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HJ 2042-2014 English PDF

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HJ 2042-2014: General specifications of engineering and technology for hazardous waste disposal
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HJ 2042-2014599 Add to Cart 4 days General specifications of engineering and technology for hazardous waste disposal Valid

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Basic data

Standard ID: HJ 2042-2014 (HJ2042-2014)
Description (Translated English): General specifications of engineering and technology for hazardous waste disposal
Sector / Industry: Environmental Protection Industry Standard
Classification of Chinese Standard: Z27
Classification of International Standard: 13.030.40
Word Count Estimation: 23,214
Date of Issue: 6/10/2014
Date of Implementation: 9/1/2014
Quoted Standard: GB 3096; GB 5085; GB 8978; GB 12348; GB 14554; GB 16297; GB 18484; GB 18597; GB 18598; GB 50014; GB 50016; GB 50019; GB 50028; GB 50034; GB 50052; GB 50057; GB 50062; GB 50140; GB 50156; GB 50202; GB 50203; GB 50204; GB 50205; GB 50231; GB 50236; GB 50254
Regulation (derived from): Ministry of Environmental Protection Notice No. 42 of 2014
Issuing agency(ies): Ministry of Ecology and Environment
Summary: This standard specifies the hazardous waste disposal engineering design, construction, inspection and operation of the general technical and administrative requirements. This standard applies to hazardous waste disposal project of new construction, renova

HJ 2042-2014: General specifications of engineering and technology for hazardous waste disposal


---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.
General specifications of engineering and technology for hazardous waste disposal National Environmental Protection Standard of the People's Republic Technical guidelines for hazardous waste disposal engineering 2014-06-10 Approved.2014-09-01 Implementation Ministry of Environmental Protection released

Content

Foreword..II 1 Scope.1 2 Normative references.1 3 Terms and Definitions 3 4 Disposal technology applicability and selection.4 5 General requirements.5 6 overall design.6 7 system configuration requirements..6 8 Labor Safety and Occupational Health 12 9 Engineering construction and environmental protection acceptance 13 10 Operation Management Requirements.14 Appendix (informative appendix) Hazardous Waste and Medical Waste Treatment and Disposal Technology Applicable Table.15

Foreword

To 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 Wastes, Construction and operation of hazardous waste disposal projects to achieve the goal of reducing, recycling and harmless hazardous waste disposal, and controlling environmental risks, Improve the quality of the environment and develop this standard. This standard stipulates the application of hazardous waste disposal technology and the process of engineering design, construction, acceptance, operation management, etc. Relevant technical requirements and management regulations. This standard is a guidance document. This standard is the first release. This standard was formulated by the Science and Technology Standards Department of the Ministry of Environmental Protection. This standard was drafted. Shenyang Environmental Science Research Institute, Institute of High Energy Physics, Chinese Academy of Sciences, National Environmental Protection Hazardous Waste Material Disposal Engineering Technology Center. This standard was approved by the Ministry of Environmental Protection on June 10,.2014. This standard has been implemented since September 1,.2014. This standard is explained by the Ministry of Environmental Protection. Technical guidelines for hazardous waste disposal engineering

1 Scope of application

This standard specifies general technical and management requirements for the design, construction, acceptance and operation of hazardous waste disposal projects. This standard is applicable to the construction, reconstruction and expansion of hazardous waste centralized disposal projects and the construction of hazardous waste disposal workers. Cheng, can macro-guide the feasibility study, environmental impact assessment, engineering design, engineering construction, engineering acceptance of hazardous waste disposal engineering And the operation and management of facilities. This standard is a general technical specification for hazardous waste disposal projects and is applicable to all types of hazardous waste disposal projects. For existing special jobs The hazardous waste disposal project of the technical specification shall also implement special technical specifications at the same time; for the special engineering technical specifications that have not yet been issued The hazardous waste disposal project shall comply with the relevant provisions of this standard. Medical waste as a special type of hazardous waste, its management technology The surgical requirements refer to the relevant standards for medical waste.

2 Normative references

The contents of this standard refer to the terms in the following documents. For undated references, the valid version applies to this standard. GB 3096 Acoustic Environmental Quality Standard GB 5085 Hazardous Waste Identification Standard GB 8978 Integrated Wastewater Discharge Standard GB 12348 Environmental noise emission standards for industrial enterprises General rules for safety and health requirements of GB 12801 production process GB 14554 Odor Pollutant Discharge Standard GB 16297 Integrated emission standards for atmospheric pollutants GB 18484 Hazardous Waste Incineration Pollution Control Standard GB 18597 Hazardous Waste Storage Pollution Control Standard GB 18598 Hazardous Waste Landfill Pollution Control Standard GB 50028 town gas design code GB 50034 Architectural Lighting Design Standard GB 50052 design specification for power distribution system GB 50057 lightning protection design code for buildings GB 50062 Specification for relay protection and automatic devices for electrical installations GB 50156 Specification for design and construction of refueling and filling stations GB 50202 Code for construction quality acceptance of building foundation engineering GB 50203 Masonry Construction Quality Acceptance Specification GB 50204 Concrete Structure Engineering Construction Quality Acceptance Specification GB 50205 Steel Structure Engineering Construction Quality Acceptance Specification GB 50221 Steel Structure Engineering Quality Assessment Standard General specification for construction and acceptance of GB 50231 mechanical equipment installation engineering GB 50236 Field equipment, industrial pipeline welding engineering construction and acceptance specifications GB 50254 Electrical installation engineering Low-voltage electrical installation and acceptance specifications GB 50255 Electrical installation engineering cable line construction and acceptance specifications GB 50256 Electrical installation and construction crane electrical installation construction and acceptance specifications GB 50257 Electrical installation engineering explosion and fire hazard environment electrical installation construction and acceptance specifications GB 50258 Electrical installation engineering 1kV and below wiring construction and acceptance specifications GB 50259 Electrical installation installation engineering electrical lighting installation construction and acceptance specifications GB 50275 Compressor, fan, pump installation engineering construction and acceptance specifications GB 50300 Unified standard for construction quality acceptance of construction projects GB 50335 Wastewater Recycling Engineering Design Specification GB J14 Outdoor Drainage Design Code GB J16 Building Design Fire Code GB J19 Heating Ventilation and Air Conditioning Design Specification GB J22 factory mine road design specification GB J140 building fire extinguisher configuration design specification GB/T 15555.1 Determination of total mercury in solid waste - Cold atomic absorption spectrophotometric method GB/T 15555.2 Determination of cadmium, copper, lead and zinc in solid waste atomic absorption spectrophotometric method GB/T 15555.3 Determination of arsenic in solid wastes - 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 15555.6 Determination of total chromium in solid waste - Direct inhalation flame atomic absorption spectrophotometric method GB/T 15555.7 Determination of hexavalent chromium in solid wastes GB/T 15555.8 Determination of total chromium in solid waste - Ammonium sulphate titration GB/T 15555.9 Determination of nickel in solid waste - Direct inhalation flame atomic absorption spectrophotometric method 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 GB/T 28001 Occupational Health and Safety Management System Specification GBZ 1 industrial enterprise design hygiene standard GBZ 2.1 Occupational exposure limits for workplace hazards Part 1. Chemical hazards GBZ 2.2 Occupational exposure limits for workplace hazards Part 2. Physical factors DL/T 620 AC electrical equipment overvoltage protection and insulation with power industry standards DL/T 621 AC Electrical Equipment Grounding Power Industry Standard HJ 561 Technical Specifications for Performance Testing of Hazardous Waste (including Medical Waste) Incineration Disposal Facilities HJ/T 76 Technical requirements and test methods for continuous monitoring system for fixed source flue gas emissions (Trial) HJ/T 176 Technical Specifications for Centralized Incineration and Disposal of Hazardous Waste HJ/T 177 Technical Specifications for Construction of Centralized Incineration Disposal of Medical Waste JB/T 8471 bag type dust collector installation technical requirements and acceptance specifications machinery industry standard JB/T 8690 industrial fan noise limit Law of the People's Republic of China on Environmental Impact Assessment (Chairman's Decree [2002] No. 77) Law of the People's Republic of China on the Prevention and Control of Environmental Pollution by Solid Wastes (Chairman's Decree [2005] No. 31) Regulations on Environmental Protection Management of Construction Projects (Order of the State Council [1998] No. 253) Regulations on Quality Management of Construction Projects (Order of the State Council [2000] No. 279) Measures for the Administration of Hazardous Waste Business Licenses (State Council Order [2004] No. 408) "Design Regulations for Environmental Protection of Construction Projects" (Guo Huan Zi [87] No. 2) National Directory of Hazardous Wastes (Ministry of Environmental Protection, National Development and Reform Commission Order [2008] No. 1) Technical Requirements for Completion Acceptance Monitoring of Environmental Protection Facilities of Construction Projects (Huanfa [2000] No. 38) “Administrative Measures for Environmental Protection Acceptance of Completion of Construction Projects” (Huanfa [2004] No. 13) National Plan for the Construction of Hazardous Waste and Medical Waste Disposal Facilities (Huanfa [2004] No. 16) "Administrative Measures for Automatic Monitoring of Pollution Sources" (Huanfa [2005] No. 28) "Deep Provisions on the Design of Architectural Engineering Design Documents" (Building Quality [2008] No. 216) Interim Provisions on Occupational Safety Supervision of Production Construction Projects (Labor [1988] No. 48) Technical Requirements for Construction of Hazardous Waste Safety Landfill Disposal Project (Huanfa [2004] No. 75) Notice on Strengthening the Completion and Acceptance of the National Hazardous Waste and Medical Waste Disposal Facilities Construction Plan [2009] No. 22)

3 Terms and definitions

The following terms and definitions apply to this standard. 3.1 hazardous waste Refers to the list of national hazardous wastes or the identification of hazardous waste identification standards and identification methods according to national regulations. One or more dangerous characteristics such as eclipse, toxicity, flammability, reactivity and infectivity, and does not exclude the above dangers Sexual solid, liquid or other form of waste. 3.2 Incineration incineration It refers to a chemical process that burns substances, completely oxidizes, and generates heat in the presence of sufficient oxygen. 3.3 Secure landfill secure landfill Refers to the landfill disposal of hazardous waste in a safe landfill.

4 Disposal technology applicability and choice

4.1 Waste Disposal Technology Classification 4.1.1 Hazardous waste disposal technology can be divided into pretreatment technology and disposal technology. 4.1.2 Hazardous waste pretreatment technologies include physical methods, chemical methods, and solidification/stabilization. 4.1.2.1 Physical methods include compaction, crushing, sorting, thickening, adsorption and extraction. 4.1.2.2 Chemical methods include flocculation sedimentation, chemical oxidation, chemical reduction, and acid-base neutralization. 4.1.2.3 Curing/stabilization includes cement curing, lime curing, plastic curing, self-adhesive curing and chemical stabilization. 4.1.3 Hazardous waste disposal technologies include incineration disposal technology, non-incineration disposal technology, and safe landfill disposal technology. 4.1.3.1 Hazardous waste incineration includes rotary kiln incineration, liquid injection furnace incineration, fluidized bed furnace incineration, fixed bed furnace incineration and heat De-burning and so on. 4.1.3.2 Non-incineration disposal of hazardous waste mainly includes thermal desorption treatment, melt disposal, arc plasma treatment, etc. 4.1.3.3 Hazardous waste Safe landfill disposal includes single-component landfill disposal and multi-component landfill disposal. 4.2 Applicability of hazardous waste disposal technology 4.2.1 Pretreatment technology is mainly applicable to the pretreatment process before hazardous waste disposal such as incineration, non-incineration and safe landfill. 4.2.2 Incineration technology is suitable for the disposal of hazardous wastes with high organic content and high calorific value. The form of hazardous waste disposal can be solid or liquid. And gaseous, but mercury-containing wastes are not suitable for disposal by incineration technology, and explosive waste must be eliminated by appropriate pretreatment techniques. The reactivity is followed by incineration or disposal using a specially designed incinerator. 4.2.2.1 Hazardous wastes that can be disposed of in rotary kiln include organic steam, high-concentration organic waste liquid, liquid organic waste, granular uniform waste, Non-uniform loose waste, low melting point waste, organic waste containing flammable components, untreated coarse and bulk waste, halogenated Aromatic hydrocarbon waste, organic sludge, etc. 4.2.2.2 Hazardous wastes that can be disposed of in liquid injection furnaces include organic steam, high concentration organic waste liquid, liquid organic waste, low melting point waste Materials, halogenated aromatic hydrocarbon wastes, etc. 4.2.2.3 Fluidized bed is mainly used for the disposal of powdery hazardous waste, and also for the disposal of bulk waste and waste liquid. 4.2.2.4 Hazardous wastes that can be disposed of in fixed bed furnaces include organic steam, granular homogeneous waste, non-uniform loose waste, low melting point waste Materials, organic waste containing flammable ash components, etc. 4.2.2.5 Pyrolysis furnace is mainly used to dispose of hazardous waste with high organic content. 4.2.3 Non-incineration disposal techniques for hazardous wastes should be selected based on the technical characteristics and the characteristics of the waste to be disposed of. 4.2.3.1 Thermal desorption technology is suitable for the disposal of volatile, semi-volatile and partially non-volatile organic solid or semi-solid hazardous wastes. It can be used to treat soil, mud, sediment, filter cake, etc. containing the above hazardous waste. 4.2.3.2 The melting technology is applicable to the disposal of hazardous waste incineration disposal residues and fly ash from solid waste incineration disposal. 4.2.3.3 Arc plasma technology is suitable for the disposal of hazardous waste with high toxicity, stable chemical properties and long-term presence in the environment. It is especially suitable for disposal of fly ash after waste incineration, smashed e-waste, liquid or gaseous toxic hazardous waste. 4.2.4 Safe landfill disposal technology is applicable to the National Hazardous Waste List, except for landfill lining incompatible waste. Safe disposal of objects. Hazardous wastes with unstable nature need to be solidified/stabilized before safe landfill disposal, but organic hazardous waste It is not suitable for safe landfill disposal. 4.2.4.1 One-component landfill is suitable for the disposal of hazardous wastes of the same chemical form. 4.2.4.2 Multi-component landfill is suitable for the treatment of two or more types of mixing without chemical reaction, or after non-rigid chemical reaction Dangerous waste. 4.3 Principles for the selection of hazardous waste disposal technologies 4.3.1 Corrosive waste should be pretreated by neutralization followed by other methods for final disposal. 4.3.2 Toxic wastes may be detoxification treatment or disposal technologies such as incineration or landfill. 4.3.3 Flammable wastes should be preferred for incineration disposal techniques and pretreatment methods should be selected based on incineration conditions. 4.3.4 Reactive waste should be removed by oxidation, reduction, etc., and then disposed of by incineration or landfill. 4.3.5 Infectious waste (medical waste) should be selected for disposal techniques that can kill infectious bacteria, such as incineration, high temperature steam sterilization, Chemical disinfection, microwave disinfection, etc.

5 General requirements

5.1 Hazardous Waste Disposal Project shall meet the Environmental Impact Assessment Law of the People's Republic of China and the Environmental Protection Management Regulations for Construction Projects. And the requirements of the “Administrative Measures on Environmental Protection Acceptance for Completion of Construction Projects”. 5.2 The construction of hazardous waste disposal projects should be able to actively promote the realization of the goals of reduction, resource utilization and harmlessness. 5.3 The scale of hazardous waste disposal should be based on the amount of waste that can be disposed of within the project service area, the distribution of waste, development plans, and Factors such as changing trends are considered together. 5.4 Dangerous waste disposal technology selection, engineering construction and facility operation management should actively adopt BAT and best environmental management Practice (BAT/BEP). 5.5 The site selection of hazardous waste disposal project should be in line with the overall urban development plan, professional environmental protection plan and local air pollution. Prevention, water resources protection, and natural ecological protection requirements should also consider the service areas, transportation, and soil of hazardous waste disposal facilities. Land use status, infrastructure status, transportation distance and public opinion, etc., the final selected site should also pass environmental impact and Environmental risk assessment is determined. 5.6 The discharge of atmospheric pollutants from hazardous waste disposal projects shall comply with the requirements of GB 16297, GB 18484 or industry and local discharge standards. And shall install the continuous monitoring equipment for atmospheric pollutant discharge in accordance with the provisions of the “Measures for the Automatic Monitoring and Control of Pollution Sources”, and the monitoring center networking. 5.7 Waste water discharge from hazardous waste disposal projects shall comply with the requirements of GB 8978 or industry and local discharge standards, and shall be waste in GB 50335. The recycled wastewater required for water reuse should be reused as much as possible. 5.8 The noise at the boundary of the hazardous waste disposal project shall comply with the requirements of GB 3096 and GB 12348. 5.9 The control and prevention of odorous pollutants in hazardous waste disposal projects shall comply with the relevant provisions of GB 14554. 5.10 Pollutant discharge, sampling, environmental monitoring and analysi......
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