Municipal solid waste landfill technology in Japan

Japan was ahead of the rest of the world when it introduced intermediate processing of municipal waste by such means as incineration in the 1960s. Owing to the small land area of the country and the difficulty in securing landfill sites, the incineration ratio of municipal combustible waste had reached 100% by the 1990s. Along with the landfill of incineration residues, proprietary technologies such as high salt leachate treatment, desalination treatment, by-product recycling, a focus on the resource of incineration residues, sea surface landfill sites, and covered type landfill sites have spread and developed since then. This book describes the introduction of incineration facilities starting in the 1960s, landfill technology, and issues arising after 1990 following the introduction of the facilities. The necessity of a total system from incineration to landfill is explained as well. The volume is a valuable resource for countries that plan to introduce intermediate processing such as incineration and for countries that are developing a waste management policy.

Preface Chapter 1 The Transition of Landfill Technologies 1.1 Social situation and landfill disposal volume over landfill 1.2 The transition of landfill waste 1.3 The transition of researches in the field of landfill 1.4 The transition of technologies by the year 1.4.1 The 1960s 1.4.2 The 1970s 1.4.3 The 1980s 1.4.4 The 1990s 1.4.5 The 2000s~ Present Chapter 2 Issues and Measures for Landfill Technologies 2.1 Changes in landfill waste quality 2.1.1 Quality of waste carried into landfill sites 2.1.2 The necessity of grasping landfill waste quality 2.2 Issue of high concentration inorganic salt 2.2.1 Issue of calcium scale 2.2.2 Issue of chloride 2.2.3 Generation of by-product salt 2.2.4 Composition of by-product salt 2.2.5 Disposal and recycling of by-product salt 2.3 The problem of remaining chelate 2.3.1 Survey on the actual situation 2.3.2 Composition of the chelating agent 2.3.3 Effect of chelate treatment 2.3.4 Chelate countermeasure 2.3.5 Analysis of residual chelate 2.4Covered type landfill site 2.4.1 Definition of the covered type landfill site 2.4.2 Advantages of the covered type landfill site 2.4.3 Issues and countermeasures for the covered type landfill site 2.5 Sea surface landfill site 2.5.1 General structure of sea surface landfill site 2.5.2 Water balance of sea surface landfill site 2.5.3 Issues of sea surface landfill site 2.5.4 Countermeasures 2.5.5 Advanced use of ultimate land 2.6 Semi-aerobic landfill structure 2.6.1 Concept 2.6.2 Function check method of semi-aerobic landfill structure 2.6.3 Inhibitors of semi-aerobic landfill structure 2.6.4 Intermediate processing residue landfill and semi-aerobic landfill 2.6.5 Semi-aerobic landfill at a covered type landfill site 2.6.6 Semi-aerobic landfill at the full landfill site 2.7 Abolition of the landfill site 2.7.1 Closure and abolition of the landfill site 2.7.2 Issues of abolition 2.7.3 Abolition and stabilization 2.7.4 Abolition promotion technologies Chapter 3 A Relationship between Landfill Materials and Landfill 3.1 Leachate management in the introduction process of intermediate processing 3.1.1 Guidelines of MSW Landfill Sites (1978) 3.1.2 Explanation of the Guidelines on MSW Landfill Sites (1989) 3.2 Landfill technology for intermediate processing residue 3.2.1 Leachate collection/drainage facility 3.2.2 Landfill gas treatment facility 3.2.3 Leachate treatment facility 3.2.4 Landfill methods 3.2.5 Leachate management 3.2.6 Others Chapter 4 The Role and the Technology for the Future Landfill site 4.1 Requirements for the future landfill site 4.1.1 Location issues 4.1.2 Regeneration of existing landfill site and its early stabilization 4.1.3A newly established landfill site 4.1.4 Concept of the future landfill site 4.2 Location selection of landfill site 4.2.1 Residents' consciousness of the location of the troublesome facility 4.2.2 Site selection method 4.3 Regeneration of landfill site 4.3.1 Survey and procedures for regeneration 4.3.2 Sorting technology 4.3.3 Heat treatment 4.3.4 Life-prolonging by consolidation method 4.4 Technology for early stabilization 4.4.1 Pre-treatment of the landfill 4.4.2 Post-treatment of the landfill 4.5 Technology for future landfill 4.5.1 Concept of the leachate treatment system 4.5.2 Leachate collection/drainage facility 4.5.3 Landfill gas removal facility 4.5.4The capacity decision of the facility according to the leachate management 4.5.5 Quality prediction on leachate 4.5.6 Seepage control system 4.5.7 Multi-barrier concept 4.6 Landfill according to the waste management system 4.6.1 Issues of the current waste management system 4.6.2 The waste management system and MSW landfill in the future Chapter 5 Conclusion