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HJ 850-2017: Water quality - Determination of mesotrione - High performance liquid chromatography
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Water quality - Determination of mesotrione - High performance liquid chromatography
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HJ 850-2017
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Basic data | Standard ID | HJ 850-2017 (HJ850-2017) | | Description (Translated English) | Water quality - Determination of mesotrione - High performance liquid chromatography | | Sector / Industry | Environmental Protection Industry Standard | | Classification of Chinese Standard | Z16 | | Word Count Estimation | 9,944 | | Date of Issue | 2017-08-28 | | Date of Implementation | 2017-11-01 | | Regulation (derived from) | MEP Notice No. 41 | | Issuing agency(ies) | Ministry of Ecology and Environment | HJ 850-2017: Water quality - Determination of mesotrione - High performance liquid chromatography
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(Water quality - Determination of mesotrione - Liquid chromatography)
National Environmental Protection Standard of the People 's Republic of China
Water quality - Determination of mesotrione - Liquid chromatography
Water quality - Determination of mesotrione -
High performance liquid chromatography
2017-08-28 released
2017-11-01 implementation
Issued by the Ministry of Environmental Protection
i directory
Preface ..ii
1 Scope of application
2 normative reference documents
3 Principle of the method
4 interference and elimination
5 reagents and materials 1
6 instruments and equipment 2
7 Sample 2
8 Analysis steps
The results are calculated and expressed
10 precision and accuracy
Quality assurance and quality control
12 Waste treatment
Foreword
To implement the "Environmental Protection Law of the People's Republic of China" and "Water Pollution Prevention Law of the People's Republic of China" to protect the environment and protect the human body
Health, regulate the determination of salt in the water method, the development of this standard.
This standard specifies the liquid chromatography for the determination of mesotrione in water.
This standard is the first release.
This standard is organized by the Environmental Monitoring Department of the Ministry of Environmental Protection and the Department of Science and Technology Standards.
The main drafting unit of this standard. Qingdao Environmental Monitoring Center Station and China Ocean University.
The main verification unit of this standard. Ministry of Agriculture, agricultural product quality supervision and inspection test center (Qingdao), Shandong Province Environmental Monitoring Center Station,
Jinan City Environmental Monitoring Center Station, Tai'an City Environmental Protection Monitoring Station, Liaoning North Environmental Testing Technology Co., Ltd. and Qingdao in a monitoring limited
the company.
The environmental protection department of this standard approved on August 28,.2017.
This standard has been implemented since November 1,.2017.
This standard is explained by the Ministry of Environmental Protection.
Determination of water quality of mesotrione by liquid chromatography
Warning. Nitraquinone has a certain toxicity, the standard solution should be prepared in the ventilation cabinet operation, the operation should be in accordance with the provisions
Wear protective equipment to avoid contact with skin and clothing.
1 Scope of application
This standard specifies the liquid chromatography for the determination of mesotrione in water.
This standard is applicable to the determination of mesohydrate in surface water, groundwater, domestic sewage and industrial wastewater.
When the injection volume is 20 μl, the detection limit is 0.01 mg/L and the lower limit is 0.04 mg/L.
2 normative reference documents
The contents of this standard refer to the following documents or their terms. Those who do not specify the date of the reference file, the effective version of the appropriate
For this standard.
Technical specification for surface water and wastewater monitoring
Technical specification for groundwater environmental monitoring
3 Principle of the method
The mannose in water was directly injected and analyzed by liquid chromatography with an ultraviolet detector. According to the retention time
Qualitative and external standard method.
4 interference and elimination
When the organic matter coexisting in water samples interferes with the determination of mesotrione, it is possible to change the chromatographic conditions,
Disassociation, or the water sample first with n-hexane extraction to remove part of the interference, take the water phase for analysis.
5 reagents and materials
The experimental water is pure water containing no organic matter.
5.1 phosphoric acid (H3PO4). ρ (H3PO4) = 1.69 g/ml, excellent grade pure.
5.2 acetonitrile (C2H3N). liquid chromatography pure.
5.3 Methyrone. purity ≥ 99%.
5.4 standard dosage of mesotrione. ρ = 100 μg/ml.
Weigh 0.010 g (exact to 0.1 mg) of meso-ketone (5.3), dissolve with a small amount of acetonitrile (5.2), then water
To 100 ml, frozen at 4 ℃, dark and sealed can be stored for 3 months, or directly to buy certified standard solution.
5.5 Naphthaosterone standard use liquid I. ρ = 10.0 μg/ml.
Accurately remove 1.00 ml of meso-ketone standard stock solution (5.4) and dilute to 10 ml with water.
5.6 Naphthaosterone standard use of liquid Ⅱ. ρ = 1.00 μg/ml.
Accurate removal of 1.00 ml of meso-ketone standard use of liquid (5.5), diluted with water to 10 ml.
26 instruments and equipment
6.1 Sampling vials. 100 ml brown glass jar with a mouth plug.
6.2 Liquid Chromatograph. with UV detector or diode array detector.
6.3 Columns. 5 μm ODS with a column length of 25 cm, an internal diameter of 4.6 mm, or other equivalent chromatography
column.
6.4 Micro Samplers. 10 μl, 50 μl and 100 μl.
6.5 Membrane. 0.22 μm acetate filter or nylon filter.
6.6 Common laboratory equipment and equipment.
7 samples
7.1 Sample collection and storage
Samples were collected according to the relevant regulations of HJ/T 91 and HJ/T 164. The collected water samples should be refrigerated at 4 ° C, protected from light and sealed
Save, within 7 d analysis is completed.
7.2 Sample preparation
The pH of the water sample was adjusted to 3.0 to 4.0 with phosphoric acid (5.1). The water was filtered through a 0.22 μm filter (6.5) and placed in a sample
Bottle, to be tested.
Note. For samples containing organic matter, take 10 ml of water samples, with 2 ml of n-hexane extraction, take the water phase for determination.
7.3 blank sample preparation
The sample was prepared in the same manner as in Sample Preparation Step (7.2).
8 Analysis steps
8.1 Chromatographic reference conditions
Mobile phase A. acetonitrile; mobile phase B. water (take 1 L ultrapure water, add 100 μl of phosphoric acid (5.1) to pH 3.0);
Flow rate. 0.8 ml/min; column temperature. 30 ° C; detection wavelength. 233 nm; injection volume. 20 μl. The elution procedure is shown in Table 1.
Table 1 elution program
Time (min) A (%) B (%)
Note. After 11 minutes elution procedure for cleaning the column, the cleaning time can be adjusted according to the complexity of the actual sample.
8.2 Calibration curve establishment
Respectively, take appropriate amount of meso-ketone standard liquid I (5.5) or standard use of liquid Ⅱ (5.6), diluted with water, preparation
3 at least 5 concentration points of the standard series, the concentration of meso-ketone were 0.040,0.100,0.250,0.500,1.00,
4.00 mg/L (this is the reference concentration). From the low concentration to high concentration followed by the standard series of solution injection to the salt of mannose
Concentration for the abscissa, the corresponding peak area or peak height for the vertical axis, the establishment of calibration curve.
8.3 Determination
The sample to be tested (7.2) was subjected to the same conditions as the calibration curve.
8.4 blank test
The blank sample to be measured (7.3) was measured under the same conditions as the sample.
9 Results calculation and representation
9.1 Qualitative analysis
According to the sample of meso-ketone and standard series of mesotrione retention time for qualitative, if necessary, the standard sample
Product addition method, absorption ratio at different wavelengths or scanning ultraviolet absorption spectroscopy and other methods to assist qualitative.
The standard chromatogram of mesotrione is shown in Fig. 1 under the chromatographic conditions recommended in this standard (8.1).
Figure 1 Standard spectrum of mesotrione
9.2 Quantitative analysis
The concentration of mesotrione in the water sample is calculated according to the following formula.
A a
(1)
Where. - mass concentration of mesotrione in water samples, mg/L;
A - the peak area or peak height of mesotrione;
a - the intercept of the calibration curve;
b - the slope of the calibration curve;
f - the dilution factor of the water sample.
9.3 The result is shown
When the determination result is greater than or equal to 1 mg/L, the data retain the three significant digits; when the determination is less than 1 mg/L,
4 to the second after the decimal point.
10 precision and accuracy
10.1 precision
Six laboratories were tested for the concentration of chlorotrione at 0.050 mg/L, 0.500 mg/L and 3.00 mg/L
The relative standard deviations in the laboratory were 1.1% ~ 5.5%, 0.5% ~ 1.7%, 0.3% ~ 1.9% respectively.
The relative standard deviations were. 8.3%, 2.4%, 3.6%, the repeatability r was 0.01 mg/L, 0.02 mg/L,
0.10 mg/L; reproducibility limit R. 0.01 mg/L, 0.04 mg/L, 0.32 mg/L.
6 laboratories on the surface water labeled nitrione concentration of 0.050 mg/L, 0.250 mg/L, 0.500 mg/L of the sample
The relative standard deviations in the laboratory were. 2.1% ~ 8.0%, 0.7% ~ 4.7%, 0.5% ~
3.1%; the relative standard deviation between the laboratory were. 8.8%, 3.8%, 2.0%; repeatability r. 0.01 mg/L, 0.02
mg/L, 0.03 mg/L; reproducibility R. 0.02 mg/L, 0.03 mg/L, 0.04 mg/L.
6 laboratories were labeled with 0.050 mg/L, 0.250 mg/L and 0.500 mg/L
The results showed that the relative standard deviations in the laboratory were 0.8% ~ 7.0%, 0.4% ~ 3.0%, 0.5% ~
4.2%; the relative standard deviation between the laboratory were. 9.9%, 3.6%, 3.7%; repeatability r. 0.01 mg/L, 0.01
mg/L, 0.03 mg/L; reproducibility R. 0.02 mg/L, 0.03 mg/L, 0.06 mg/L.
6 laboratories for the concentration of mannose containing 0.41mg/L ~ 0.59 mg/L, 1.03 mg/L ~ 1.40 mg/L of industrial waste
The water samples were subjected to six replicates. the relative standard deviations in the laboratory were. 0.4% to 3.5%, 0.3% to 2.6%;
The relative standard deviations were 13% and 9.9%, the repeatability r was 0.03 mg/L and 0.05 mg/L. The reproducibility limit R was.
0.19 mg/L, 0.36 mg/L.
10.2 Accuracy
Six laboratories were tested for the concentration of chlorotrione at 0.050 mg/L, 0.500 mg/L and 3.00 mg/L
The recoveries were 94.0% ~ 116%, 98.4% ~ 105%, 94.7% ~ 104%, respectively.
The final values were. 105% ± 15.8%, 101% ± 4.4%, 101% ± 6.6%.
6 laboratories on the surface water labeled nitrione concentration of 0.050 mg/L, 0.250 mg/L, 0.500 mg/L of the sample
The recoveries were 97.1% ~ 120%, 94.7% ~ 106% and 98.8% ~ 105%, respectively.
The final yield was 106% ± 18.6%, 101% ± 7.8% and 101% ± 4.0%.
6 laboratories were labeled with 0.050 mg/L, 0.250 mg/L and 0.500 mg/L
The recoveries were. 91.9% ~ 118%, 94.7% ~ 104%, 96.8% ~ 107%, respectively.
The final recoveries were 103% ± 20.4%, 100% ± 7.2% and 100% ± 7.4%.
Six laboratories were supplemented with 0.250 mg/L of industrial waste water containing 0.30 mg/L and 1.20 mg/L
The recoveries were as follows. 93.0% ~ 113%, 91.1% ~ 111%, the final recoveries were.
101% ± 15.6%, 99.9% ± 16.2%.
11 quality assurance and quality control
11.1 blank test
Every 20 samples or per batch (less than 20 samples) should be at least one lab blank, blank in the medium
Concentration should be lower than the method detection limit.
511.2 Initial calibration
The correlation coefficient of the calibration curve is ≥0.995.
11.3 Standard curve verification
For every 20 samples or per batch (less than 20 samples), a calibration curve should be measured for the intermediate concentration of the standard solution.
The relative deviation between the result and the concentration of the curve should be ≤15%. Otherwise, a new calibration curve should be established.
11.4 parallel samples
Each 10 samples or each batch (less than 10 samples) should be accompanied by a parallel sample, parallel to the relative deviation of ≤ 15%.
11.5 matrix spikes
Each 20 samples or per batch (less than 20 samples) should be subjected to a matrix plus standard sample analysis, matrix spike recovery
Rate should be controlled at 70% to 130%.
12 Waste treatment
The organic waste generated in the experiment should be collected and kept collectively and entrusted with qualified units for processing.
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