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Basic dataStandard ID: HJ 519-2020 (HJ519-2020)Description (Translated English): Technical specification of pollution control for treatment of waste lead-acid battery Sector / Industry: Environmental Protection Industry Standard Classification of Chinese Standard: Z70 Word Count Estimation: 15,165 Date of Issue: 2020-03-26 Date of Implementation: 2020-03-26 Older Standard (superseded by this standard): HJ 519-2009 Regulation (derived from): Ministry of Ecology and Environment Announcement No. 22, 2020 Issuing agency(ies): Ministry of Ecology and Environment HJ 519-2020: Technical specification of pollution control for treatment of waste lead-acid battery---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 specification of pollution control for treatment of waste lead-acid battery National Environmental Protection Standards of the People's Republic of China Replace HJ 519-2009 Technical specification for pollution control of waste lead battery treatment 2020-03-26 release 2020-03-26 Implementation Issued by the Ministry of Ecology and Environment Table of contentsForeword...I 1 Scope of application...1 2 Normative references...1 3 Terms and definitions...1 4 Requirements for the collection, transportation and storage of waste lead batteries...2 5 Requirements for the construction and clean production of secondary lead enterprises...4 6 Pollution control requirements for secondary lead enterprises...5 7 Operational environmental management requirements for recycled lead enterprises...6 8 Environmental emergency plan...7 Appendix A (informative appendix) Monitoring requirements for main pollutant emissions from pyrometallurgical processes in secondary lead enterprises...8 Appendix B (informative appendix) Monitoring requirements for main pollutants discharged from hydrometallurgical process of recycled lead enterprises...10 Appendix C (informative appendix) Environmental monitoring requirements for recycled lead enterprises...11ForewordTo implement the "Environmental Protection Law of the People's Republic of China" and the "Law of the People's Republic of China on the Prevention and Control of Environmental Pollution by Solid Waste" and other laws and regulations To prevent and control pollution, protect the ecological environment, and regulate pollution control during the collection, storage, transportation, utilization and disposal of waste lead storage batteries, this standard is formulated. This standard specifies the pollution control requirements for the collection, storage, transportation, utilization and disposal of waste lead batteries. Appendix A to Appendix C of this standard are informative appendices. This standard was first published in.2009, and this is the first revision. The main content of this revision. --Modified the name of the standard; - Adjusted the scope of application of the standard; - Adjusted the collection, transportation and storage requirements of waste lead batteries; - Refinement of the requirements for the construction and clean production of secondary lead enterprises; - Refinement of pollution control requirements for secondary lead enterprises; - Refinement of environmental management requirements for the operation of recycled lead enterprises; - Increased the monitoring requirements for the main pollutants emission of the pyrometallurgical process and the hydrometallurgical process of recycled lead enterprises; - Increased the requirements for groundwater environmental monitoring of recycled lead enterprises. From the date of implementation of this standard, the "Technical Specification for Pollution Control in the Treatment of Waste Lead-acid Battery" (HJ 519-2009) shall be abolished. This standard is organized and formulated by the Solid Waste and Chemicals Department and the Laws and Standards Department of the Ministry of Ecology and Environment. The main drafting organizations of this standard. Solid Waste and Chemical Management Technology Center of Ministry of Ecology and Environment, Beijing University of Technology. This standard was approved by the Ministry of Ecology and Environment on March 26, 2020. This standard shall be implemented from the date of issuance. This standard is interpreted by the Ministry of Ecology and Environment. Technical specification for pollution control of waste lead battery treatment1 Scope of applicationThis standard specifies the pollution control requirements for the collection, storage, transportation, utilization and disposal of waste lead batteries. This standard applies to pollution control in the collection, storage, transportation, utilization and disposal of waste lead batteries, and can be used to guide recycled lead enterprises Site selection, engineering construction, and pollution control management after construction of the industry.2 Normative referencesThe content of this standard refers to the terms in the following documents. For undated reference documents, their valid versions are applicable to this standard. GB 190 Dangerous Goods Packaging Mark GB 3095 Ambient Air Quality Standard GB 12348 Environmental Noise Emission Standard at the Boundary of Industrial Enterprises GB 13392 Road Transport Vehicle Signs for Dangerous Goods GB 15562.2 Environmental Protection Graphic Sign Solid Waste Storage (Disposal) Site GB 15618 Soil Environmental Quality Agricultural Land Soil Pollution Risk Control Standard (for Trial Implementation) GB 18597 Pollution Control Standard for Hazardous Waste Storage GB 31574 Pollutant Emission Standard for Secondary Copper, Aluminum, Lead and Zinc Industry GB/T 14848 Groundwater Quality Standard HJ 863.4 Technical Specification for Application and Issuance of Pollution Discharge Permit Non-ferrous Metal Industry-Recycled Metal "Guidelines for the Preparation of Emergency Plan for Hazardous Waste Management Units" (State Environmental Protection Administration Announcement No. 48,.2007) "Assessment Index System for Cleaner Production in the Secondary Lead Industry" (National Development and Reform Commission Announcement No. 36,.2015) "Industrial Structure Adjustment Guidance Catalog (2019)" (Order No. 29 of the National Development and Reform Commission of the People's Republic of China)3 Terms and definitionsThe following terms and definitions apply to this standard. 3.1 Lead-acid battery The finger electrode is mainly made of lead and its oxide, and the electrolyte is a kind of storage battery with sulfuric acid solution or colloidal substance. 3.2 Waste lead-acid battery Refers to production, life and other activities that have lost their original use value or have been abandoned or abandoned although they have not lost their use value Lead-acid batteries do not include lead-acid batteries returned to the factory for fault detection, repair and refurbishment within the warranty period. 3.3 Electrode plate Refers to the positive and negative poles in the battery. The grid is made of lead. The surface of the positive electrode is coated with lead dioxide and the surface of the negative electrode is coated with porous and permeable gold. Belongs to lead. It usually contains chemicals such as antimony, arsenic, bismuth, cadmium, copper, calcium and tin, as well as expanding materials such as barium sulfate, carbon black and lignin. 3.4 Electrolyte Refers to a liquid or colloidal substance with ionic conductivity based on sulfuric acid. 3.5 Collection Refers to the centralized activities of scattered lead-acid batteries. 3.7 Temporary storage Refers to the activity of temporarily placing scattered lead-acid batteries at a collection point. 3.8 Storage Refers to the activities of placing centralized collection of waste lead storage batteries at centralized transfer points and recycling lead enterprises. 3.9 Collect network Refers to a place that meets the requirements of temporary storage facilities for waste lead storage batteries and is mainly used for collecting waste lead storage batteries generated in daily life. 3.10 Centralized transport spot Refers to a place for storing waste lead storage batteries of a certain scale that meets the requirements for storage facilities for waste lead storage batteries. 3.11 Lead recovery Refers to the use of various methods, technologies and processes to extract lead from waste lead batteries for easy utilization. 3.12 Recovery rate of lead Refers to the ratio of the lead content in the product to the lead content in the raw material within a certain measurement time. 3.13 Pyrometallurgy Refers to the science and technology of extracting and refining metals from ore, concentrate or other materials at high temperatures. 3.14 Hydrometallurgy Refers to the science and technology of dissolving certain metal components in ore, concentrate, calcine or other materials in an aqueous solution to extract metals from it. 3.15 Secondary lead enterprise Refers to an enterprise that uses waste lead storage batteries as raw materials, has the ability to smelt recycled lead, and holds a hazardous waste business license. 4 Requirements for the collection, transportation and storage of waste lead batteries 4.1 General requirements 4.1.1 Enterprises engaged in the collection and storage of waste lead storage batteries should obtain a hazardous waste business license in accordance with the law; Engage in the collection and storage of waste lead storage batteries in accordance with the operating license. 4.1.2 The containers or pallets for collecting, transporting, and storing waste lead storage batteries should be designed according to the characteristics of waste lead storage batteries and not easy to be damaged or deformed. The materials used can effectively prevent leakage and diffusion, and are resistant to acid corrosion. Containers or trays containing waste lead batteries must be pasted in accordance with GB Hazardous waste label required by 18597. 4.1.3 The waste lead storage battery collection and storage enterprise shall establish a waste lead storage battery collection and processing data information management system to truthfully record the collection, storage, Transfer information about the weight, source, and destination of used lead batteries, and realize data docking with the national solid waste management information system. 4.1.4 It is forbidden to dismantle, break or discard waste lead storage batteries without authorization in the process of collection, transportation and storage; it is forbidden to dump lead-containing acid electrolyte. 4.1.5 The collection, transportation and storage process of waste lead storage batteries shall not only meet the relevant requirements of environmental protection, but also meet the national safety production and occupational health The relevant requirements of regulations and standards such as health, transportation, and fire protection. 4.1.6 Waste lead battery collection companies and transportation companies should organize collection personnel, transport vehicle drivers and other relevant personnel to participate in hazardous waste environment Training in management and emergency rescue of environmental accidents. 4.2 Collection 4.2.1 Lead storage battery manufacturers should adopt independent recycling, joint recycling or entrusted recycling modes, through their own sales channels or regenerated lead The network established by enterprises and professional collection companies to collect waste lead batteries at the end of consumption can increase the collection rate by adopting methods such as "selling one, collecting one". Recycling lead companies can build a network to collect waste lead batteries through self-built or cooperation with professional collection companies. 4.2.2 Collecting enterprises can set up waste lead storage battery collection outlets in the collection area, and build waste lead storage battery centralized transfer points to facilitate transfer. 4.2.3 The following precautions should be taken during the collection of waste lead storage batteries to avoid environmental pollution accidents. a) Waste lead storage batteries should be packaged reasonably to prevent damage and electrolyte leakage during transportation. b) If the waste lead storage battery is damaged or the electrolyte leaks, the waste lead storage battery and its leakage should be stored in an acid-proof container. 4.3 Transportation 4.3.1 Waste lead storage battery transportation enterprises shall implement the relevant national regulations on the management of dangerous goods transportation, Ability to deal with leaks or other accidents. Special transportation vehicles that meet the requirements should be used to transport waste lead storage batteries. Road transport vehicles should be Corresponding signs should be hung in accordance with the provisions of GB 13392; during railway and water transportation, corresponding signs should be hung outside the container in accordance with the provisions of GB 190. Waste lead batteries that meet the requirements of national transportation and environmental protection regulations are exempted from transportation enterprise qualifications, professional vehicles and employee qualifications Grid and other road dangerous goods transportation management requirements. 4.3.2 The waste lead storage battery transportation enterprise shall formulate detailed transportation plans and routes, and formulate accident emergency plans, equipped with accident emergency and personal protection Protection equipment to ensure that environmental pollution can be effectively prevented when accidents occur during collection and transportation. 4.3.3 Effective packaging measures should be taken during the transportation of waste lead storage batteries. The damaged waste lead storage batteries should be placed in a corrosion-resistant container, and the necessary measures should be taken. The necessary measures to prevent wind, rain, leakage and spillage. 4.4 Temporary storage and storage 4.4.1 Based on the particularity of the waste lead storage battery collection process and its environmental risks, it can be divided into two methods. temporary storage at collection sites and storage at centralized transfer points. 4.4.2 The temporary storage time of collection outlets should not exceed 90 days, and the weight should not exceed 3 tons; the longest storage time of centralized transfer points should not exceed 1 year. The storage scale should be smaller than the design capacity of the storage site. 4.4.3 The temporary storage facilities of collection outlets shall meet the following requirements. a) A special storage area should be divided, with an area of not less than 3m2. b) There are measures to prevent the damage of waste lead batteries and electrolyte leakage, hardened ground and corrosion-resistant packaging containers. d) Post reminder information and warning signs for the collection of waste lead-acid batteries in prominent locations. 4.4.4 The storage facilities at the centralized transfer point of waste lead storage batteries shall be subjected to environmental impact assessment, and construction and management shall be carried out in accordance with the relevant requirements of GB 18597. Management, meet the following requirements. a) It should be protected from rain and must be far away from other water and heat sources. b) The area is not less than 30m2, with hardened ground and necessary anti-seepage measures. c) There should be interception tanks, diversion channels, temporary emergency tanks and waste liquid collection systems. d) It should be equipped with communication equipment, metering equipment, lighting facilities, and video surveillance facilities. e) Warning signs should be set up, and only specialized personnel who collect waste lead storage batteries are allowed to enter. f) There should be an exhaust ventilation system to ensure good ventilation. g) Corrosion-resistant, non-destructive special containers should be equipped for separate storage of open-ended lead-acid batteries and damaged sealed Type maintenance-free waste lead batteries. 4.4.5 It is forbidden to stack the waste lead storage battery in the open field to avoid the waste lead storage battery being exposed to rain.5 Requirements for construction and clean production of secondary lead enterprises5.1 General requirements 5.1.1 The construction of secondary lead enterprises should undergo sufficient technical and economic demonstration and pass environmental impact assessment, including environmental risk assessment. 5.1.2 The determination of the production scale and the selection of detailed technical routes for secondary lead enterprises should be based on the The level of economic development, overall urban planning, technological advancement, etc. shall be reasonably determined; the scale of new, renovated, and expanded secondary lead projects shall comply with the "Production Industry Structure Adjustment Guidance Catalogue (2019). 5.1.3 The utilization and disposal of waste lead storage batteries should adopt mature and reliable technologies, processes and equipment to ensure stable operation, convenient maintenance, economical and reasonable protect environment. It is prohibited to use outdated equipment that is immediately eliminated according to the national industrial policy. 5.1.4 Enterprises without the ability to regenerate lead shall not dismantle waste lead batteries. 5.2 Site selection requirements 5.2.1 The site selection shall comply with environmental protection laws and regulations and relevant statutory planning requirements. 5.2.2 Recycled lead companies should not be selected in the ecological Protect the red line area, permanent basic farmland concentration area and other areas that need special protection. 5.2.3 The site selection should also meet the following conditions. a) It should meet the engineering geological conditions, hydrogeological conditions and meteorological conditions of the project construction, and should not be selected for seismic faults, landslides, and debris Currents, swamps, quicksand, mining hidden areas and residential areas dominate the wind upwind direction. b) The site selection should comprehensively consider factors such as traffic, transportation distance, land use status, and infrastructure conditions. c) Should not be threatened by floods, tides or waterlogging, or have reliable flood control and drainage measures. d) There should be water sources for production and living nearby. e) Power supply should be guaranteed nearby. 5.3 Requirements for facility construction 5.3.1 The secondary lead enterprise shall include the pretreatment system, lead smelting system, environmental protection facilities, and corresponding supporting engineering and production management facilities. 5.3.2 Warning signs should be set up in accordance with the requirements of GB 15562.2 at the entrances and exits, storage facilities and disposal sites of recycled lead enterprises. 5.3.3 An isolation enclosure structure should be set up at the legal boundary to prevent the entry of irrelevant persons, poultry and pets. 5.3.4 Waste lead storage battery storage warehouses and workshops should be designed with micro-negative pressure, and indoor exhaust air must be purified to reach GB 31574 After the requirements are discharged. In principle, the storage time of waste lead batteries shall not exceed 1 year. The storage capacity of waste lead battery storage warehouse should not be lower than utilization Utilization and disposal of disposal facilities on 15 days. 5.3.5 The lead recovery rate of secondary lead enterprises should be greater than 98%, and the specific calculation refers to the relevant provisions of the "Cleaner Production Evaluation Index System for the Secondary Lead Industry". 5.3.6 The process of regenerating lead should adopt closed smelting equipment or hydrometallurgical process equipment, and produce under negative pressure to prevent exhaust gas from escaping. 5.3.7 There should be complete wastewater and waste gas treatment facil......Tips & Frequently Asked Questions:Question 1: How long will the true-PDF of HJ 519-2020_English be delivered?Answer: Upon your order, we will start to translate HJ 519-2020_English as soon as possible, and keep you informed of the progress. 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