LEADER 12129nam 22006013 450 001 9910832991803321 005 20230920080255.0 010 $a9781789063318 010 $a1789063310 035 $a(MiAaPQ)EBC30602514 035 $a(Au-PeEL)EBL30602514 035 $a(ScCtBLL)30aa6000-047c-4c74-8e86-9cb067ba985b 035 $a(CKB)28264694500041 035 $a(OCoLC)1399168350 035 $a(EXLCZ)9928264694500041 100 $a20230920d2023 uy 0 101 0 $aeng 135 $aurcnu|||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aLandfill Leachate Management 205 $a1st ed. 210 1$aLondon :$cIWA Publishing,$d2023. 210 4$dİ2023. 215 $a1 online resource (494 pages) 311 08$a9781789063301 311 08$a1789063302 327 $aCover -- Contents -- Editors -- Contributors -- Foreword -- Acknowledgments -- Chapter 1 : Characteristics of leachate from landfills and dumpsites in Asia, Africa and Latin America: a review update -- 1.1 ? Introduction -- 1.2 ? Materials and Methods -- 1.3 ? Results and Discussion -- 1.3.1 ? Study selection -- 1.3.2 ? Key types of sites and climatic zones -- 1.3.3 ? Leachate quality by site -- 1.3.4 ? Leachate quality by region -- 1.3.5 ? Pollutant levels by site type -- 1.3.6 ? Pollutant levels by region -- 1.4 ? Conclusions -- References -- Chapter 2 : Aerobic treatment of landfill leachate -- 2.1 ? Introduction -- 2.2 ? Aerobic Treatment of Landfill Leachate -- 2.2.1 ? Aerated lagoons -- 2.2.2 ? Activated sludge process -- 2.2.3 ? Sequencing batch reactors -- 2.2.4 ? Rotating biological contactors -- 2.2.5 ? Biofilm reactor -- 2.2.6 ? Membrane reactors -- 2.2.7 ? Constructed wetlands -- 2.2.8 ? Fungal and yeast treatment -- 2.2.9 ? Phytoremediation -- 2.3 ? Conclusions -- References -- Chapter 3 : Anaerobic treatment of landfill leachate -- 3.1 ? Introduction -- 3.2 ? Leachate Generation from Landfilling of Municipal Solid Wastes and their Characteristics -- 3.3 ? Biological Treatment Methods -- 3.4 ? Anaerobic Treatment Process -- 3.4.1 ? Anaerobic technologies -- 3.4.1.1 ? Anaerobic filters -- 3.4.1.2 ? Anaerobic sequencing batch reactor -- 3.4.1.3 ? Up-flow anaerobic sludge blanket -- 3.4.1.4 ? Anaerobic submerged membrane bioreactor -- 3.4.1.5 ? Anaerobic moving-bed biofilm reactors -- 3.4.1.6 ? Integrated anaerobic reactors (two-stage system) -- 3.5 ? Factors Affecting Anaerobic Degradation of Landfill Leachate -- 3.5.1 ? Effect of temperature -- 3.5.2 ? Effect of reactor operation mode -- 3.5.3 ? Effect of organic loading rate. 327 $a3.5.4 ? Sulfate concentration -- 3.5.5 ? Ammonia concentration -- 3.5.6 ? Carbon/nitrogen (C/N) ratio -- 3.6 ? Conclusions -- Acknowledgments -- References -- Chapter 4 : Microbial fuel cell for landfill leachate treatment -- 4.1 ? Introduction -- 4.2 ? Pollutant Removal Mechanism -- 4.2.1 ? Biological process for organics/inorganics removal -- 4.2.2 ? Leachate toxicity and effects on MFC performance -- 4.3 ? Types of MFC for Leachate Treatment -- 4.4 ? Bioelectricity Generation from the Landfill Leachate -- 4.4.1 ? Electron transfer mechanism in MFCs to treat landfill leachate -- 4.5 ? Resource Recovery from the Leachate -- 4.5.1 ? Metal recovery using MFC from leachate -- 4.5.2 ? Nutrient recovery -- 4.5.3 ? Water recovery -- 4.6 ? Recent Developments in Leachate Treatment using MFC -- 4.7 ? Conclusion -- References -- Chapter 5 : Nitrogen removal from landfill leachate -- 5.1 ? Introduction -- 5.2 ? Landfill Leachate -- 5.2.1 ? Formation -- 5.2.2 ? Composition -- 5.3 ? Environmental Impact of Leachate -- 5.3.1 ? Leachate impact on soil -- 5.3.2 ? Leachate impact on water -- 5.3.3 ? Leachate impact on air -- 5.3.4 ? Leachate impact on human health -- 5.4 ? Nitrogen Removal -- 5.4.1 ? Biological treatment -- 5.4.1.1 ? Nitrification-denitrification -- 5.4.1.2 ? Nitritation-denitritation -- 5.4.1.3 ? Nitritation-endogenous denitritation -- 5.4.1.4 ? Anammox -- 5.4.2 ? Physical treatment -- 5.4.2.1 ? Reverse osmosis -- 5.4.2.2 ? Evaporation -- 5.4.2.3 ? Ammonia Stripping -- 5.4.3 ? Chemical treatment -- 5.4.3.1 ? Chemical precipitation -- 5.4.3.2 ? Adsorption -- 5.4.3.3 ? Ion exchange -- 5.4.3.4 ? Breakpoint chlorination -- 5.4.3.5 ? Electrochemical oxidation -- 5.5 ? Conclusion and Perspectives -- References. 327 $aChapter 6 : Constructed wetland for landfill leachate treatment -- 6.1 ? Introduction -- 6.2 ? Leachate Characterization -- 6.3 ? Variability in Leachate Quantity and Quality -- 6.4 ? Types OF CWS -- 6.5 ? Mechanism of Leachate Treatment in the CW System -- 6.6 ? Application and Performance of the CWS in Treating Landfill Leachate -- 6.6.1 ? Organic matter -- 6.6.2 ? Nitrogen -- 6.6.3 ? Total phosphorous and phosphate -- 6.6.4 ? Total suspended solids -- 6.6.5 ? Heavy metals -- 6.7 ? Factors Affecting the Performance of CW -- 6.7.1 ? Substrate -- 6.7.2 ? Macrophyte -- 6.7.3 ? Temperature -- 6.7.4 ? Hydraulic retention time -- 6.7.5 ? Mode of feeding -- 6.8 ? Conclusions and Future Perspectives -- References -- Chapter 7 : Anaerobic co-digestion of food waste with landfill leachate -- 7.1 ? Introduction -- 7.2 ? Strategies Applied for the Improvement of Landfill Leachate Treatment -- 7.3 ? Historical Development of Leachate Co-Digestion -- 7.4 ? Co-Substrates used in the Digestion of Leachate -- 7.5 ? Co-Digestion of Landfill Leachate and FW -- 7.5.1 ? Synergistic effect and opportunities -- 7.5.2 ? Challenges and obstacles -- 7.5.3 ? Applications -- 7.6 ? Conclusions and Future Perspectives -- References -- Chapter 8 : Electrochemical treatment of landfill leachate -- 8.1 ? Introduction -- 8.2 ? Landfill Leachate -- 8.2.1 ? Generation and characteristics of landfill leachate -- 8.2.2 ? Landfill leachate treatment -- 8.3 ? EO Treatment of Landfill Leachate -- 8.3.1 ? Direct EO processes -- 8.3.2 ? Indirect EO processes -- 8.3.3 ? Influence factors of EO in the treatment of landfill leachate -- 8.3.3.1 ? Anode material -- 8.3.3.2 ? Reactor design -- 8.3.4 ? Operating parameters -- 8.3.4.1 ? Current density -- 8.3.4.2 ? pH -- 8.3.4.3 ? Electrolytes. 327 $a8.3.5 ? EO combined with other methods -- 8.4 ? EF Treatment of Landfill Leachate -- 8.4.1 ? Reaction mechanism of EF process -- 8.4.2 ? Operational parameters affecting EF process -- 8.4.2.1 ? pH -- 8.4.2.2 ? Dose of reagents -- 8.4.2.3 ? Reagent feed mode -- 8.4.2.4 ? Current density -- 8.4.2.5 ? Inter-space electrode -- 8.4.2.6 ? Cathode material -- 8.4.3 ? Combination of EF with other methods -- 8.5 ? EC Treatment of Landfill Leachate -- 8.5.1 ? Definition and operating principle -- 8.5.2 ? EC reactor design and operation -- 8.5.3 ? Operational parameters affecting EC process -- 8.5.3.1 ? Current density -- 8.5.3.2 ? Solution pH -- 8.5.3.3 ? Electrode design -- 8.5.3.4 ? Inter-electrode distance -- 8.5.3.5 ? Stirring speed -- 8.5.3.6 ? Electrical conductivity -- 8.5.3.7 ? Temperature -- 8.5.3.8 ? Electrolysis time -- 8.5.4 ? EC process combined with other methods -- 8.6 ? Conclusions -- References -- Chapter 9 : Treatment of landfill leachate containing emerging micropollutants -- 9.1 ? Introduction -- 9.2 ? Sources of EMs In Landfill Leachate and their Health Effect -- 9.3 ? Types of EMs -- 9.3.1 ? Polycyclic aromatic hydrocarbons -- 9.3.2 ? Pharmaceuticals and plasticizers -- 9.3.3 ? Monoaromatic hydrocarbons and pesticides -- 9.3.4 ? Pharmaceuticals -- 9.3.5 ? Personal care products -- 9.3.6 ? Microplastics and phthalate esters -- 9.4 ? Treatment Processes of Landfill Leachate -- 9.4.1 ? Physico-chemical treatment processes -- 9.4.1.1 ? Adsorption -- 9.4.1.2 ? Advanced oxidation process -- 9.4.1.3 ? Non-thermal plasma -- 9.4.2 ? Biological treatment process -- 9.4.2.1 ? Degradation by ligninolytic fungi -- 9.4.2.2 ? Constructed wetland system -- 9.4.2.3 ? Anaerobic degrading processes -- 9.4.2.4 ? Membrane bioreactor -- 9.5 ? Conclusions. 327 $aAcknowledgments -- References -- Chapter 10 : Application of carbon-based adsorbents for landfill leachate treatment -- 10.1 ? Introduction -- 10.2 ? Leachate Generation and Composition -- 10.3 ? Landfill Leachate Characterization Methods -- 10.3.1 ? Structural analytical methods -- 10.3.2 ? Molecular weight-associated techniques -- 10.3.3 ? Spectroscopic approaches -- 10.3.3.1 ? Fourier-transform infrared (FTIR) spectroscopy -- 10.3.3.2 ? Fluorescence spectroscopy -- 10.3.3.3 ? Ultraviolet-visible (UV-Vis) absorption spectroscopy -- 10.4 ? Adsorption Process for Landfill Treatment -- 10.5 ? Different Types of Adsorbents for Landfill Leachate Treatment -- 10.5.1 ? Conventional adsorbents -- 10.5.2 ? Carbon-based materials -- 10.5.2.1 ? Activated carbon -- 10.5.2.2 ? Biochar -- 10.5.2.3 ? Graphene oxide -- 10.5.2.4 ? Carbon nanotubes -- 10.5.3 ? Other non-carbon-based materials -- 10.6 ? Conclusion -- References -- Chapter 11 : Landfill leachate-induced ultraviolet quenching substances -- 11.1 ? Introduction -- 11.2 ? Sources of UV Quenching Substances in Landfill Leachate -- 11.3 ? Properties of UV Quenching Substances -- 11.4 ? Chemical Composition -- 11.5 ? Problems Associated with UVQS -- 11.6 ? Distribution of UVQS in Landfill Leachate -- 11.7 ? Measurement Techniques of UV Quenching Substances -- 11.8 ? Removal of UVQS by Different Treatment Technologies -- 11.8.1 ? Biological process -- 11.8.2 ? Membrane separation, adsorption, and ion exchange -- 11.8.3 ? Electrochemical process -- 11.8.4 ? Chemical oxidation -- 11.9 ? Conclusions and Perspectives -- References -- Chapter 12 : Microplastics in landfill leachate and its treatment -- 12.1 ? Plastics in Landfills and Leachate -- 12.2 ? Occurrence and Abundance of Microplastics in Landfill Leachate. 327 $a12.2.1 ? Sources and formation of microplastics in landfills. 330 $aLandfill leachate is a complex mix of organics, inorganics and heavy metals produced from the conventional and engineering landfilling practices. The adverse effects of landfill leachate on the human and environmental health have forced the relevant authorities to stipulate stringent disposal requirements, producing the requirement for ground-breaking technological solutions for effective management of landfill leachate. The researchers and field engineers are still looking for robust options for leachate management. This timely book on landfill leachate management is a valued addition into this domain. The key features of the book include: broad range of treatment techniques covered, conventional to advanced technological options discussed, along with the inclusion of successful case studies. 606 $aTechnology & Engineering / Mining$2bisacsh 606 $aScience / Applied Sciences$2bisacsh 606 $aScience / Environmental Science$2bisacsh 606 $aScience 615 7$aTechnology & Engineering / Mining 615 7$aScience / Applied Sciences 615 7$aScience / Environmental Science 615 0$aScience. 676 $a628.44564 700 $aKumar Tyagi$b Vinay$01780857 701 $aOjha$b C. S. P$01714768 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910832991803321 996 $aLandfill Leachate Management$94305466 997 $aUNINA