An overview of municipal solid waste management and landfill leachate treatment: Malaysia and Asian perspectives

Currently, generation of solid waste per capita in Malaysia is about 1.1 kg/day. Over 26,500 t of solid waste is disposed almost solely through 166 operating landfills in the country every day. Despite the availability of other disposal methods, landfill is the most widely accepted and prevalent method for municipal solid waste (MSW) disposal in developing countries, including Malaysia. This is mainly ascribed to its inherent forte in terms cost saving and simpler operational mechanism. However, there is a downside. Environmental pollution caused by the landfill leachate has been one of the typical dilemmas of landfilling method. Leachate is the liquid produced when water percolates through solid waste and contains dissolved or suspended materials from various disposed materials and biodecomposition processes. It is often a high-strength wastewater with extreme pH, chemical oxygen demand (COD), biochemical oxygen demand (BOD), inorganic salts and toxicity. Its composition differs over the time and space within a particular landfill, influenced by a broad spectrum of factors, namely waste composition, landfilling practice (solid waste contouring and compacting), local climatic conditions, landfill’s physico-chemical conditions, biogeochemistry and landfill age. This paper summarises an overview of landfill operation and leachate treatment availability reported in literature: a broad spectrum of landfill management opportunity, leachate parameter discussions and the way forward of landfill leachate treatment applicability.

[1]  D. J. Hagerty,et al.  Solid Waste Management , 2020, Concise Handbook of Waste Treatment Technologies.

[2]  D. Fenn,et al.  Use of the water-balance method for predicting leachate generation from solid-waste-disposal sites , 1975 .

[3]  George Tchobanoglous,et al.  Integrated Solid Waste Management: Engineering Principles and Management Issues , 1993 .

[4]  M. Wong,et al.  Variations in the chemical properties of landfill leachate , 1994 .

[5]  G. Heron,et al.  Attenuation of landfill leachate pollutants in aquifers , 1994 .

[6]  E. McBean Solid Waste Landfill Engineering and Design , 1994 .

[7]  R. Khanbilvardi,et al.  Flow Investigation for Landfill Leachate (FILL) , 1995 .

[8]  A. Amokrane,et al.  Landfill leachates pretreatment by coagulation-flocculation , 1997 .

[9]  N. M. Aziz,et al.  THE HYDROLOGIC EVALUATION OF LANDFILL PERFORMANCE (HELP) MODEL USER’S GUIDE FOR VERSION 3 by , 1997 .

[10]  Paul T. Williams Waste Treatment and Disposal , 1998 .

[11]  Caroline J. Grosh,et al.  Analysis of Florida MSW Landfill Leachate Quality July 1998 , 1998 .

[12]  R. Ham,et al.  The effect of municipal solid waste pretreatment on landfill behavior: a literature review , 1999 .

[13]  A. Zydney,et al.  Humic acid fouling during ultrafiltration , 2000 .

[14]  P. Jaouen,et al.  Stabilized landfill leachate treatment by combined physicochemical-nanofiltration processes. , 2001, Water research.

[15]  J. Rintala,et al.  Methane and leachate pollutant emission potential from various fractions of municipal solid waste (MSW): Effects of source separation and aerobic treatment , 2002, Waste management & research : the journal of the International Solid Wastes and Public Cleansing Association, ISWA.

[16]  C. P. Young,et al.  Attenuation of Landfill Leachate In Unsaturated Sandstone , 2002 .

[17]  M. Nanny,et al.  Characterization and comparison of hydrophobic neutral and hydrophobic acid dissolved organic carbon isolated from three municipal landfill leachates. , 2002, Water research.

[18]  D. Ahn,et al.  USE OF COAGULANT AND ZEOLITE TO ENHANCE THE BIOLOGICAL TREATMENT EFFICIENCY OF HIGH AMMONIA LEACHATE , 2002, Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering.

[19]  M. El-Fadel,et al.  Temporal variation of leachate quality from pre-sorted and baled municipal solid waste with high organic and moisture content. , 2002, Waste management.

[20]  A. Zouboulis,et al.  A field investigation of the quantity and quality of leachate from a municipal solid waste landfill in a Mediterranean climate (Thessaloniki, Greece) , 2002 .

[21]  陶涛 Landfill leachate treatment by a coagulation-photooxidation process , 2002 .

[22]  A. Ledin,et al.  Present and Long-Term Composition of MSW Landfill Leachate: A Review , 2002 .

[23]  J. Mania,et al.  Changes in the quality of landfill leachates from recent and aged municipal solid waste , 2002, Waste management & research : the journal of the International Solid Wastes and Public Cleansing Association, ISWA.

[24]  Ki-Hoon Kang,et al.  Characterization of humic substances present in landfill leachates with different landfill ages and its implications. , 2002, Water research.

[25]  Reynaldo Cruz-Rivera,et al.  Serial water balance method for predicting leachate generation in landfills , 2003, Waste management & research : the journal of the International Solid Wastes and Public Cleansing Association, ISWA.

[26]  A. Zouboulis,et al.  Coagulation-flocculation pretreatment of sanitary landfill leachates. , 2003, Chemosphere.

[27]  O. Gimeno,et al.  Stabilized leachates: ozone-activated carbon treatment and kinetics. , 2003, Water research.

[28]  J. Weber,et al.  Solar photocatalytic degradation of humic acids as a model of organic compounds of landfill leachate in pilot-plant experiments: influence of inorganic salts , 2004 .

[29]  Duu-Jong Lee,et al.  Simultaneous removal of turbidity and humic acid from high turbidity stormwater , 2004 .

[30]  F. Çeçen,et al.  Aerobic Co-Treatment of Landfill Leachate with Domestic Wastewater , 2004 .

[31]  Bulent Inanc,et al.  Overview of waste disposal and landfills/dumps in Asian countries , 2004 .

[32]  M. Yusoff,et al.  Physico-chemical removal of iron from semi-aerobic landfill leachate by limestone filter. , 2004, Waste management.

[33]  Xiaoli Chai,et al.  The application of bioflocculant for the removal of humic acids from stabilized landfill leachates. , 2004, Journal of environmental management.

[34]  F. Kargı,et al.  Biological nutrient removal from pre-treated landfill leachate in a sequencing batch reactor. , 2004, Journal of environmental management.

[35]  Simon Judd,et al.  Membrane bioreactors vs conventional biological treatment of landfill leachate: a brief review , 2004 .

[36]  Chih-Chao Wu,et al.  Treatment of landfill leachate by ozone-based advanced oxidation processes. , 2004, Chemosphere.

[37]  R. Méndez-Novelo,et al.  Physico-chemical treatment of Merida landfill leachate for chemical oxygen demand reduction by coagulation , 2005, Waste management & research : the journal of the International Solid Wastes and Public Cleansing Association, ISWA.

[38]  C. Visvanathan,et al.  Influence of tropical seasonal variations on landfill leachate characteristics--results from lysimeter studies. , 2005, Waste management.

[39]  Mohd Nasir Hassan,et al.  Implementation of the semi-aerobic landfill system (Fukuoka method) in developing countries: a Malaysia cost analysis. , 2005, Waste management.

[40]  A. Yasuhara,et al.  TOXICITY STUDIES OF LANDFILL LEACHATES USING JAPANESE MEDAKA (ORYZIAS LATIPES) , 2005 .

[41]  J R Gronow,et al.  Household hazardous waste in municipal landfills: contaminants in leachate. , 2005, The Science of the total environment.

[42]  H. Imura,et al.  Special Feature on the Environmentally Sustainable City Urban Environmental Issues and Trends in Asia: An Overview , 2005 .

[43]  T.A. Kurniawan,et al.  Physico-chemical treatments for removal of recalcitrant contaminants from landfill leachate. , 2006, Journal of hazardous materials.

[44]  H. Shu,et al.  Characteristics of landfill leachates in central Taiwan. , 2006, The Science of the total environment.

[45]  Ferhat Karaca,et al.  NN-LEAP: A neural network-based model for controlling leachate flow-rate in a municipal solid waste landfill site , 2006, Environ. Model. Softw..

[46]  J. Parga,et al.  Electrocoagulation mechanism for COD removal , 2007 .

[47]  Gunnar F. Nordberg,et al.  Handbook on the toxicology of metals, 3rd Edition , 2007 .

[48]  Hamidi Abdul Aziz,et al.  The use of alum, ferric chloride and ferrous sulphate as coagulants in removing suspended solids, colour and COD from semi-aerobic landfill leachate at controlled pH , 2007, Waste management & research : the journal of the International Solid Wastes and Public Cleansing Association, ISWA.

[49]  J. Oygard,et al.  Size charge fractionation of metals in municipal solid waste landfill leachate. , 2007, Water research.

[50]  E. Lipczynska-Kochany,et al.  Effect of humic substances on the Fenton treatment of wastewater at acidic and neutral pH. , 2008, Chemosphere.

[51]  P Moulin,et al.  Landfill leachate treatment: Review and opportunity. , 2008, Journal of hazardous materials.

[52]  K. Ohta,et al.  Humic acid degradation in aqueous solution by the photo-Fenton process , 2008 .

[53]  Y. Hotta National 3R Strategy Development: A progress report on seven countries in Asia from 2005 to 2009 , 2009 .

[54]  Jian-hui Sun,et al.  Oxone/Co(2+) oxidation as an advanced oxidation process: comparison with traditional Fenton oxidation for treatment of landfill leachate. , 2009, Water research.

[55]  K. Y. Foo,et al.  An overview of landfill leachate treatment via activated carbon adsorption process. , 2009, Journal of hazardous materials.

[56]  A. Zinatizadeh,et al.  Application of response surface methodology (RSM) to optimize coagulation-flocculation treatment of leachate using poly-aluminum chloride (PAC) and alum. , 2009, Journal of hazardous materials.

[57]  S. Elagroudy,et al.  Effect of Waste Composition and Load Application on the Biodegradation of Municipal Solid Waste in Bioreactor Landfills , 2009 .

[58]  Abdulhussain A. Abbas,et al.  Review on landfill leachate treatments. , 2009 .

[59]  C. Yin,et al.  Treatment of landfill leachate using palm shell-activated carbon column: axial dispersion modeling and treatment profile. , 2009 .

[60]  Hongliang Liu,et al.  Dissolved organic matter in leachate from different treatment processes , 2009 .

[61]  Nations United National 3R Strategy Development: A progress report on seven countries in Asia from 2005 to 2009 , 2009 .

[62]  Mohd Armi Abu Samah,et al.  Municipal solid waste management in Malaysia: practices and challenges. , 2009, Waste management.

[63]  Agamuthu Periathamby,et al.  Evolution of solid waste management in Malaysia: impacts and implications of the solid waste bill, 2007 , 2009 .

[64]  Jae-Woo Park,et al.  Leachate modeling for a municipal solid waste landfill for upper expansion , 2010 .

[65]  M. Yusoff,et al.  Application of response surface methodology (RSM) for optimization of ammoniacal nitrogen removal from semi-aerobic landfill leachate using ion exchange resin , 2010 .

[66]  Abdulhussain A. Abbas,et al.  Treatment of landfill leachate using a combined stripping, Fenton, SBR, and coagulation process. , 2010, Journal of hazardous materials.

[67]  Naciones Unidas. Programa para el Medio Ambiente Waste and Climate Change - Global Trends and Strategy Framework , 2010 .

[68]  Treavor H. Boyer,et al.  Effect of landfill characteristics on leachate organic matter properties and coagulation treatability. , 2010, Chemosphere.

[69]  N. Shariatmadari,et al.  Assesment of HELP model performance in arid areas, case study: landfill test cells in Kahrizak. , 2010 .

[70]  H. Ehrig,et al.  Landfilling: Leachate Treatment , 2010 .

[71]  G. Borongan,et al.  Municipal Waste Management Report: Status-quo and Issues in Southeast and East Asian Countries , 2010 .

[72]  Shaoqi Zhou,et al.  Removal of humic substances from landfill leachate by Fenton oxidation and coagulation , 2010 .

[73]  G. Samudro,et al.  REVIEW ON BOD, COD AND BOD/COD RATIO: A TRIANGLE ZONE FOR TOXIC, BIODEGRADABLE AND STABLE LEVELS , 2010 .

[74]  M. Anwer,et al.  Humic acid from Shilajit - a physico-chemical and spectroscopic characterization , 2010 .

[75]  Dr. Nadzri Bin Yahaya,et al.  Federalising Solid Waste Management In Peninsular Malaysia , 2010 .

[76]  L. San-Segundo,et al.  Correlation between physicochemical and ecotoxicological approaches to estimate landfill leachates toxicity. , 2011, Waste management.

[77]  M. Yusoff,et al.  Influence of impregnation ratio on coffee ground activated carbon as landfill leachate adsorbent for removal of total iron and orthophosphate , 2011 .

[78]  E. Diamadopoulos,et al.  Boron-doped diamond anodic treatment of landfill leachate: evaluation of operating variables and formation of oxidation by-products. , 2011, Water research.

[79]  A. Jemec,et al.  Assessment of Landfill Leachate Toxicity Reduction After Biological Treatment , 2012, Archives of Environmental Contamination and Toxicology.

[80]  M. Yusoff,et al.  Application of psyllium husk as coagulant and coagulant aid in semi-aerobic landfill leachate treatment. , 2011, Journal of hazardous materials.

[81]  Fulya Aydin,et al.  The Effect of Modification and Initial Concentration on Ammonia Removal from Leachate by Zeolite , 2011 .

[82]  Edgar Moreno,et al.  Effect of solid wastes composition and confinement time on methane production in a dump. , 2011 .

[83]  Rosário Oliveira,et al.  Evaluation of Fenton and ozone-based advanced oxidation processes as mature landfill leachate pre-treatments. , 2011, Journal of environmental management.

[84]  M. Matejczyk,et al.  Estimation of the environmental risk posed by landfills using chemical, microbiological and ecotoxicological testing of leachates. , 2011, Chemosphere.

[85]  Thomas Backhaus,et al.  Predictive environmental risk assessment of chemical mixtures: a conceptual framework. , 2012, Environmental science & technology.

[86]  Juan Chen,et al.  Hydrogen sulfide alleviates aluminum toxicity in barley seedlings , 2012, Plant and Soil.

[87]  G. Zeng,et al.  Landfill leachate pretreatment by coagulation–flocculation process using iron-based coagulants: Optimization by response surface methodology , 2012 .

[88]  Sandro Lemos Machado,et al.  An attempt to perform water balance in a Brazilian municipal solid waste landfill. , 2012, Waste management.

[89]  Treavor H. Boyer,et al.  Equilibrium and intra-particle diffusion of stabilized landfill leachate onto micro- and meso-porous activated carbon. , 2012, Water research.

[90]  M. Skonieczna,et al.  The Comet Assay for the Evaluation of Genotoxic Potential of Landfill Leachate , 2012, TheScientificWorldJournal.

[91]  M. Rojas,et al.  Determining the effects of leachates infiltrating crop areas , 2012 .

[92]  C. U. Emenike,et al.  Characterization and toxicological evaluation of leachate from closed sanitary landfill , 2012, Waste management & research : the journal of the International Solid Wastes and Public Cleansing Association, ISWA.

[93]  Xi Chen,et al.  Incineration of municipal solid waste in Malaysia: Salient issues, policies and waste-to-energy initiatives , 2013 .

[94]  M. Yusoff,et al.  Removal of COD, ammoniacal nitrogen and colour from stabilized landfill leachate by anaerobic organism , 2013, Applied Water Science.

[95]  S. Puig,et al.  Coupling anammox and advanced oxidation-based technologies for mature landfill leachate treatment. , 2013, Journal of hazardous materials.

[96]  Y. Hung,et al.  Sustainable treatment of landfill leachate , 2015, Applied Water Science.

[97]  Latifah Abd Manaf,et al.  Overview of household solid waste recycling policy status and challenges in Malaysia , 2014 .

[98]  M. Toprak,et al.  Handbook on the Toxicology of Metals , 2014 .

[99]  P. Kirmizakis,et al.  Subcritical water treatment of landfill leachate: application of response surface methodology. , 2014, Journal of environmental management.

[100]  Z. Z. Noor,et al.  The profiles of household solid waste recyclers and non-recyclers in Kuala Lumpur, Malaysia , 2014 .

[101]  Jeng Shiun Lim,et al.  Optimal process network for municipal solid waste management in Iskandar Malaysia , 2014 .

[102]  Haslenda Hashim,et al.  Energy, economic and environmental (3E) analysis of waste-to-energy (WTE) strategies for municipal solid waste (MSW) management in Malaysia , 2015 .

[103]  M A Hannan,et al.  A review on technologies and their usage in solid waste monitoring and management systems: Issues and challenges. , 2015, Waste management.

[104]  H. Fan,et al.  Landfill leachate treatment with Mn and Ce oxides impregnated GAC–ozone treatment process , 2015 .

[105]  Alireza Fazeli,et al.  Malaysia׳s stand on municipal solid waste conversion to energy: A review , 2016 .

[106]  H. Fouad,et al.  Optimization of SBR system for sanitary landfill leachate treatment in Egypt , 2016 .

[107]  C. M. Hasfalina,et al.  PRE-TREATMENT AMMONIA REMOVAL OF SCHEDULED WASTE LEACHATE WITH HYDRATED LIME AND CAUSTIC SODA , 2016 .

[108]  P. A. Soloman,et al.  TREATMENT OF LANDFILL LEACHATE BY MEMBRANE BIOREACTOR AND ELECTRO FENTON PROCESS , 2016 .

[109]  Jeng Shiun Lim,et al.  Review on the renewable energy and solid waste management policies towards biogas development in Malaysia , 2017 .