride generator enriched through hydrogenation. Then import
Argon plasma excitation light source, spectral measurement. To choose effective complexing agent to mask the influence of matrix interference and other elements on the determination.
3 Reagents
Unless otherwise indicated in the analysis using only deionized water or equivalent purity.
3.1 hydrochloric acid 1 + 1 (excellent pure by sub-boiling second distillation).
3.2 arsenic standard solution. This standard stock solution (1mg/mL) provided by the National Research Center. When using the above standard solution
(3.1) was diluted 100-fold with hydrochloric acid, diluted standard solution 1mL containing 10μg arsenic.
3.3 mercury standard solution. This standard stock solution (1mg/mL) provided by the National Research Center. When using the above standard solution
(3.1) was diluted 100-fold with hydrochloric acid, diluted standard solution 1mL containing 10μg mercury.
3.4 mixed standard solution. accurate Pipette respectively 10.00mL arsenic standard solution (3.2), 10.00mL mercury standard solution (3.3) to
100mL volumetric flask, add 20mL of hydrochloric acid (3.1), and then diluted to the mark with secondary deionized water, and mix. This mixed standard solution of arsenic,
Elemental mercury concentration was 1μg/mL.
3.5 aluminum matrix solution. Weigh 13.2350g pure aluminum ( > 99.999%) in the beaker, 250mL of hydrochloric acid (3.1), to a low-temperature heating
Dissolve completely. Transferred to 500mL volumetric flask, cooled to room temperature, diluted with deionized water to a secondary volume, and mix. This oxygen-containing solution 1L
Aluminum 50g.
3.6 sodium base solution. Weigh 5.08g spectroscopically pure sodium chloride (pre-ignition 1h at 500 ℃ muffle furnace and cooled to room temperature) in a beaker,
Deionized water was added 30mL dish cover sheet, after a hot plate until the sample is completely dissolved in, transferred to 100mL volumetric flask, cool to room temperature,
In secondary diluted with deionized water to the mark, 1L solution containing 20g sodium.
3.7 10g/L potassium iodide -10g/L ascorbic acid and 50g/L thiourea mixed solution. Weigh 1g of potassium iodide, 1g 5g ascorbic acid and sulfur
Urea dissolved in 100mL of water, shake well.
3.8 sodium borohydride solution. Weigh 1.5g of potassium borohydride in 100mL beaker, add 1 to 2 of solid sodium hydroxide, was added 100mL
Dissolved in water. This solution 1L sodium boron hydride 15g.
3.9 high purity argon ( > 99.999%).
4 Instrument
Full Spectrum Direct Reading plasma emission spectrometer; hydride generator.
5 Sample
Samples at 105 ℃ ± 5 ℃ oven baking 1h. Placed in a desiccator, cooled to room temperature, and immediately weighed.
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