HJ 1086-2020 English PDFUS$259.00 · In stock
Delivery: <= 3 days. True-PDF full-copy in English will be manually translated and delivered via email. HJ 1086-2020: Self-monitoring technology guidelines for pollution sources--Coating Status: Valid
Basic dataStandard ID: HJ 1086-2020 (HJ1086-2020)Description (Translated English): Self-monitoring technology guidelines for pollution sources--Coating Sector / Industry: Environmental Protection Industry Standard Classification of Chinese Standard: Z27 Classification of International Standard: 13.030 Word Count Estimation: 11,150 Date of Issue: 2020 Date of Implementation: 2020-04-01 Issuing agency(ies): Ministry of Ecology and Environment HJ 1086-2020: Self-monitoring technology guidelines for pollution sources--Coating---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.Self-monitoring technology guidelines for pollution sources--Coating National Environmental Protection Standard of the People's Republic of China Guidelines for self-monitoring of sewage discharge units Self-monitoring technology guidelines for pollution sources -Coating 2020-01-06 released 2020-04-01 implementation Ministry of Ecology and Environment ContentsForeword ... 1 Scope ... 1 2 Normative references ... 1 3 Terms and definitions ... 1 4 General requirements for self-monitoring ... 2 5 Monitoring plan development ... 2 6 Information logging and reporting ... 6 7 Others ... 7ForewordIn order to implement the "Environmental Protection Law of the People's Republic of China" Law on Air Pollution Control of the People's Republic of China, "Administrative Measures for Pollutant Discharge Permits (Trial)", which guides and regulates industrial pollution discharge units with coating procedures Monitoring work to develop this standard. This standard sets out the general requirements for self-monitoring of industrial sewage units with coating processes, the formulation of monitoring plans, and information recording. And the basic content and requirements of the report. This standard is issued for the first time. This standard is proposed and organized by the Department of Eco-Environment Monitoring, the Department of Regulations and Standards of the Ministry of Ecology and Environment. The main drafting organizations of this standard. the Fourth Design and Research Institute of Machinery Industry Co., Ltd. Xin, Henan Environmental Monitoring Center. This standard was approved by the Ministry of Ecology and Environment on January 6, 2020. This standard will be implemented from April 01, 2020. This standard is explained by the Ministry of Ecology and Environment. Guidelines for self-monitoring of sewage discharge units1 ScopeThis standard specifies the general requirements for self-monitoring of industrial sewage discharge units including the coating process, the development of monitoring programs, information recording and reporting. Basic content and requirements. This standard applies to water, air pollutants, noise, Carry out self-monitoring of environmental quality impacts. This standard does not apply to "Product Lifecycle Process Knowledge for Equipment Manufacturing-Part 1. General Manufacturing Process Classification" (GB/T 22124.1) for the thermal spraying process defined in the self-monitoring, refer to the "General Guidelines for Self-Monitoring Technical Guidelines for Sewage Units" (HJ 819) Or other industry guides. The self-monitoring requirements for the self-provided thermal power generating units (plants) and supporting boilers of the pollutant discharge units are in accordance with Power Generation and Boiler "(HJ 820).2 Normative referencesThe content of this standard refers to the following documents or clauses therein. For undated references, the valid version (including all The modification list) applies to this standard. GB 12348 Environmental noise emission standards for industrial enterprises GB/T 22124.1 Product Lifecycle Process Knowledge for Equipment Manufacturing Part 1. General Manufacturing Process Classification HJ 194 Technical Specifications for Manual Monitoring of Ambient Air Quality HJ 442 Specifications for Environmental Monitoring in Coastal Waters HJ 664 Technical Specification for Ambient Air Quality Monitoring Locations (Trial) HJ 819 Technical Guidelines for Self-monitoring of Sewage Units HJ 820 Technical Guideline for Self-monitoring of Sewage Units HJ 964 Technical Guidelines for Environmental Impact Assessment Soil Environment (Trial) HJ/T 55 Technical guidelines for fugitive emissions monitoring of air pollutants HJ/T 91 Technical specifications for surface water and sewage monitoring HJ/T 164 Technical Specifications for Groundwater Environmental Monitoring HJ/T 166 Technical Specifications for Soil Environmental Monitoring "Circular of the State Council on Printing and Distributing a Three-Year Action Plan to Win the Blue Sky Defense War" (Guo Fa [2018] No. 22) Catalogue of Classified Management of Pollutant Discharge Permits for Fixed Pollution Sources National Hazardous Waste List "Clean Production Evaluation Index System for Coating Industry" (Announcement.2016 of National Development and Reform Commission, Ministry of Environmental Protection, Ministry of Industry and Information Technology 21st of the year) "Administrative Regulations on the List of Key Pollutant Discharge Units (Trial)" (Environment Office Monitoring [2017] No. 86)3 terms and definitionsThe terms and definitions defined in GB/T 22124.1, HJ 819, "Clean Production Evaluation Index System for Coating Industry" and the following terms apply to this standard. 3.1 Coating Adopt suitable construction methods and technology to apply different kinds of coatings on the surface of the object and firmly adhere to the coating of the coated object Film forming process. Including coating preparation, mechanical pretreatment (shot blasting, sanding, blasting, shot blasting, cleaning, etc.), chemical pretreatment (solvent scrubbing, acid Rust removal, scrub rust removal and chemical degreasing, etc.), conversion film treatment (phosphating, passivation, zirconization, silanization, chemical oxidation, etc.), coating (including (Primer, middle coat, top coat, varnish, glue), leveling, curing and film production processes. 3.2 Spraying coat A coating method for applying paint to the surface of a coating object by means of a spray gun or an atomizer by means of pressure, centrifugal force, electric field force, and the like. 3.3 Volatile organic compounds (VOCs) Organic compounds that participate in atmospheric photochemical reactions, or organic compounds determined by measurement or accounting according to prescribed methods. When characterizing the overall emissions of VOCs, according to industry characteristics and environmental management requirements, total volatile organic compounds (as TVOC (Represented), non-methane total hydrocarbons (represented by NMHC) as pollutant control projects. 3.4 Direct discharge Refers to the act of a pollutant discharge unit directly discharging water pollutants into environmental water bodies. 3.5 Indirect discharge Refers to the discharge of pollutants by sewage units into public sewage treatment systems. 3.6 Rainwater outlet Refers to discharge outlets that discharge natural precipitation directly outside the plant boundary, directly or through facilities such as trenches, canals, or pipelines. 4 General requirements for self-monitoring Pollutant discharge units should find out their own pollution sources, pollutant indicators and potential environmental impacts, formulate monitoring plans, set up and maintain monitoring Monitoring facilities, carry out self-monitoring in accordance with the monitoring plan, do a good job of quality assurance and quality control, record and retain monitoring data and information, and Disclose the monitoring results to the public.5 Monitoring plan development5.1 Wastewater discharge monitoring 5.1.1 Monitoring points There is a conversion membrane treatment process or other special processes, and the wastewater containing the first type of pollutants must be discharged in the workshop or production facility. Set the monitoring point position. All industrial sewage discharge units with coating processes must set monitoring points at the total waste water outlet; domestic sewage is discharged directly into the external environment separately It is also necessary to set monitoring points at domestic sewage discharge outlets. 5.1.2 Monitoring indicators and frequency The wastewater discharge monitoring point, monitoring index and minimum monitoring frequency of the sewage unit shall be implemented in accordance with Table 1. Table 1 Wastewater discharge monitoring points, monitoring indicators and minimum monitoring frequency Monitoring point unit property monitoring index Monitoring frequency Direct emissions indirect emissions Workshop or production Facility wastewater discharge Let go Key pollutant discharge unit Flow, hexavalent chromium a, total chromium a, total nickel a Quarters of non-key sewage units Total wastewater discharge Key pollutant discharge unit Automatic monitoring of flow rate, pH value, COD, ammonia nitrogen, total phosphorus Total nitrogen, suspended matter, petroleum, anionic surfactant (LAS) Month quarter Fluoride a, total zinc a, total manganese a, total copper a Non-key pollutant discharge units Flow, pH, COD, ammonia nitrogen, total phosphorus, total nitrogen, Suspended matter Quarter half year Domestic sewage Let go Key pollutant discharge unit Automatic monitoring of flow rate, pH value, COD, ammonia nitrogen, total phosphorus- Total nitrogen, suspended matter, five-day biochemical oxygen demand, animal and vegetable oil quarter- Non-key pollutant discharge units Flow, pH, COD, ammonia nitrogen, total phosphorus, total nitrogen, Suspended matter Quarter- Rainwater discharge outlet pH value, chemical oxygen demand, suspended matter monthb Note. The key pollutant discharge units in this standard are classified and managed according to environmental factors, and they are included in the list of key pollutant discharge units in the water environment. aAccording to the actual production situation such as the use of raw and auxiliary materials, determine specific monitoring indicators of characteristic pollutants. Non-generated pollutants may not be monitored. bMonthly monitor for rainwater discharge when there is flowing water discharge. If there is no abnormal situation in the monitoring for one year, it can be relaxed to carry out monitoring once a quarter. 5.2 Exhaust emission monitoring 5.2.1 Organized exhaust emission monitoring points, indicators and frequencies Organized exhaust emission monitoring points, monitoring indicators and minimum monitoring frequency of pollutant discharge units shall be implemented in accordance with Table 2. Table 2 Organized exhaust emission monitoring points, monitoring indicators and minimum monitoring frequency produce Process Monitoring point monitoring index Monitoring frequency Non-key emissions from key pollutant discharge units Main discharge outlets of polluting units Foresee Mechanical pre-treatment shot blasting, sanding, sand blasting, blasting Exhaust exhaust pipe for pellets, cleaning, etc. Particulate matter quarterly half year Chemical pretreatment (pickling) exhaust gas exhaust tubea Nitrogen oxides, hydrogen chloride, sulfuric acid mist quarterly half a year produce Process Monitoring point monitoring index Monitoring frequency Non-key emissions from key pollutant discharge units Main discharge outlets of polluting units Coated Exhaust exhaust cylinder for water-based paint coating facilities Particulate matter b, volatile organic matter c, special Contamination d Quarterly half year Solvent paint coating (including solvent scrubbing) facilities Exhaust exhaust Volatile c Six months of particulate matter b, benzene, toluene, xylene, Characteristic pollutant d Quarter Powder coating coating facility exhaust gas exhaust particulate matter quarterly half year Fossil fuel combustion exhaust gas coating facility Exhaust exhaust e Particulate matter, sulfur dioxide, nitrogen oxides Solidify Film formation Waste of water-based coating (including glue) curing film-forming facilities Air exhaust Volatile organic matter c, characteristic pollutant d quarterly half year Solvent coating (including glue) curing film forming facility waste Air exhaust Volatile c Benzene, toluene, xylene, characteristic pollution Quarter Exhaust gas exhaust from powder coating curing film formation facility Volatile Organic Compounds Solidified film formed by mixing with fossil fuel combustion exhaust gas Facility exhaust exhaust e Particulate matter, sulfur dioxide, nitrogen oxides other Volatile organic compounds in exhaust ducts for production facilities such as spot repair, paint adjustment, etc. Intermediate grinding production facility exhaust gas exhaust particles Process heating furnace production facilities exhaust pipe particulate matter, sulfur dioxide, nitrogen oxides Dust-containing exhaust gas discharge, such as cutting, processing, welding Particulate matter quarterly half year Resin fiber, plastic processing, etc. Inflator Volatile Organic Compounds Note 1. The flue gas parameters must be monitored synchronously in accordance with the corresponding monitoring analysis methods and technical specifications. Note 2. According to the environmental impact assessment document and its approval, combined with the project process and production and sewage characteristics, the monitoring points included in the project are selected for monitoring. Note 3. The key pollutant discharge units in this standard are classified and managed according to environmental factors, and are included in the list of key pollutant discharge units in the atmospheric environment. Note 4. The main emission outlets of this standard are the main emission outlets determined by the “Industrial Application Standards for Pollutant Discharge Permits and Technical Specifications”. Note 5. The main discharge outlets of industrial pollution discharge units with coating processes that are included in the list of key pollutant discharge units by the eco-environment departments at or above the city level in districts should implement the "National Issued [2018] No. 22 "on the requirements for installing automatic monitoring facilities for smoke emissions. aDetermine specific monitoring indicators based on the raw materials and process characteristics. b It is applicable to the situation of generating particulate pollutants by spraying process. c Characterization of volatile organic compounds is determined in accordance with the emission standards implemented. The monitoring frequencies in this table apply to situations characterized by non-methane total hydrocarbons. If it is characterized by TVOC, the monitoring frequency is. the main emissions of key pollutant discharge units The outlets are once every six months, and the general discharge outlets of non-key pollutant discharge units and the non-key pollutant discharge units are once a year. Carry out TVOC monitoring according to the following principles. according to the raw materials, production processes, products or by-products used by the company, combined with the implemented emission standards And related environmental management requirements, screening and determination of substances included in TVOC; single substances without national pollutant monitoring method standards, pending national pollutant monitoring Implementation of test method standards. In the implementation of the emission standards for non-methane total hydrocarbons and TVOC limit requirements, the above monitoring frequency requirements should be met at the same time. d According to relevant environmental management regulations such as pollution discharge permits, environmental impact assessment documents and their approvals, determine specific monitoring indicators for characteristic pollutants; After the release of industrial pollutant emission standards, follow its provisions; if there are requirements for local emission standards, follow its provisions. e is only applicable when the exhaust pipe is mixed with traditional fossil fuel combustion exhaust gas. 5.2.2 Monitoring points, indicators and frequency of fugitive exhaust emissions The setting, monitoring index and minimum monitoring frequency of the fugitive units' unorganized exhaust gas emissions shall be implemented in accordance with Table 3. Table 3 Monitoring points, monitoring indicators and minimum monitoring frequency of fugitive exhaust emissions Monitoring point monitoring frequency VOCs a, particulate matter and characteristic pollutants b Next to the coating section c Volatile organic compounds a, particulate matter, characteristic pollutants b Quarter Note. If there are sensitive points around, the monitoring frequency should be increased appropriately. a Characterizing substances for volatile organic compounds are determined in accordance with the emission standards implemented. The monitoring frequencies in this table apply to situations characterized by non-methane total hydrocarbons. If it is characterized by TVOC, the monitoring frequency is as follows. the key pollutant discharge unit is once every six months, Non-key pollutant discharge units are once a year. Carry out TVOC monitoring according to the following principles. according to the raw materials, production processes, products or by-products used by the company, combined with the implemented emission standards And related environmental management requirements, screening and determination of substances included in TVOC; single substances without national pollutant monitoring method standards, pending national pollutant monitoring Implementation of test method standards. In the implementation of the emission standards for non-methane total hydrocarbons and TVOC limit requirements, the above monitoring frequency requirements should be met at the same time. b Determine specific monitoring indicators of characteristic pollutants according to relevant environmental management regulations such as sewage permits, environmental impact assessment documents and their approvals; After the release of industrial pollutant emission standards, follow its provisions; if there are requirements for local emission standards, follow its provisions. c Applicable to the situation where there is no enclosed space in the coating section, such as the dock and dock sections of the shipbuilding industry. For the setting of monitoring points, see HJ/T 55 5.3 Monitoring of factory boundary environmental noise The setting of the environmental noise monitoring points at the factory boundary should follow the principles in HJ 819 and the requirements in GB 12348. Noise sources such as shot blasting, sand blasting, shot blasting, sanding, pump motors, cooling towers, air-conditioning units, air compressors, fans, and freezers are in the factory area Distribution. The monitoring point setting, monitoring index and minimum monitoring frequency shall be implemented according to Table 4. Table 4 Noise emission monitoring points, monitoring indicators and minimum monitoring frequency Monitoring point monitoring frequency Factory Equivalent Continuous A Sound Level (Leq) Quarter Note 1. There are sensitive points in the surrounding area, and the monitoring frequency should be increased appropriately. Note 2. Night production must be monitored for night noise. 5.4 Monitoring of surrounding environmental quality impact 5.4.1 Laws and regulations or environmental impact assessment documents and their approvals [only obtained after January 1,.2015 (inclusive) environmental impact assessment approvals If there is a clear stipulation in the complex sewage unit, it shall be implemented as required. 5.4.2 If there is no clear requirement, if the pollutant discharge unit deems it necessary, the surrounding water, soil and air environment quality may be monitored. Can press Set ambient air, groundwater, and soil according to relevant re......Tips & Frequently Asked Questions:Question 1: How long will the true-PDF of HJ 1086-2020_English be delivered?Answer: Upon your order, we will start to translate HJ 1086-2020_English as soon as possible, and keep you informed of the progress. The lead time is typically 1 ~ 3 working days. 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