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Basic dataStandard ID: HJ 994-2018 (HJ994-2018)Description (Translated English): Technical guidelines of accounting method for pollution source intensity - Chemical fertilizer industry Sector / Industry: Environmental Protection Industry Standard Word Count Estimation: 51,530 Date of Issue: 2018-12-25 Date of Implementation: 2019-03-01 Regulation (derived from): Ministry of Ecology and Environment Announcement No. 69 of 2018 Issuing agency(ies): Ministry of Ecology and Environment HJ 994-2018: Technical guidelines of accounting method for pollution source intensity - Chemical fertilizer industry---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order. Technical guidelines of accounting method for pollution source intensity - Chemical fertilizer industry National Environmental Protection Standard of the People's Republic Pollution Sources Strong Accounting Technology Guide Fertilizer Industry Technical guidelines of accounting method for pollution source Intensity chemical fertilizer industry Published on.2018-12-25 2019-03-01 Implementation Ministry of Ecology and Environment released ContentForeword...ii 1 Scope...1 2 Normative references...1 3 Terms and Definitions...2 4 source strong accounting program...3 5 Strong accounting method for organized waste gas source...14 6 Strong accounting method for unorganized exhaust gas pollution sources...29 7 Wastewater pollution source and source strong accounting method...33 8 Noise source strong accounting method...37 9 Industrial solid waste source strength accounting method...37 10 other...39 Appendix A (informative) Source strength calculation results and related parameter list form...40 Appendix B (informative) Reference table for noise sources of major equipment in the fertilizer industry...44ForewordTo implement the Environmental Protection Law of the People's Republic of China, the Environmental Impact Assessment Law of the People's Republic of China Law on Prevention and Control of Atmospheric Pollution, Law of the People's Republic of China on Prevention and Control of Water Pollution, Law of the People's Republic of China on Prevention and Control of Environmental Noise Pollution Laws and Regulations on the Prevention and Control of Environmental Pollution by Solid Wastes of the People's Republic of China, Improving the Environmental Impact Assessment of Pollutant Discharge Permits and Construction Projects The price support system guides and regulates the strong accounting work of pollution sources in the fertilizer industry and formulates this standard. This standard stipulates the basic principles, contents, accounting methods and requirements for strong accounting of waste gas, wastewater, noise and solid waste pollution sources in the fertilizer industry. Appendix A and Appendix B of this standard are informative annexes. This standard is the first release. This standard is formulated by the Department of Environmental Impact Assessment and Emission Management of the Ministry of Ecology and Environment, and the Department of Regulations and Standards. This standard is mainly drafted by. Environmental Engineering Evaluation Center of the Ministry of Environmental Protection, China Ryukyu Engineering Co., Ltd., China Five Rings Engineering Co., Ltd., Sanjie Environmental Engineering Consulting (Hangzhou) Co., Ltd., China Shipping Petroleum Environmental Protection Service (Tianjin) Co., Ltd. This standard is approved by the Ministry of Ecology and Environment on December 25,.2018. This standard was implemented on March 1,.2019. This standard is explained by the Ministry of Ecology and Environment. Pollution Sources Strong Accounting Technology Guide Fertilizer Industry1 Scope of applicationThis standard stipulates the basic principles, contents, accounting methods and requirements for the strong accounting of pollution sources in the fertilizer industry. This standard applies to the new (reconstruction, expansion) construction projects of chemical fertilizer industry construction projects and the source strength accounting of existing engineering pollution sources. This standard applies to the strong accounting of pollution sources during normal and abnormal emissions of the fertilizer industry, and is not applicable to sudden leaks, fires, explosions, etc. Therefore, the source of pollution is strongly accounted for. This standard is applicable to the main sources of pollution, waste water, noise and solid waste pollution of the main production facilities, public and auxiliary facilities of the fertilizer industry. Accounting. The source of pollution of boilers and gas turbines implementing GB 13223 is calculated according to HJ 888. The boiler source source of GB 13271 is calculated according to HJ 991.2 Normative referencesThis standard refers to the terms of the following documents. For undated references, the valid version applies to this standard. GB 8978 Integrated Wastewater Discharge Standard GB 9078 industrial furnace kiln air pollutant discharge standards GB 12348 industrial enterprise boundary environmental noise emission standards GB 13223 Standard for emission of atmospheric pollutants from thermal power plants GB 13271 Boiler Air Pollutant Emission Standard GB 13458 Synthetic ammonia industrial water pollutant discharge standard GB 14554 Odor Pollutant Emission Standard GB 15580 Phosphate Fertilizer Industry Water Pollutant Emission Standard GB 16297 Integrated emission standards for atmospheric pollutants GB 26132 Sulfuric acid industrial pollutant discharge standard GB 50015 Building Water Supply and Drainage Design Code GB/T 16157 Determination of particulate matter in fixed pollution source exhaust gas and sampling method of gaseous pollutants HJ 2.1 Technical Guidelines for Environmental Impact Assessment HJ 2.2 Technical Guidelines for Environmental Impact Assessment Atmospheric Environment HJ 2.3 Environmental Impact Assessment Technical Guidelines Surface Water Environment HJ 2.4 Environmental Impact Assessment Technical Guidelines Acoustic Environment HJ 75 Fixed Pollution Source Flue Gas (SO2, NOx, Particulate Matter) Emissions Continuous Monitoring Technical Specification HJ 76 Technical requirements and test methods for continuous monitoring system for stationary pollution source flue gas (SO2, NOx, particulate matter) HJ/T 91 Surface Water and Wastewater Monitoring Technical Specifications HJ/T 92 Water Pollutant Total Monitoring Technical Specification HJ/T 353 Water Pollution Source Online Monitoring System Installation Technical Specification (Trial) HJ/T 354 Water Pollution Source Online Monitoring System Acceptance Technical Specification (Trial) Technical Specifications for Operation and Assessment of HJ/T 355 Water Pollution Source Online Monitoring System (Trial) 2HJ/T 356 Water Pollution Source Online Monitoring System Data Validity Discrimination Technical Specification (Trial) HJ/T 373 Technical Specifications for Quality Assurance and Quality Control of Fixed Pollution Source Monitoring (Trial) HJ/T 397 Fixed Source Exhaust Gas Monitoring Technical Specification HJ 630 Environmental Monitoring Quality Management Technical Guidelines HJ 864.1 Application for Pollution Discharge Permit and Issuance Technical Specification for Fertilizer Industry - Nitrogen Fertilizer HJ 864.2 Application for Pollution Discharge Permit and Technical Specifications for Phosphate, Potassium, Compound Fertilizer, Organic Fertilizer and Microbial Fertilizer Industry HJ 884 Guidelines for the Guidelines for Sources of Pollution Sources HJ 888 Pollution Source Power Accounting Technical Guide HJ 948.1 Self-monitoring technical guide for sewage disposal units Fertilizer industry - nitrogen fertilizer HJ 991 Pollution Source Power Accounting Technical Guide Boiler Notice on Printing and Distributing the "Guidelines for the Investigation of Pollution Sources of VOCs in the Petrochemical Industry" and "Guidelines for Leak Detection and Remediation of Petrochemical Enterprises" (Environment Office [2015] No. 104)3 Terms and definitionsThe following terms and definitions defined by HJ 884 apply to this standard. 3.1 Chemical fertilizer industry The industry that produces chemical fertilizers. Chemical fertilizers are chemically prepared containing one or more nutrients required for the growth of crops. Fertilizers, including nitrogen, phosphate, potash, and compound fertilizers (composite fertilizers). 3.2 Nitrogenous fertilizer industry Production of fertilizer industry with nitrogen nutrients as the main component, the main products include synthetic ammonia, urea, ammonium bicarbonate, ammonium nitrate and so on. 3.3 Phosphate fertilizer industry Production of fertilizer industry with phosphorus nutrients as the main component, the main products include the intermediate product phosphoric acid (wet method) required for the production of phosphate fertilizer, Monoammonium phosphate, diammonium phosphate, phosphate fertilizer, superphosphate, heavy superphosphate, calcium magnesium phosphate, phosphorus and potassium fertilizer, calcium magnesium phosphate fertilizer and its vice Products such as sodium fluorosilicate and potassium fluorosilicate. 3.4 Potash fertilizer industry The production of fertilizer industry with potassium nutrients as the main component, the main products include potassium chloride, potassium sulfate, potassium nitrate and potassium sulfate and magnesium fertilizer. 33.5 Compound fertilizer industry Production of fertilizers containing at least two of the three nutrients of nitrogen, phosphorus and potassium (monoammonium phosphate, diammonium phosphate, nitrophosphate, NPK, Calcium, magnesium, phosphorus, potassium, potassium nitrate, potassium dihydrogen phosphate, except for the industry. 3.6 Standard condition The temperature is 273.15 K and the pressure is 101.325 kPa. The concentration of atmospheric pollutants specified in this standard is under standard conditions. The dry gas is the benchmark. 3.7 Abnormal discharge Production facilities or pollution prevention (control) measures are discharged under abnormal conditions. Such as the start-up and parking of production facilities and facilities, Pollutant emissions under equipment maintenance and exhaust gas pollution control facilities.4 source strong accounting procedures4.1 General principles The strong source accounting procedures include pollution source identification and pollutant determination, accounting methods and parameter selection, source strength accounting, and accounting results. For details, see HJ 884 for details. 4.2 Identification of pollution sources The identification of pollution sources in the fertilizer industry construction project shall comply with the technical guidelines for environmental impact assessment such as HJ 2.1, HJ 2.2, HJ 2.3 and HJ 2.4. It also covers all places, equipment or devices that may generate waste gas, waste water, noise, solid waste pollutants, Source strength accounting should cover all pollutants discharged from various sources, see Tables 1~4. 4.3 Determination of pollutants The determination of pollutants of various pollution sources in the fertilizer industry construction project shall include GB 8978, GB 9078, GB 13458, GB 14554, GB 15580, The pollutants in national and local emission standards such as GB 16297 and GB 26132 are shown in Tables 1 to 4. May be produced for the production process but the country Or pollutants not listed in the local pollutant discharge standards may be based on environmental quality standards, other industry standards, other national emission standards, Environmental quality improvement needs of local people's governments or ecological environment authorities, according to raw and auxiliary materials and fuel use, production process, production The analysis of products and by-products is determined. 4.4 Accounting method selection The methods for calculating the source of pollution of chemical fertilizer industry construction projects include material balance algorithm, analogy method, actual measurement method and pollution production coefficient method, etc. The method and selection order are shown in Tables 1~4. Source-based accounting methods should be selected in order of priority. If the priority method cannot be used, the reasons should be explained. Nucleus For the calculation method, see Chapter 5, Chapter 6, Chapter 7, Chapter 8, Chapter 9. 4 Existing engineering pollution sources are not manually monitored according to relevant management requirements, automatic monitoring equipment for installation of pollutants or automatic monitoring equipment is not In compliance with the regulations, in the process of environmental impact assessment management, it shall be rectified according to law and calculated according to the methods in Tables 1~4; In accordance with the relevant provisions of the discharge permit for accounting. Analogy method 2. Pollution coefficient method 3. Material balance algorithm Measured method a Nitrogen oxides are controlled by the manufacturer's manufacturer to control the concentration guarantee value or analogous equipment concentration values. b When the existing project pollution sources are strongly accounted for, when there are multiple pollution sources of the same type in the same enterprise, other pollution sources can be compared with the same type of pollution sources of the same type of pollution source. According to the accounting source. Exhaust gas When the pollution source of the new (reconstruction and expansion) construction project is normally discharged, the strong calculation of the source of nitrogen oxides generated during the combustion process of the organized exhaust gas is preferred to use the analogy method, followed by the pollution production coefficient. Method; the nitrogen oxides produced by the non-combustion process are preferentially based on the material balance algorithm, followed by the analogy method, the fouling coefficient method; particulate matter, fluoride The source strong accounting takes the analogy method first, followed by the material balance algorithm and the pollution yield coefficient method; the other pollutant source strong calculation takes the material balance algorithm first. Secondly, the analogy method and the pollution coefficient method are adopted. In the case of abnormal emissions, the material balance algorithm is preferred for the strong source of pollutants in the organized exhaust gas, followed by the analogy method and the pollution yield coefficient method. The strong source of particulate matter in unorganized exhaust gas is preferably analogous, followed by the material balance algorithm; other pollutant sources are prioritized. The material balance algorithm is used, followed by other feasible methods such as analogy or pollution coefficient method. Existing engineering pollution source In the normal discharge, the measured method of the organized exhaust gas source is measured by the actual method. In the case of abnormal emissions, the sulfur dioxide source in the organized exhaust gas is highly optimized. Firstly, the actual measurement method is adopted. When there is no actual measurement condition, the material balance algorithm or the pollution yield coefficient method is adopted; the nitrogen oxide source in the organized exhaust gas is strongly registered. The actual measurement method is adopted, and the analogy method or the pollution generation coefficient method is adopted when the actual measurement conditions are not available; the material balance algorithm and the pollution generation coefficient method are used for the calculation of other pollutant sources. When using the actual measurement method to calculate the actual discharge amount, the self-monitoring technical guide for the pollutant discharge unit of the fertilizer industry and the sewage discharge permit for the pollutant discharge unit Such as the use of automatic monitoring of pollution factors, only effective automatic monitoring data can be used for accounting; for the fertilizer industry The monitoring technical guide and the pollutant discharge permit of the pollutant discharge unit do not require the automatic monitoring of pollution factors, and the effective automatic monitoring data is preferred. Second, manual monitoring of data is used. When there are multiple sources of organized exhaust gas pollution of the same enterprise, other sources of pollution can be compared to the enterprise. The measured data of the same type of organized exhaust gas pollution source is strong. The strong accounting of volatile organic matter in unorganized exhaust pollutants is preferably measured by the actual method, followed by analogy or pollution coefficient method. Feasible methods; other pollutant sources are strongly accounted for by other methods such as analogy or pollution coefficient method. Waste water New (reconstruction, expansion) construction project pollution source The material balance algorithm is used to calculate the source of heavy metal pollutants in the wastewater discharge port of the workshop or production facility and the total discharge port of the wastewater; other pollutants The source-weighted calculation uses the material-weighting algorithm first, followed by the analogy method and the pollution-producing coefficient method. Existing engineering pollution source The measured source of the pollutants in the total discharge port of the wastewater, the discharge port of the workshop or the production facility (if required) is measured by the actual method. Measured by actual measurement In actual emissions, automatic monitoring is required for the self-monitoring technical guide of the pollutant discharge unit of the fertilizer industry and the pollutant discharge permit of the pollutant discharge unit. The pollution factor can only be counted by effective automatic monitoring data; the technical guide and row for self-monitoring of pollutant discharge units in the fertilizer industry Pollution units such as sewage units do not require the use of automatic monitoring of pollution factors, the use of automatic monitoring data is preferred, followed by manual monitoring of data. noise New (reconstruction, expansion) construction project pollution source The strong source of noise pollution is calculated by analogy. Existing engineering pollution source The strong source of noise pollution is preferred by the actual measurement method, followed by the analogy method. Solid Waste New (reconstruction, expansion) construction project pollution source The solid waste source strength calculation adopts the material balance algorithm first, followed by the analogy method and the pollution production coefficient method. Existing engineering pollution source The solid waste source strength calculation takes precedence over the actual measurement method, followed by the material balance algorithm. 4.5 Parameter selection The engineering design data may be taken from the strong accounting parameters of the new (reconstruction, expansion) construction equipment or facility pollution source. Existing engineering production equipment or The strong accounting parameters of the facility pollution sources can take effective monitoring data during the accounting period. 4.6 Source strength accounting Exhaust gas The source of the exhaust gas pollutants is calculated as the sum of the source and the source of the normal and abnormal conditions of all the pollution sources, and is calculated by the formula (1). 4.7 Summary of accounting results See Appendix A for the summary format of the strong source accounting results.5 Strong accounting method for organized waste gas source5.1 Material Balance Algorithm 5.2 Analogy The occurrence of pollutants from various pollution sources in new (reformed and expanded) construction projects can be compared with their original auxiliar......Tips & Frequently Asked Questions:Question 1: How long will the true-PDF of HJ 994-2018_English be delivered?Answer: Upon your order, we will start to translate HJ 994-2018_English as soon as possible, and keep you informed of the progress. 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