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HJ 604-2017 related PDF English

HJ 604-2017 (HJ604-2017) & related versions
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HJ 604-2017English249 Add to Cart 3 days Ambient air - Determination of total hydrocarbons, total methane and non-methane hydrocarbons - Direct injection / gas chromatography HJ 604-2017 Valid HJ 604-2017
HJ 604-2011English439 Add to Cart 3 days Ambient air. Determination of total hydrocarbons. Gas chromatographic method HJ 604-2011 Obsolete HJ 604-2011



HJ 604-2017: PDF in English
HJ 604-2017 (Ambient air - Determination of total hydrocarbons, total methane and non - methane hydrocarbons - Direct injection - gas chromatography) People's Republic of China national environmental protection standards Total ambient air hydrocarbons, total methane and non-methane hydrocarbons Determination of direct injection - gas chromatography Ambient air-Determination of total hydrocarbons, methane and nonmethane hydrocarbons-Direct injection/Gas chromatography 2017-12-14 Published 2018-03-01 implementation Ministry of Environmental Protection released Replacing HJ 604-2011 i directory Foreword ..i 1 scope of application .1 2 Normative references .1 3 Terms and definitions .1 4 method principle .1 5 Reagents and materials .2 6 instruments and equipment .2 7 samples .2 8 Analysis steps .3 9 results calculated and said .5 10 precision and accuracy 5 11 Quality Assurance and Quality Control .6 12 Matters needing attention 6 i Foreword In order to implement the Law of the People's Republic of China on Environmental Protection and the Law of the People's Republic of China on Prevention and Control of Atmospheric Pollution, Habitat to protect human health, regulate the total ambient air hydrocarbons, methane and non-methane total hydrocarbon determination, the development of this standard. This standard specifies the direct injection of gas, methane and non-methane hydrocarbon determination of ambient air - gas chromatography. This standard is the "total ambient air hydrocarbons Determination of gas chromatography" (HJ 604-2011) revision. This standard was first published in.1994, the original standard (GB/T 15263-1994) drafting unit for environmental monitoring in Gansu Province Heart station, first revised in.2011. This is the second revision, the main contents of the revision are as follows. - Expanded the determination of indicators, an increase of methane and non-methane total hydrocarbons, the corresponding revision of the standard name; - Scope of application Increased measurement of total hydrocarbons, total methane and non-methane hydrocarbons in the air at monitoring points without organized discharges; - revised the definition of total hydrocarbons and added the definition of non-methane total hydrocarbons; - Increase the air bag as a sampling container, provides for sample collection, preservation methods and shelf life; - Added quality assurance and quality control requirements; - The appendix was deleted. From the date of the implementation of this standard, "Determination of total hydrocarbons in ambient air by gas chromatography" (HJ 604-2011) abolished. This standard by the Environmental Protection Department of Environmental Monitoring Division and Science and Technology Standards Division to develop. This standard was drafted. Changzhou City Environmental Monitoring Center. This standard verification unit. Jiangsu Province Environmental Monitoring Center, Suzhou City Environmental Monitoring Center Station, Suzhou Industrial Park Environmental Supervision Center Station, Taizhou City Environmental Monitoring Center Station, Nantong City Environmental Monitoring Center Station, Zhenjiang City Environmental Monitoring Center Station and Changzhou Wujin District Environmental Monitoring Station. This standard MEP approved on December 14,.2017. This standard since March 1,.2018 into effect. This standard is interpreted by the MEP. 1 Ambient air Determination of total hydrocarbons, methane and non-methane hydrocarbons Direct injection - gas chromatography 1 scope of application This standard specifies the direct injection of gas, methane and non-methane hydrocarbon determination of ambient air - gas chromatography. This standard applies to the determination of total hydrocarbons, methane and non-methane total hydrocarbons in ambient air, also applies to unorganized emission sources Air and air - Determination of total hydrocarbons, methane and non - methane hydrocarbons in monitoring air. When the injection volume is 1.0 ml, the total hydrocarbons measured in this standard, the detection limit of methane are 0.06 mg/m3 (in terms of methane), The lower limit of determination was 0.24 mg/m3 (in terms of methane). The detection limit of total non-methane hydrocarbons was 0.07 mg/m3 (measured by carbon) The lower limit is 0.28 mg/m3 (based on carbon). 2 Normative references This standard references the following documents or the terms. For undated references, the effective version applies to this book standard. HJ 194 Manual Air Quality Monitoring Technical Specifications HJ 664 Technical Specifications for Ambient Air Quality Monitoring Sites (Trial Implementation) HJ 732 Fixed polluting sources - Volatile organic compounds - Sampling airbag method HJ/T 55 Guidelines for Unorganized Emissions Monitoring of Air Pollutants 3 Terms and definitions The following terms and definitions apply to this standard. 3.1 Total hydrocarbons total hydrocarbons (THC) Refers to the determination of the standard conditions, the gas chromatograph flame ionization detector has a response to the gas The sum of machine compounds. 3.2 Non-methane total hydrocarbons nonmethane hydrocarbons (NMHC) Refers to the total mercury content of other gaseous organic compounds after the methane is deducted from the total hydrocarbons Unless otherwise stated, the result is in terms of carbon). 4 method principle Gas samples were injected directly into a gas chromatograph with a hydrogen flame ionization detector, respectively on a total hydrocarbon column and a methane column 2 set total hydrocarbons and methane content, the difference between the two non-methane total hydrocarbon content. In the meantime, the sample was replaced with hydrocarbon air to measure oxygen Response on Total Hydrocarbon Column to Deduce the interference of oxygen in the sample to total hydrocarbon determination. 5 Reagents and materials Unless otherwise specified, analytical grade analytical reagents and distilled water in accordance with national standards were used. 5.1 In addition to hydrocarbon air. total hydrocarbon content (oxygen peak) ≤ 0.40 mg/m3 (in terms of methane); or methane column determination, deoxygenation No other peak outside the peak. 5.2 Methane standard gas. 10.0 μmol/mol, equilibrium gas is nitrogen. Can also be based on actual work needs to qualified production Commercially agreed to the appropriate concentration of standard gas. 5.3 Nitrogen. Purity ≥99.999%. 5.4 Hydrogen. Purity ≥99.99%. 5.5 Air. purification tube purification. 5.6 standard gas diluent gas. high purity nitrogen or nitrogen in addition to hydrocarbons, purity ≥ 99.999%, according to the sample determination (8.3) step test Test, total hydrocarbon determination results should be lower than the detection limit of this standard method. 6 instruments and equipment 6.1 Sampling containers. all-glass syringe, the volume of not less than 100 ml, after cleaning and drying spare; airbag material in line with HJ 732 of the relevant provisions of the volume of not less than 1 L, before use with hydrocarbon air (5.1) cleaning at least 3 times. 6.2 vacuum gas sampling box. the intake pipe, vacuum box, valves and suction pump and other components, the sample through the pipe material The quality should not react with the tested components. 6.3 Gas Chromatograph. Hydrogen flame ionization detector. 6.4 Injector. Injection valve with 1 ml dosing tube or 1 ml airtight glass syringe. 6.5 column 6.5.1 packed column. methane column, stainless steel or hard glass, 2 m × 4 mm, filled with particle size 180 ~ 250 μm (80-60 mesh) GDX-502 or GDX-104 support; total hydrocarbon column, stainless steel or hard glass, 2 m × 4 mm, Filled with silanized glass beads with particle size of 180-250 μm (80-60 mesh). 6.5.2 Capillary column. methane column, 30 m × 0.53 mm × 25 μm porous layer Open tube Molecular sieve column or other equivalent capillary Column; total hydrocarbon column, 30 m × 0.53 mm deactivated capillary air column. 6.6 General laboratory equipment and equipment. 7 samples 7.1 Sample Collection Ambient air Dispensing and sampling in accordance with the relevant provisions of HJ 194 and HJ 664; Source of pollution Unorganized discharge Monitoring point Air Place and sample according to HJ/T 55 or other relevant standards. Sampling vessels were sampled at least 3 times after air cleaning on site. To Glass syringes were used to collect air samples on full scale and sealed with inert sealing heads. Samples were taken with an air bag and sampled with a vacuum gas Tank (6.2) Introduce the air sample into the air bag to about 80% of the maximum volume and seal it immediately. 37.2 Transport blank The sample container filled with hydrocarbon air (5.1) was taken to the sampling site and returned to the experiment together with the samples collected in the same batch Room analysis. 7.3 Sample Storage Glass syringes that collect samples should be handled with care to prevent damage and keep the needle tip down into the sample container And shipping. Samples at room temperature dark preservation, sampling completed as soon as possible after the analysis. Glass syringe preserved samples, place the time does not exceed 8 h; The samples stored in the airbag should not be stored for more than 48 h. If methane is only measured, it should be completed in 7 days. 8 Analysis steps 8.1 Reference chromatographic conditions Inlet temperature. 100 ° C. Column temperature. 80 ° C. Detector temperature..200 ° C. Carrier gas. nitrogen (5.3), packed column flow 15 ~ 25 ml/min, capillary column flow 8 ~ 10 ml/min. Burning gas. hydrogen (5.4), flow rate of about 30 ml/min. Auxiliary gas. air (5.5), flow rate of about 300 ml/min. Capillary gas makeup. nitrogen (5.3), flow 15 ~ 25 ml/min, splitless injection. Injection volume. 1.0 ml. 8.2 Calibration 8.2.1 Preparation of calibration series Take a 100 ml syringe (pre-placed in a thin piece of rigid Teflon) or 1 L air bag as a container, press 1.1 Volume ratio, standard gas diluent gas (5.6) methane standard gas (5.2) step by step diluted to prepare five concentration gradient Calibration series, the calibration series concentrations were 0.625,1.25,2.50,5.00,10.0 mol/mol. Note. The calibration series can be based on the actual situation to determine the appropriate concentration range, can also choose to use dynamic gas dilution instrument preparation, or to qualified production Commercial custom. 8.2.2 Draw a calibration curve From low concentration to high concentration in order to extract 1.0 ml calibration series (8.2.1), into the gas chromatograph (6.3) were measured Total hydrocarbons, methane. Taking total hydrocarbon and methane concentration (μmol/mol) as the abscissa and its corresponding peak area as the ordinate, Draw the total hydrocarbon, methane calibration curve. Note. When the sample concentration and calibration gas concentration similar to the single-point calibration can be used, single-point calibration gas should be injected at least 2 times, the chromatographic response relative Deviations should be ≤ 10%, calculated using the average. 48.2.3 standard chromatogram Under the chromatographic analysis reference conditions (8.1) given in this standard, the standard chromatogram on the capillary column is shown in Figure 1. The packed column The standard chromatogram shown in Figure 2. (A) (b) (c) a- Total hydrocarbon peak on total hydrocarbon column, b- Oxygen peak on total hydrocarbon column, c-Methane column on oxygen peak and methane peak Fig.1 Standard chromatogram of total hydrocarbons, methane and oxygen on a capillary column (A) (b) (c) a- Total hydrocarbon peak on total hydrocarbon column, b- Oxygen peak on total hydrocarbon column, c-Methane column on oxygen peak and methane peak Figure 2 Standard chromatograms of total hydrocarbons, methane and oxygen on packed columns 8.3 Sample Determination 8.3.1 Determination of total hydrocarbons and methane The total hydrocarbon and methane peak area of the sample was determined following the same procedure and analytical conditions as for the calibration curve, Peak area should be deducted oxygen peak area involved in the calculation. NOTE Other peaks that appear after the total hydrocarbon peak should be taken into account in the total hydrocarbon peak area. 8.3.2 Determination of oxygen peak area The same procedure and analytical conditions as for the calibration curve were used to determine the amount of hydrocarbon air (5.1) on the total hydrocarbon column Oxygen peak area. 58.4 Blank test Transport Blank Samples (7.2) Determine the same procedure and analytical conditions as for the calibration curve. 9 results calculated and expressed 9.1 Calculation Results The total mass of hydrocarbons and methane in the sample is calculated according to formula (1). 22.4 1   (1) Where. ρ-- total mass of hydrocarbons or methane in the sample (in terms of methane), mg/m3; φ - the total hydrocarbon or methane concentration in the sample obtained from a calibration curve or a comparative single-point calibration point Deduction of oxygen peak area), μmol/mol; 16 - the molar mass of methane, g/mol; 22.4 - Molar volume of gas at standard state (273.15 K, 101.325 kPa), L/mol. Total mass concentration of non-methane hydrocarbons in the sample shall be calculated according to formula (2). () 16NMHC THC M 2     (2) Where. ρNMHC - sample mass concentration of non-methane total hydrocarbons (in terms of carbon), mg/m3; ρTHC - mass concentration of total hydrocarbons in the sample (in methane), mg/m3; ρM - mass concentration of methane in the sample (in terms of methane), mg/m3; 12 - the molar mass of carbon, g/mol; 16 - the molar mass of methane, g/mol. Note 1. Total non-methane hydrocarbons may also need to be based on methane, and indicate. Note 2. When methane is detected separately, the result can be converted into the expression of volume percentage. 9.2 results indicated When the determination result is less than 1 mg/m3, keep to two decimal places; when the determination result is equal to or greater than 1 mg/m3, Keep three significant figures. 10 precision and accuracy 10.1 Precision Six laboratories had a total concentration of hydrocarbons (in terms of methane) of 1.47 mg/m3, 7.14 mg/m3 and 36.4 mg/m3 The samples were subjected to 6 replicate assays. The relative standard deviations in the laboratory were 1.0% -9.8%, 0.1% -6.0%, 0.6% 6.0%; relative standard deviations (RSDs) were 9.9%, 2.2% and 1.6% respectively; the repeatability limit was 0.27 mg/m3, 0.21 mg/m3, 1.8 mg/m3; reproducibility limit. 0.46 mg/m3, 0.49 mg/m3, 2.3 mg/m3. Each laboratory test The relative standard deviation of actual ambient air samples with total hydrocarbon concentration (measured by methane) ranging from 0.85 mg/m3 to 4.71 mg/m3 was 0.7% ~ 6.0%. 66 laboratories for methane concentration (methane) of 1.47 mg/m3, 7.14 mg/m3 and 36.4 mg/m3 of unification The samples were subjected to 6 replicate assays. The relative standard deviations in the laboratory were 2.6% -7.1%, 0.4% -2.5%, 1.0% 2.0%. The relative standard deviations of laboratory were 2.2%, 1.8% and 1.4% respectively. The reproducibility limit was 0.23 mg/m3, 0.37 mg/m3, 1.6 mg/m3; Reproducibility limit. 0.24 mg/m3, 0.50 mg/m3, 2.1 mg/m3. Each laboratory test The relative standard deviation of actual ambient air samples with methane concentrations (measured by methane) ranging from 1.21 mg/m3 to 2.14 mg/m3 was 2.3% ~ 5.2%. 10.2 Accuracy Six laboratories had a total concentration of hydrocarbons (in terms of methane) of 1.47 mg/m3, 7.14 mg/m3 and 36.4 mg/m3 The samples were subjected to 6 replicate measurements with relative errors of -9.7% -7.0%, -0.8% -5.1%, -1.7% -2.4%, respectively. Final relative error. -0.8% ± 11.8%, 1.1% ± 4.6%, 0.1% ± 3.2%. Six laboratories had a uniform concentration of methane (methane) of 1.47 mg/m3, 7.14 mg/m3 and 36.4 mg/m3 The samples were subjected to 6 replicate measurements with relative errors of -3.9% -4.8%, 0.5% -4.1%, -0.6% -0.3%, respectively. Final relative error. 2.3% ± 6.4%, 1.8% ± 3.2%, -0.3% ± 0.6%. 11 Quality Assurance and Quality Control 11.1 Sampling containers should be cleaned before removal of hydrocarbon air (5.1) and then inspected. Every 20 or every batch (less At 20) should be at least one injection of hydrocarbon air (5.1), placed at room temperature not less than the actual sample storage time, press Sample analysis (8.3) Analysis of steps, total hydrocarbon determination results should be lower than the detection limit of this standard method. Note. Reusable airbags, must be checked before sampling, total hydrocarbon determination results should be lower than the detection limit of this standard method. 11.2 Correlation coefficient of calibration curve should be greater than or equal to 0.995. 11.3 Transport Blank sample total hydrocarbon determination results should be lower than the detection limit of this standard method. 11.4 Each batch of samples should be analyzed at least 10% of the parallel samples in the laboratory, the relative deviation of the measurement results should not exceed 20%. 11.5 Before and after each sample analysis of the sample, the standard curve of the calibration curve should be measured within the standard gas, the results of the relative error should not be large At 10%. 12 Precautions 12.1 Sampling containers should be thoroughly washed before use, air tightness test qualified, placed in a sealed sampling box to avoid contamination. 12.2 Samples returned to the laboratory should be balanced to ambient temperature after the determination. 12.3 Determination of complex samples, such as found in the analysis system residual, by increasing the column temperature and other ways to remove for analysis Dehumidification of hydrocarbon air (5.1). ......

BASIC DATA
Standard ID HJ 604-2017 (HJ604-2017)
Description (Translated English) Ambient air - Determination of total hydrocarbons, total methane and non-methane hydrocarbons - Direct injection / gas chromatography
Sector / Industry Environmental Protection Industry Standard
Classification of Chinese Standard Z15
Classification of International Standard 13.040.20
Word Count Estimation 10,184
Date of Issue 2017-12-14
Date of Implementation 2018-03-01
Older Standard (superseded by this standard) HJ 604-2011
Quoted Standard HJ 194; HJ 664; HJ 732; HJ/T 55
Drafting Organization Changzhou Environmental Monitoring Center
Administrative Organization Ministry of Environmental Protection
Regulation (derived from) Ministry of Environmental Protection Bulletin 2017 No. 71
Summary This standard specifies direct gas chromatography for the determination of total hydrocarbons, methane, and non-methane total hydrocarbons in ambient air. This standard applies to the determination of total hydrocarbons, methane, and non-methane hydrocarbons in the ambient air, and also applies to the determination of total hydrocarbons, methane, and non-methane hydrocarbons in the air at the monitoring points of fugitive sources of pollution sources. When the injection volume is 1.0 ml, the detection limit of total hydrocarbons and methane measured in this standard is 0.06 mg/m^(3) (based on methane), and the lower limit of determination is 0.24 mg/m^(3) ( Methane); The detection limit of non-methane total hydrocarbons was 0.07 mg/m^(3) (in terms of carbon) and the lower limit of determination was 0.28 mg/m^(3) (in terms of carbon).