Chinese e-waste recycling and utilization of industry investment risk prediction Report 2018 - 2013

2013--2018 China's e-waste recycling and utilization of industry investment risk prediction report ----------------------------------- ---------------------------------〗 〖Report No. 69338〗 〖release date of July 2013 〖delivery〗 EMIL electronic version or EMS reporting format〗 〖〗 〖paper version: 6500 yuan〗 〖electronic version: 6800 yuan 〖paper + electronic]: 7000 yuan (price discount) 〖Order〗 010-56205768 Phone 〖〗 QQ Service 1271943744, 24 hours: 18,211,180,815 〖Contact〗 〖Zhao Yingying source link〗 http://www.hjwxyjy.com/shiyouhuagong/huagongrihua/69338.html (click see text) [Report Contents] first post e-waste recycling and utilization 16 The first chapter of e-waste recycling and disposal 16 1.1 Status of e-waste generated total 16 1.1.1 Summary 16 1.1.2 Electronic enormous amount of garbage each year scrapped appliances 16 1.1.3 Forecast 17 1.1.4 2009 scrapped appliances 17 domestic and deal with the amount of 1.2 Situation analysis 17 1.2.1 e-waste recycling electronic waste overseas to enter the domestic situation and the reasons 17 1.2.2 improve relevant laws and regulations need to be improved regular chain 18 1.2.3 18 1.2.4 is not smooth processing lag, 18 1.2.5 mainly imported industrial environment in urgent need of public governance 19 1.2.6 Electronic Waste 20 1.3.2 Electronic reasonable response is not strong 19 1.3 Processing technology status of e-waste recycling and abroad 20 1.3.1 Electronic waste processing waste recovering metals 20 1.3.3 Electronic waste recycling non-metallic garbage value 25 22 1.4 Electronic chapter typical electronic waste recycling system to establish and Social Research 26 2.1 Typical environmental impacts of e-waste recycling system set up 26 2.1.1 developed electronic waste recycling system in developing countries 27 2.1.2 spontaneous electronic waste recycling system RECOVERY system 29 2.2 Characteristics 31 2.2.2 Comparative Analysis 31 2.3 Social and Environmental Impact Analysis 33 2.3.1 Employment Potential 33 2.3.2 3.3.3 release of hazardous waste on human health 33 34 2.4 e-waste recycling economic value and social significance of electronic waste metal content 34 2.4.1 Germany 34 2.4.2 explore electronic waste 34 2.4.3 GOLD Finnish science recycling electronic waste 372. 4.4 in Japan to develop e-waste industry 39 2.5 Conclusions and Recommendations 43 2.5.1 expedite the development of legal norms and environmental standards 44 2.5.2 gradual implementation of China's national conditions 44 2.5.3 strengthen producer responsibility Regulatory Environment 44 The second e-waste industry and policy strategy of Chapter 45 of China's electronic waste electronic waste 45 3.1 45 3.2 Meaning and harm the current situation 46 3.3 Handling Policy 47 3.3.1 strengthen international cooperation and supervision 47 3.3 .2 customs hold the door 48 3.3.3 3.3.4 build 48 electronics recycling system to improve production technology, production of electronic waste and hazardous substances 50 3.4.2 Green Products 49 3.4 e-waste hazards and Value 50 3.4.1 Electronic waste contains a Value 51 3.5 Conclusion 51 Chapter IV of the industrial environment 52 4.1 52 4.2 Overview of electrical and electronic waste (waste) of the definition and generation of electrical and electronic garbage Environmental Management Industry 53 4.2.1 Chinese definition of electrical and electronic waste (waste) 53 4.2.2 Electronic waste (waste) generated 54 4.3 E-waste recycling and disposal 56 4.4 informal informal recycling recycling process 58 4.5 58 4.6 negative effects of the process of public reaction to the e-waste management issues 59 4.7 e-waste management The law for 60 large-scale advanced technology treatment facilities 4.8 Chapter 62 regulations and policies of China's electronic waste 63 5.1 generation and handling of China's electronic waste was 63 5.1.1 generation speed characteristic 63 64 5.1.3 5.1.2 Environmental Pollution aggravated illegal import "foreign e-waste" e-waste pollution 65 5.2 e-waste laws, regulations and policies of the legal status of electronic waste 66 66 5.2.2 5.2.1 enacted under development trend of industrial development policy 67 5.3 70 5.3. 1 to establish the principle of liability product extension 70 5.3.2 resource utilization management practices implemented in phases 70 5.3.3 Policy 70 5.3.4 Industry Green certification 71 third electronic technology and case studies of e-waste disposal Chapter 72 mechanical treatment technology dismantling technology research 72 6.1 72 6.2 73 6.3 Pneumatic crushing technology shaker sorting 73 6.4 eddy sorters sorting sorting method 74 6.5 74 6.6 Other world e-waste status landfill method 75 75 6.6.1 6.6.2 incineration recycling 75 75 6.6.3 6.6.4 6.6.5 Recycling 76 developing country exports 76 6.7 Practical application: air conditioning dismantling and scrap processing 76 6.7.1 scrap air conditioner outdoor unit manual disassembly procedures 76 6.7. 2 Mechanical processing program 77 6.7.3 Air conditioning component removal procedure and process 77 of Chapter VII phone recycling status and strategy research necessity 78 78 7.1 Overview 79 7.2 phone recycling old mobile phones harm 79 7.2.1 7.2.2 Current Situation of old mobile phones for recycling old mobile phones in recyclable resources 79 7.3 80 7.3.1 unregulated secondary market recovery as garbage disposal 80 80 7.3.2 7.3.3 simple dismantling workshops recovery 80 7.3.4 manufacturers and mobile operators spontaneous recovery of 81 7.4 phone recycling utilization trends 81 7.4.1 improve laws and regulations to promote recycling 81 83 7.4.3 7.4.2 development of large-scale pilot projects and industrial development 83 7.4.4 Clean Production 83 7.4.5 Operator Responsibilities 84 7.4.6 environmental awareness 84 7.5 85 Chapter VIII of the future prospects of waste printed circuit board (PCBS) Application Processing Technology 86 8.1 Introduction 86 8.2 Summary 86 8.2.1 Status 86 8.2.2 Recycling Currently disposal system 88 8.2.3 Economic recovery technology 89 88 8.3 Overview 89 8.3.1 8.3.2 8.3.3 Waste PCB mechanical features 90 91 93 8.3.5 8.3.4 hydrometallurgical method for dismantling 94 8.4 The results and conclusions 95 Chapter IX waste recycling TV 97 9.1 Value of re-use of waste TV economic value 97 97 9.1.1 9.1.3 9.1.2 Environmental Benefits 97 98 9.1.4 Technical support energy efficiency of 98 9.1.5 TV material constituting 99 9.2 Calculation method assumes that the boundary condition 99 99 9.2.1 9.2.2 9.2.3 Calculation Method 100 103 9.3 Source recycling of waste 103 9.3.1 TV-benefit analysis of energy efficiency 106 9.3.2 Environmental Benefits 9.3.3 Economic Benefits 106 106 Resource Management Chapter discarded computers and green waste computer computer development 107 10.1 107 10.2 environmental hazards of waste disposal computer policy status quo situation and the corresponding legislation abroad 107 107 10.2.1 Treatment and Disposal Status 10.2.2 abroad 108 109 10.3 10.2.3 policy responses of scrap computer recycling trends 110 10.4 green computers are designed to define its future 112 10.4.1 green computer and Features 112 10.4. Recycling and key research and development 2 112 10.4.3 with green display technology to produce biodegradable plastic green computer 113 XI refrigerator technology used 114 11.1 Summary 114 11.2 Situation abroad refrigerator recycling waste 11511. 2. 1 Japan recycling and Resource Route 115 11.2.2 domestic situation and development trends 116 11.3 Waste Recycling Refrigerator Recycling 116 11.3.1 Economic Evaluation of waste materials research 116 11.3.2 refrigerator freezer demolition waste classification process design refrigerator recycling waste 117 11.4 119 11.4 Key Technology Research .1 recycling CFCs ceremony 119 11.4.2 polyurethane foam recycling 119 11.5 Summary 121 Chapter XII of e-waste recycling technology and development forecast rate of increase 122 12.1 122 12.2 122 12.2.1 features electronic waste electronic waste Number 122 was predicted harm electronic waste 123 12.2.2 12.2.3 high potential value of e-waste processing machinery and electronic waste 125 12.3 126 12.3.1 126 12.3.2 electronic waste dismantling e-waste crushing 130 12.3.3 Electronic waste sorting and development of industrial applications of electronic waste recycling machinery 133 12.4 134 135 12.4.1 Applications Applications foreign electronic waste mechanical separation technology 134 12.4.2 domestic electronic waste mechanical separation technology Chapter thirteen studies China's home appliance recycling rates 137 13.1 recycling technology using manual dismantling five routes 137 13.2 137 13.3 recoverability rate of electronic products appliances recoverability rate index of 140 Chapter XIV learn from foreign experience in e-waste management 14114. 1. 2 Japanese experience 142 14.1.3 143 14.1.4 US experience of other EU countries experience Enlightenment and Reflections 145 14.2 146 14.2.1 National resource shortages and enlightenment experience 141 14.1 141 foreign control e-waste 14.1.1 German experience with particular emphasis on e-waste legislation is the fundamental guarantee of 146 14.2.2 146 14.2.3 Market Operation 146 14.2.4 is a powerful means of "producer responsibility" is the basic principle of e-waste industry 147 Part IV of the market economy and the standard research section 148 fifth chapter of the components of electronic waste dismantling and recycling technology Economic Research status and process 148 148 15.1 15.1.1 Component reuse technologies 148 15.1.2 148 15.1.3 Component classification dismantling dismantling 15.1.4 149 Analysis of Component Component use 151 15.2 Dismantling economy. 152 15.2.1 of the handlers of Economic Analysis 152 15.2.2 of Economic Analysis 154 15.2.3 producers to consumers Economic Analysis 154 15.3 155 15.4 Component dismantling market development trend analysis 155 Chapter XVI of environmentally friendly products ROHS directives and scrapped and WEEE instruction and research analysis 157 16.1WEEE ROHS directive before 157 16.1.1WEEE instruction 157 16.1.2RoHS instruction instruction period 158 158 16.1.3 16.1.4 directive covers two geographical scope of instructions related to section 159 16.1.5 two Product Catalog 159 16.1.6 instruction involving two other regulations 161 16.2ROHS command parsing 161 16.2.1RoHS topics related to product range 161 16.2.2RoHS involve our main export product catalog 162 16.2.3RoHS list of exemptions 16.2.4 162 species of harmful substances and controlled Limited 163 16.2.5 controlled use of hazardous substances and may contain these hazardous substances, components and raw materials 163 16.2.6 General test components in violation of instructions 165 16.2.7 165 16.2.8 punitive measures in line with Directive 165 16.3 Ways and attention problems coping measures 166 16.3.1 China's RoHS 166 16.3.2 of WEEE 166 16.3.3 Chinese enterprises to establish a system of EU RoHS Compliance Guide 167 16.4 168 16.4.1RoHS Detection Technology detecting step 168 16.4.2RoHS Detection Technology 168 16.4. 3RoHS test results Conformity Assessment 171 171 16.5 16.4.5 requires companies to send samples to grasp the profound meaning of ROHS points 171 16.5.1RoHS 171 16.5.2 Executive RoHS directive necessity 173 16.5.3RoHS implementation process 177 16.5.4RoHS process control link 179 Annex: 181 First, the waste electrical and electronic products catalog (the first) 181 Second, the resolution "waste electrical and electronic products catalog (the first)," 183 Third, the air conditioning equipment 188 four scrap inventory, waste electrical and electronic products recycling regulations 189 Fifth, the European Waste Electrical and Electronic Equipment Directive (WEEE) 195 Charts Chart 1 PCs have former world 10 26 Rate Chart 2 PCs using growth rates in developing countries (1993 to 2000) 26 Figure 3 developed typical e-waste recycling system (see Switzerland) 28 Figure 4 Typical spontaneous developing electronic waste recycling system (see China) 30 5 index level is defined chart 31 Chart 62 typical e-waste recycling system 31 Exhibit 7 Comparison between social and environmental impacts compare results 34 Figure 8 53 Figure 9 Chinese urban residents have the amount of 54 major appliances major household appliances ownership chart 10 55 Exhibit 11 Chinese rural residents average life expectancy of China's major home appliance 55 Exhibit 12 China's major home appliance disposal amount 56 Exhibit 13 China Classification according to EU directives WEEE Electronic waste material stream 56 Exhibit 14 China funds electronic waste stream concentrations (mg / kg, kg) 57 Exhibit 15 samples of heavy metals in Guiyu 58 Exhibit 16 Beijing residents choose electronic waste disposal 59 Exhibit 17 Beijing residents Components of cost burden of electronic waste management situation 60 Chart 18 China e-waste management in comparison with Japan and the European Union 61 Exhibit 19 of the PC market sales history statistics 63 Exhibit 20 mechanical e-waste flow chart 21 72 86 PCB common chart 22 medium PCB waste approximate value of the metal content and 89 Exhibit 23 PCB waste in material density range 91 chart waste recycling benefits 24 103 Colour Chart 25 Japan recovery and recycling of construction line 115 Exhibit 26 refrigerators material 117 Exhibit 27 scrap recycling process 118 Exhibit 28 refrigerator refrigerator waste recycling foamed polyurethane insulating material schematic diagram 120 29 Chinese computer waste forecast (2007-2010) 122 chart showing the main components and electrical and electronic waste contains 30 weight ratio 126 Exhibit 31 Typical benefits of dismantling waste recycling waste electronic products 126 Exhibit 32 Exhibit 33 127 free refrigerators, air conditioners and other appliances dismantling process 128 Figure 34 printers, copiers and other dismantling process 129 Figure 35 washing machine demolition Process Solutions 129 Exhibit 36 ??dismantling discarded electronic products and components processing method 130 Exhibit 37 NEC Corporation of Japan two-stage processing of waste circuit board schematic diagram 132 132 38 Exhibit 39 vortex separator crushing and classification of waste circuit board 133 Exhibit 40 electronic waste The basic flow chart treated 134 41 Germany Trischlerund Partner Gmbh treatment process 135 Chart 42 Japan's NEC waste treatment process circuit board 135 Chart 43 Iris Enterprise Co., Ltd. e-waste treatment process 135 Chart 44 electrical and electronic recycling rate average of 137 Exhibit 45 a brand LCD TVs dismantling the test results data. 138 Chart 46 experimental data above, the subject gave the following indicators of the project team 138 chart 47 EU WEEE Directive (Waste Electrical and Electronic Equipment Directive) provides recycling 139 chart indicators 48 a brand LCD TVs dismantling the test results data. Chart 49 139 140 appliances recyclable utilization metrics Chart 50 Japanese electronics re-commodification rate chart 141 Exhibit 51 148 e-waste recycling flow chart diagram 52 cameras, scanners, cartridges, computer dismantling product weight and specific gravity (g) 149 chart are two ways to bring the 53-year deal with those who benefit comparison chart 54 152 remanufactured five-step increase in expenses 55 153 chart waste electrical and electronic products catalog (the first) 56 182 air conditioning equipment scrapped chart list 188 --- ------------------------------------ 〖Contact〗 〖Miss Zhao Ms. Gao 〖Order〗 010-56205768 〖QQ 1271943744 24: 18211180815