GB 18598-2019 English PDFUS$459.00 · In stock
Delivery: <= 5 days. True-PDF full-copy in English will be manually translated and delivered via email. GB 18598-2019: Standard for pollution control on the hazardous waste landfill Status: Valid GB 18598: Historical versions
Basic dataStandard ID: GB 18598-2019 (GB18598-2019)Description (Translated English): Standard for pollution control on the hazardous waste landfill Sector / Industry: National Standard Classification of Chinese Standard: Z70 Classification of International Standard: 13.030.10 Word Count Estimation: 23,216 Date of Issue: 2019 Date of Implementation: 2020-06-01 Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration GB 18598-2019: Standard for pollution control on the hazardous waste landfill---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.(Hazardous waste landfill pollution control standard) ICS National Standards of People's Republic of China Replace GB 18598-2001 Hazardous waste landfill pollution control standard Standard for pollution control on the hazardous waste landfill Published on.2019-09-30 2020-06-01 implementation Ministry of Ecology and Environment State market supervision and administration release ContentForeword...I 1 Scope...1 2 Normative references...1 3 Terms and Definitions...3 4 Landfill site selection requirements...5 5 Design, Construction and Quality Assurance...6 6 Admission requirements for landfill waste...8 7 Landfill Operation Management Requirements...9 8 Landfill pollutant emission control requirements...9 9 Closing requirements...11 10 Monitoring requirements...11 11 Implementation and supervision...15 Appendix A (informative appendix) Schematic diagram of rigid landfill and double artificial composite lining...16 Appendix B (normative appendix) Calculation method for leakage rate and acceptable leakage rate of main anti-seepage layer...17ForewordTo implement the "Environmental Protection Law of the People's Republic of China" Law of the People's Republic of China on Soil Pollution Prevention and Control, this standard specifies the entry conditions for landfill of hazardous waste, the site selection of landfills, Ecological environmental protection requirements for design, construction, operation, closure and monitoring. This standard was first published in.2001 and this is the first revision. The main contents of this revision. Standardize the technical requirements for site selection of hazardous waste landfill sites; Strict entry criteria for hazardous waste landfills; Restricted the discharge control requirements of hazardous waste landfills; Improve the technical requirements for the operation and monitoring of hazardous waste landfills. The odorous pollutants and environmental noise emitted by hazardous waste landfills shall be subject to the corresponding national pollutant discharge standards. Dangerous waste Self-monitoring of landfills shall be carried out in accordance with the requirements of this standard, and shall be subject to the regulations after the self-monitoring guidelines of the pollutant discharge units of the industry are released. set. Appendix A of this standard is an informative appendix and Appendix B is a normative appendix. From the date of implementation of this standard, the "Hazardous Waste Landfill Pollution Control Standards" (GB 18598-2001) shall be abolished. Provincial people's governments may formulate local pollutant discharges for atmospheric and water pollutants items not specified in this standard. Standards; for atmospheric and water pollutants projects already specified in this standard, local pollutant discharges that are stricter than this standard may be formulated. standard. This standard is formulated by the Department of Solid Waste and Chemicals, Department of Regulations and Standards of the Ministry of Ecology and Environment. This standard is mainly drafted by. China Academy of Environmental Sciences, Beijing High Energy Times Environmental Technology Co., Ltd. This standard was approved by the Ministry of Ecology and Environment on September 12,.2019. This standard has been implemented since June 1, 2020. This standard is explained by the Ministry of Ecology and Environment. Hazardous waste landfill pollution control standard1 Scope of applicationThis standard specifies the entry conditions for landfill of hazardous waste, site selection, design, construction, operation, closure and supervision of landfills. Environmental protection requirements for testing. This standard is applicable to the pollution control of the construction, operation, closure and environmental management process of new hazardous waste landfills. system. Admission requirements, operational requirements, pollutant discharge requirements, environmental protection after closure and closure of existing hazardous waste landfills Requirements and monitoring requirements shall be implemented in accordance with this standard. This standard is applicable to the environmental pollution of hazardous waste landfills by competent environmental authorities. Supervision and management of dyeing prevention and control. This standard does not apply to the disposal of radioactive waste and the temporary disposal of hazardous waste in the event of an accident.2 Normative referencesThe contents of this standard refer to the terms in the following documents. For undated references, the valid version applies to This standard. GB 5085.3 Identification criteria for hazardous wastes GB 6920 Determination of pH of water - Glass electrode method GB 7466 Determination of total chromium in water (Part 1) GB 7467 -- Determination of hexavalent chromium -- Dibenzoyl hydrazide spectrophotometric method GB 7470 -- Determination of lead in water -- Dithizone spectrophotometric method GB 7471 Determination of cadmium in water -- Dithizone spectrophotometric method GB 7472 -- Determination of zinc in water -- Dithizone spectrophotometric method GB 7475 - Determination of copper, zinc, lead and cadmium - Atomic absorption spectrophotometric method GB 7484 Determination of fluoride in water quality - Ion selective electrode method GB 7485 -- Determination of total arsenic in water - s. GB 8978 Integrated Wastewater Discharge Standard GB 11893 Determination of total phosphorus in water - Ammonium molybdate spectrophotometric method GB 11895 Determination of benzo (α) pyrene - acetylated filter paper chromatographic spectrophotometric method GB 11901 Determination of suspended solids by weight method GB 11907 Determination of silver in water -- Flame atomic absorption spectrophotometric method GB 16297 Integrated emission standards for atmospheric pollutants GB 37822 Volatile Organic Compounds Unorganized Emission Control Standard GB 50010 concrete structure design specification GB 50108 Underground Engineering Waterproof Technical Specifications GB/T 14204 Water quality - Determination of alkyl mercury - Gas chromatography GB/T 14848 Groundwater Quality Standard GB/T 15555.1 Determination of total mercury in solid waste - Cold atomic absorption spectrophotometric method GB/T 15555.3 Determination of arsenic in solid waste - Diethyldithiocarbamate silver spectrophotometric method GB/T 15555.4 Determination of hexavalent chromium in solid waste - Diphenylcarbazide spectrophotometric method GB/T 15555.5 Determination of total chromium in solid waste - Diphenylcarbazide spectrophotometric method GB/T 15555.7 Determination of hexavalent chromium in solid waste - Ammonium sulphate titration GB/T 15555.10 Determination of nickel in solid waste - succinimide spectrophotometric method GB/T 15555.11 Determination of fluoride in solid waste - Ion selective electrode method GB/T 15555.12 Determination of corrosion of solid wastes - Glass electrode method HJ 84 Water quality inorganic anions (F-, Cl-, NO2-, Br-, NO3-, PO43-, SO32-, SO42-) Determination of ion chromatography HJ 478 Water quality determination of polycyclic aromatic hydrocarbons - Liquid - liquid extraction and solid phase extraction - High performance liquid chromatography HJ 484 Determination of water cyanide - Volumetric method and spectrophotometric method Water quality - Determination of copper - diethyldithiocarbamate spectrophotometric method Water quality -- Determination of copper 2,9-dimethyl-1,10-phenanthroline spectrophotometric method HJ 487 Determination of fluoride in water quality - Zirconium sulphonate HJ 488 Determination of fluoride in water - Fluorescence spectrophotometric method HJ 489 Determination of silver in water 3,5-Br2-PADAP spectrophotometric method HJ 490 Determination of silver in water - cadmium reagent 2B spectrophotometric method HJ 501 Determination of Total Organic Carbon in Water - Combustion Oxidation - Non-dispersive Infrared Absorption Method HJ 505 Water quality five-day biochemical oxygen demand (BOD5) determination dilution and inoculation method HJ 535 Water quality - Determination of ammonia nitrogen - Nyna reagent spectrophotometric method HJ 536 - Determination of ammonia nitrogen - Water salic acid spectrophotometric method HJ 537 Determination of water ammonia nitrogen - Distillation - Neutralization titration HJ 597 Determination of total mercury in water - Cold atomic absorption spectrophotometric method HJ 602 Determination of water quality - Graphite furnace atomic absorption spectrophotometric method HJ 636 Determination of total nitrogen in water - Alkaline potassium persulfate digestion - UV spectrophotometric method HJ 659 Determination of water cyanide, etc. Vacuum test tube - electronic colorimetry HJ 665 Determination of ammonia nitrogen in water - Continuous flow - Salicylic acid spectrophotometric method HJ 666 Water quality - Determination of ammonia nitrogen - Flow injection - salicylic acid spectrophotometric method HJ 667 Determination of total nitrogen in water - Continuous flow - Naphthylethylenediamine hydrochloride spectrophotometric method HJ 668 Determination of total nitrogen in water - Flow injection - Naphthyldiamine hydrochloride spectrophotometric method HJ 670 Determination of water quality - Phosphate and total phosphorus - Continuous flow - Ammonium molybdate spectrophotometric method HJ 671 Determination of total phosphorus in water - Flow injection - Ammonium molybdate spectrophotometric method HJ 687 Determination of hexavalent chromium in solid waste - Alkaline digestion/flame atomic absorption spectrophotometric method HJ 694 Determination of mercury, arsenic, selenium, tellurium and strontium HJ 700 Water quality - Determination of 65 elements - Inductively coupled plasma mass spectrometry HJ 702 Determination of Mercury, Arsenic, Selenium, Tellurium and Tellurium in Solid Wastes by Microwave Digestion/Atomic Fluorescence HJ 749 Determination of total chromium in solid waste - Flame atomic absorption spectrophotometric method HJ 750 Determination of total chromium in solid waste - Graphite furnace atomic absorption spectrophotometric method Determination of nickel and copper in solid waste -- Flame atomic absorption spectrophotometric method HJ 752 solid waste - Determination of nickel, copper and molybdenum - Atomic absorption spectrophotometric method HJ 761 Determination of organic matter in solid wastes HJ 766 Determination of metallic elements in solid waste - Inductively coupled plasma mass spectrometry HJ 767 Determination of solid waste 石墨 Graphite furnace atomic absorption spectrophotometry HJ 776 Determination of 32 elements in water quality by inductively coupled plasma atomic spectroscopy HJ 781 Determination of 22 Metal Elements in Solid Wastes by Inductively Coupled Plasma Atomic Emission Spectrometry HJ 786 - Determination of lead, zinc and cadmium - Atomic absorption spectrophotometric method HJ 787 solid waste - Determination of lead and cadmium by graphite furnace atomic absorption spectrophotometry HJ 823 Determination of water cyanide - Flow injection - spectrophotometric method HJ 828 Determination of chemical oxygen demand in water - Dichromate method HJ 999 Determination of fluorine in solid waste - Alkali fusion-ion selective electrode method HJ/T 59 Determination of water quality 石墨 Graphite furnace atomic absorption spectrophotometric method HJ/T 91 Surface Water and Wastewater Monitoring Technical Specifications HJ/T 195 Determination of ammonia nitrogen in water quality - Gas chromatography HJ/T.199 Determination of total nitrogen in water -- Gas phase molecular absorption spectroscopy HJ/T 299 solid waste leaching toxicity leaching method sulfuric acid nitric acid method HJ/T 399 Determination of chemical oxygen demand in water - Rapid digestion spectrophotometric method CJ/T 234 high density polyethylene geomembrane for landfill CJJ 113 Domestic Waste Sanitary Landfill Anti-seepage System Engineering Technical Specification Technical specification for geotechnical engineering of CJJ 176 domestic waste sanitary landfill NY/T 1121.16 Soil testing - Part 16. Determination of total water soluble salts Measures for the Automatic Monitoring and Control of Pollution Sources (Order No. 28 of the State Environmental Protection Administration)3 Terms and definitions3.1 hazardous waste Listed in the national hazardous waste list or identified according to the national hazardous waste identification standards and identification methods Solid waste with hazardous properties. 3.2 Hazardous waste landfill A land disposal facility for the disposal of hazardous waste consisting of several disposal units and structures, mainly including receiving And storage facilities, analysis and identification systems, pretreatment facilities, landfill disposal facilities (including. anti-seepage systems, leachate) Collection and drainage systems), closure systems, leachate and wastewater treatment systems, environmental monitoring systems, emergency facilities and His public works and supporting facilities. Landfills referred to in this standard refer to hazardous waste landfills. 3.3 Compatibility compatibility A hazardous waste does not produce gas, heat or harmful substances when it comes into contact with other hazardous wastes or other substances in the landfill. It will not burn or explode, and there will be no other reactions or changes that may adversely affect the landfill. 3.4 Flexible landfill flexible landfill A double artificial composite lining is used as a landfill disposal facility for the anti-seepage layer. 3.5 rigid landfill concrete landfill Reinforced concrete is used as a landfill disposal facility for seepage prevention structures. Its composition is shown in Appendix A, Figure A.1. 3.6 natural foundation layer Located in the lower part of the impervious lining, the base layer consists of undisturbed soil. 3.7 Anti-seepage lining landfill liner Percolation prevention consisting of clay lining and synthetic material lining at the bottom and slope of a hazardous waste landfill The liquid enters the barrier layer of the groundwater. 3.8 double artificial composite liner double artificial composite liner An anti-seepage liner consisting of two layers of synthetic material lining and clay lining. Its composition is shown in Appendix A, Figure A.2. 3.9 Leak detection layer Located between the double artificial composite liners, collecting, draining, and detecting the leakage of liquid through the primary barrier layer. 3.10 acceptable leakage rate acceptable leakage rate The maximum acceptable leakage rate detected in the leak detection layer. See Appendix B for the specific calculation method. 3.11 water-soluble salt Chloride, sulfate, carbonate and other soluble substances in solid waste. 3.12 Liner leakage detection Whether the artificial synthetic material lining (such as high density polyethylene film) is damaged or broken by electric method and other methods The damage location is detected. Impervious layer integrity testing includes landfill construction acceptance testing and testing during and after the closure. 3.13 Landfill stability landfill stability Uneven settlement and landslides in the construction, operation and closure of landfills, landfills and closure systems Mechanical properties of collapse and other phenomena. 3.14 public sewage treatment system Collect wastewater through sewage pipelines, provide wastewater treatment services for two or more sewage disposal units, and drain Enterprises or institutions that meet the relevant emission standards, including urban sewage treatment plants of various sizes and types, and regions (including Various types of industrial parks, development zones, industrial agglomerations, etc.) wastewater treatment plants, etc., the degree of wastewater treatment should reach two or two the above. 3.15 direct discharge The behavior of pollutant discharge units directly discharging pollutants into the environment. 3.16 indirect discharge The discharge of pollutants by the pollutant discharge unit to the public sewage treatment system. 3.17 Existing hazardous waste landfill Before the date of implementation of this standard, a hazardous waste landfill that has been approved for production or environmental impact assessment documents has been completed. 3.18 new hazardous waste landfill new-built hazardous waste landfill After the implementation of this standard, the environmental impact assessment document has been approved for the construction, reconstruction or expansion of hazardous waste landfills. 3.19 Design life expectancy When landfill design is carried out, the landfill has been determined with full consideration of landfill construction, operation and maintenance, etc. The expected time to block the function of the waste from contacting the environmental medium. Realizing the barrier function requires reasonable site selection and regulation of the landfill Effective measures such as construction and safe operation were completed.4 Landfill site selection requirements4.1 The site selection of the landfill should comply with environmental protection laws and regulations and relevant statutory planning requirements. 4.2 The location of the landfill site and the distance from the surrounding population should be determined based on the conclusion of the environmental impact assessment. When conducting environmental impact assessments on hazardous waste landfill sites, priority should be given to the potential for landfill leachate in hazardous waste landfills. The risks, the long-term safety of the landfill structure and the anti-seepage layer, and the resulting risk of leakage, etc., according to their location The regional functional area category, combined with the long-term development plan of the area and the design life of the landfill, focusing on its evaluation of the week The long-term effects of the groundwater environment, the physical health of the residents, daily life and production activities, and the determination of their permanent residents Reasonable positional relationship between residential areas, agricultural land, surface water bodies and other sensitive objects. 4.3 Landfill sites should not be selected in the relevant departments of the State Council and the State Council and the people's governments of provinces, autonomous regions and municipalities directly under the Central Government. The ecological protection red line area, permanent basic farmland and other areas that require special protection. 4.4 Landfill sites should not be selected in the following areas. destructive earthquakes and active tectonic zones, tsunami and swell affected areas; wetlands; Areas where ground stress is highly concentrated, ground elevation or sedimentation rate is fast; limestone cave development zone; abandoned mining area, subsidence zone; Collapse, rock piles, landslide areas; areas affected by flash floods and mudslides; active dune areas; alluvial fans and gully areas that have not yet stabilized Other areas that may compromise the safety of the landfill. 4.5 The elevation of the landfill site should be located above the flood level with a return period of not less than 100 years and the water in the long-term plan. 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