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Basic dataStandard ID: HJ 992-2018 (HJ992-2018)Description (Translated English): Technical guidelines of accounting method for pollution source intensity - Pharmaceuticals industry Sector / Industry: Environmental Protection Industry Standard Word Count Estimation: 31,353 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 992-2018: Technical guidelines of accounting method for pollution source intensity - Pharmaceuticals 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 - Pharmaceuticals industry National Environmental Protection Standard of the People's Republic Technical Guidelines for Strong Sources of Pollution Sources Pharmaceutical Industry Technical guidelines of accounting method for pollution Source intensity pharmaceuticals industry Published on.2018-12-25 2019-03-01 Implementation Ministry of Ecology and Environment released i directory Foreword...ii 1 Scope...1 2 Normative references...1 3 Terms and Definitions...2 4 source strong accounting program...3 5 Strong source method for waste gas pollution sources...9 6 Wastewater pollution sources strong accounting method...19 7 Noise source strong accounting method...22 8 Solid waste source strong accounting method...22 9 other...23 Appendix A (informative appendix) The pharmaceutical industry source strength accounting results and related parameter list form...24 ForewordTo implement the Environmental Protection Law of the People's Republic of China, the Environmental Impact Assessment Law of the People's Republic of China Pollution Prevention and Control Law, Law of the People's Republic of China on Prevention and Control of Water Pollution, Law of the People's Republic of China on the Prevention and Control of Environmental Noise Pollution, "The People's Republic of China Laws and regulations on the Prevention and Control of Environmental Pollution by Solid Wastes, etc., improve the system of strong accounting methods for fixed sources of pollution, and guide the sources of pollution in the pharmaceutical industry Strong accounting work, the development of this standard. This standard specifies the basic principles for the strong accounting of waste gas, wastewater, noise, and solid waste pollution sources in the environmental impact assessment of the pharmaceutical industry. Content, accounting methods and requirements. Appendix A of this standard is an informative annex. 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, Hebei University of Science and Technology, China Chemical Pharmaceutical Industry Association. 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.1 pollution source strong accounting technology guide pharmaceutical industry1 Scope of applicationThis standard stipulates the basic principles, contents, accounting methods and requirements for strong accounting of pollution sources in the pharmaceutical industry. This standard applies to chemical manufacturing, biological and biochemical products manufacturing, simple drug packaging and compounding, Chinese patent medicine manufacturing, Chinese medicine decoction pieces The source strength calculation of the pollution source of the new (reconstruction, expansion) construction project and the existing engineering pollution source in the environmental impact assessment of industrial construction projects such as processing. This standard applies to the strong accounting of pollution sources under normal and abnormal conditions in the pharmaceutical industry, and is not applicable to sudden leaks, fires, explosions, etc. Therefore, the source is strongly accounted for. This standard applies to sources of waste gas, wastewater, noise, solid waste pollution sources in the main production facilities, public and auxiliary facilities of the pharmaceutical industry. Strong accounting. The boiler source source of GB 13223 is calculated according to HJ 888; the boiler source of GB 13271 is strongly pressed. 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 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 14098 gas turbine noise GB 14554 Odor Pollutant Emission Standard GB 16297 Integrated emission standards for atmospheric pollutants GB 18484 Hazardous Waste Incineration Pollution Control Standard GB 21903 Fermentation standards for water pollutants in the pharmaceutical industry GB 21904 Chemical synthesis pharmaceutical industry water pollutant discharge standards GB 21905 Extraction standards for water pollutants in the pharmaceutical industry GB 21906 Chinese medicine pharmaceutical industry water pollutant discharge standards GB 21907 Bio-engineering pharmaceutical industry water pollutant discharge standards GB 21908 Mixed preparations for pharmaceutical industry water pollutant discharge standards GB 34330 General rules for the identification of solid waste GB/T 2888 fan and Roots blower noise measurement method GB/T 14675 Determination of air quality odors Three-point comparison odor bag method GB/T 29529 pump noise measurement and evaluation method HJ 2.1 General Outline of Technical Guidelines for Environmental Impact Assessment of Construction Projects 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/T 55 Technical Guidelines for the Monitoring of Unorganized Emissions of Air Pollutants 2HJ/T 69 Coal-fired boiler dust and sulfur dioxide emissions total verification technical method material balance algorithm 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 298 Hazardous Waste Identification 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) HJ/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/T 611 Technical Guidelines for Environmental Impact Assessment Pharmaceutical Construction Project HJ/T 616 Construction Project Environmental Impact Technology Assessment Guidelines HJ/T 792 Construction Project Completion Environmental Protection Acceptance Technical Specification Pharmaceutical HJ 858.1 Application for the issuance of pollutant discharge permits and technical specifications for the issuance of the pharmaceutical industry - manufacture of APIs HJ 881 sewage unit self-monitoring technical guide extraction pharmaceutical industry HJ 882 Sewage Unit Self-Monitoring Technical Guide Fermentation Pharmaceutical Industry HJ 883 Sewage Unit Self-Monitoring Technical Guide Chemical Synthesis Pharmaceutical Industry HJ 884 Guidelines for the Guidelines for Sources of Pollution Sources HJ 888 Pollution Source Power Accounting Technical Guide HJ 991 Pollution Source Power Accounting Technical Guide Boiler HJ 2044 Fermentation Pharmaceutical Industry Wastewater Treatment Engineering Technical Specification3 Terms and definitionsThe following terms and definitions defined by HJ 884 apply to this standard. 3.1 Pharmaceutical industry waste water Refers to wastewater discharged from pharmaceutical manufacturing enterprises or facilities, including various external wastewaters that are directly or indirectly related to production (including plant waste technology) Water, flushing wastewater, circulating cooling water, sewage, purified water, sewage, waste gas treatment facility wastewater, domestic sewage, initial rainwater, plant District boiler sewage, etc.). 3.2 Volatile organic compounds (VOCs) Refers to organic compounds involved in atmospheric photochemical reactions, or organic compounds determined according to relevant regulations. When characterizing the overall emissions of VOCs, total volatile organic compounds (by TVOC) can be used based on industry characteristics and environmental management requirements. Indicates) or non-methane total hydrocarbons (expressed as NMHC) as a pollutant control project. 33.3 Abnormal discharge Refers to the discharge of pollutants under abnormal conditions of production facilities or pollution prevention (control) measures. For example, hazardous waste incinerators start and stop When the flue gas treatment system is abnormally discharged, or other process equipment is abnormally operated, the pollution prevention and control facilities are not able to achieve the efficiency of treatment and synchronization. Emissions under abnormal conditions such as conversion rates.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 pharmaceutical industry should cover all sites, equipment or devices that may generate pollutants, waste water, noise, solid waste pollutants, Source strength accounting should cover all pollutants discharged by various sources, see Tables 1-3. The identification of pollution sources shall comply with the requirements of HJ 2.1, HJ 2.2, HJ 2.3, HJ 2.4 and so on. 4.3 Determination of pollutants The determination of pollutants in various pollution sources in the pharmaceutical industry shall include GB 14554, GB 16297, GB 18484, GB 21903, GB 21904, Contaminants in national and local emission standards such as GB 21905. Possible for production processes but national or local pollutant discharge standards Unlisted pollutants may be based on environmental quality standards, other industry standards, other national emission standards, local people's governments, and the ecological environment. The environmental quality improvement requirements of the competent authorities shall be determined and determined according to the raw and auxiliary materials, fuel use and production process. 4.4 Accounting method selection 4.4.1 General principles The strong accounting methods for pollution sources in the pharmaceutical industry include the actual measurement method, the material balance algorithm, the analogy method, the pollution yield coefficient method, etc. If you choose the priority method, if you can't use the priority method, you should give a reasonable reason. The order of selection of accounting methods is shown in Tables 1-3. 4 Table 1 Selection list of strong accounting methods for pharmaceutical waste gas pollution sources Category of exhaust gas type pollutants Accounting method selection New (reform, expansion) Source of pollution Existing engineering Pollution source a Chemical manufacturing Biological and biochemical products Manufacturing Fermentation waste gas VOCs Analogy method 2. Material balance algorithm 1. Measurement method b 2. Material balance algorithm Particle analog method Process organic waste gas c VOCs, characteristic pollutants d Material balance algorithm 2. Analogy Measure b Process dusty exhaust particulate matter analogy method b Process inorganic waste gas characteristic pollutant d Material balance algorithm 2. Analogy Measure b Chinese patent medicine manufacturing, medium Herbal medicine processing Process waste gas VOCs Material balance algorithm 2. Analogy 1. Measurement method b 2. Material balance algorithm Particle analog method Traditional Chinese medicine alcohol extraction waste VOCs Material balance algorithm 2. Analogy 1. Measurement method b 2. Material balance algorithm Simple drug dispensing, Compounding Process exhaust VOCs, characteristic pollutants d Material balance algorithm 2. Analogy 1. Measurement method b 2. Material balance algorithm Dust-containing exhaust gas particles analogy method b Public facilities VOCs in the tank area, characteristic pollutants d Material balance algorithm 2. Analogy 1. Measurement method b 2. Material balance algorithm Wastewater treatment station waste gas VOCs, characteristic pollutants d-class method NH3, H2S analogy method b Dangerous waste temporary storage VOCs, characteristic pollutants d analogy method b Hazardous waste incinerator flue gas Soot, nitrogen oxide analog method Carbon monoxide, hydrogen chloride, hydrogen fluoride, Two cacao e Analogy method Sulfur dioxide Material balance algorithm 2. Pollution coefficient method Measure b Mercury and its compounds, cadmium and their combination Matter, lead and its compounds, arsenic and Compound, nickel and its compounds Material balance algorithm 2. Analogy Measure b5 continuedCategory of exhaust gas type pollutants Accounting method selection New (reform, expansion) Source of pollution Existing engineering Pollution source a other Unorganized exhaust VOCsf, characteristic pollutant d analogy Material balance algorithm 2. Actual measurement method b Particle analog method Abnormal emissions Soot, sulfur dioxide, nitrogen oxidation Matter, VOCsf, characteristic pollutant d Analogy 1. Measurement method b 2. Material balance algorithm Note 1. Accounting factors include, but are not limited to, the above pollutants. Note 2. The enterprise shall identify the pollution factors that the unit needs to account according to the national standards, local standards and self-monitoring guidelines of the pollutant discharge units. Note 3. For the strong accounting of pollutant sources in mixed exhaust gas, enterprises should give priority to the applicability selection method. The method in this table is only for reference. Note 4. The amount of exhaust gas at each link should be recorded at the same time. a The existing project pollution source has not been manually monitored according to relevant management requirements, the installation of automatic pollutant monitoring equipment or automatic monitoring equipment does not meet the requirements, In the process of environmental impact assessment management, it shall be accounted for according to the method in this table after being rectified according to law; in the process of management of sewage discharge permit, in accordance with the regulations on discharge permit Make accounting. b When the existing project pollution sources are strongly accounted for, when there are multiple sources of the same type of pollution for the same enterprise, other sources of pollution can be compared with the same type of pollution source of the enterprise. The source of the pollution source data is strong. c Process organic waste gas refers to the waste gas mainly containing organic compounds produced by each sewage node in the production process. d characteristic pollutants refer to benzene, toluene, xylene, phenols, formaldehyde, acetaldehyde, acrylonitrile, acrolein, hydrogen cyanide, methanol, aniline, chlorobenzene, nitrate Benzobenzenes, vinyl chloride, benzo[a]pyrene, phosgene, acetone, dichloromethane, phenol, ethyl acetate, butyl acetate, n-butanol, ammonia, trimethylamine, sulfur Hydrogen, hydrogen chloride, methyl mercaptan, methyl sulfide, dimethyl disulfide, carbon disulfide, styrene, sulfuric acid mist, and the like. When burning chlorinated organic waste gas, two dioxins are produced. f The emission source of unorganized exhaust VOCs mainly includes equipment dynamic and static sealing point discharge, sampling process discharge, loading and unloading discharge, process unorganized emission, circulation Cooling water discharge and other links. 6 Table 2 Selection table of strong accounting methods for source of pharmaceutical wastewater pollution Category of wastewater type pollutants Accounting method selection New (reform, expansion) Source of pollution Existing engineering Pollution source a Chemical manufacturing Biological and biochemical manufacturing Process wastewater Flushing wastewater Chemical oxygen demand, ammonia nitrogen, total nitrogen, Total phosphorus, total organic carbon, suspended solids, Volatile phenol, formaldehyde, acetonitrile, etc. Analogy method 2. Pollution coefficient method Measure b Total zinc, total cyanide, total mercury, total Arsenic, total cadmium, hexavalent chromium, total lead, Total nickel Material balance algorithm 2. Analogy 3. Pollution coefficient method Chinese patent medicine manufacturing, Chinese medicine drink Sheet processing Chemical oxygen demand, animal and vegetable oil, ammonia Nitrogen, total nitrogen, total phosphorus, total organic carbon, Suspended matter, etc. Analogy method 2. Pollution coefficient method Total zinc, total cyanide, total mercury, total Arsenic, total cadmium, hexavalent chromium, total lead, Total nickel Material balance algorithm 2. Analogy 3. Pollution coefficient method Simple drug packaging and compounding Chemical oxygen demand, ammonia nitrogen, total nitrogen, Total phosphorus, total organic carbon, suspended solids Analogy method 2. Pollution coefficient method Workshop or production facility wastewater discharge (chemical manufacturing) Total mercury, total arsenic, total cadmium, hexavalent chromium, Total lead, total nickel, etc. Material balance algorithm 2. Analogy 3. Pollution coefficient method Domestic sewage chemical oxygen demand, ammonia nitrogen Analogy method 2. Pollution coefficient method Factory outlet Chemical oxygen demand, ammonia nitrogen, total nitrogen, Total phosphorus, total organic carbon, suspended solids, Volatile phenol, formaldehyde, acetonitrile, animal growth Oil, etc. Analogy method 2. Pollution coefficient method Total zinc, total cyanide, total mercury, total Arsenic, total cadmium, hexavalent chromium, total lead, Total nickel Material balance algorithm 2. Analogy 3. Pollution coefficient method Note 1. Accounting factors include, but are not limited to, the above pollutants. Note 2. The enterprise shall identify the pollution factors that the unit needs to account according to the national standards, local standards and self-monitoring guidelines of the pollutant discharge units. Note 3. The amount of wastewater in each link should be recorded at the same time. a The existing project pollution source has not been manually monitored according to relevant management requirements, the installation of automatic pollutant monitoring equipment......Tips & Frequently Asked Questions:Question 1: How long will the true-PDF of HJ 992-2018_English be delivered?Answer: Upon your order, we will start to translate HJ 992-2018_English as soon as possible, and keep you informed of the progress. The lead time is typically 4 ~ 6 working days. The lengthier the document the longer the lead time.Question 2: Can I share the purchased PDF of HJ 992-2018_English with my colleagues?Answer: Yes. 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