Recent advances in municipal landfill leachate: A review focusing on its characteristics, treatment, and toxicity assessment

Nowadays, sanitary landfilling is the most common approach to eliminate municipal solid waste, but a major drawback is the generation of heavily polluted leachates. These leachates must be appropriately treated before being discharged into the environment. Generally, the leachate characteristics suc...

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Published inThe Science of the total environment Vol. 703; p. 135468
Main Authors Luo, Hongwei, Zeng, Yifeng, Cheng, Ying, He, Dongqin, Pan, Xiangliang
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 10.02.2020
Subjects
ammonium nitrogen
bioassays
biochemical oxygen demand
Biological Assay
Biological processes
chemical oxygen demand
cost effectiveness
guidelines
Landfill leachate
landfill leachates
landfills
Municipal solid waste
Physical-chemical processes
Refuse Disposal - methods
remediation
toxic substances
toxicity
Toxicity assessment
trophic levels
Waste Disposal Facilities
Water Pollutants, Chemical
MBBR
PCBs
DO
HRT
VFA
UF
RBC
SHARON
OLR
BOD
AMD
DOC
MF
US
UV
VOCs
AC
AD
DOM
AF
GAC
TOC
PPCPs
4-t-BP
FBBR
RSM
BPA
Municipal solid waste
NF
MAP
RO
Physical-chemical processes
PFASs
RAPD
AOPs
EDCs
COD
MBR
SS
SBR
ARGs
Landfill leachate
Toxicity assessment
AOX
MIEX
EBCT
TC
MSW
TF
PAC
CW
Biological processes
ANAMMOX
TN
UASB
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Abstract Nowadays, sanitary landfilling is the most common approach to eliminate municipal solid waste, but a major drawback is the generation of heavily polluted leachates. These leachates must be appropriately treated before being discharged into the environment. Generally, the leachate characteristics such as COD, BOD/COD ratio, and landfill age are necessary determinants for selection of suitable treatment technologies. Rapid, sensitive and cost-effective bioassays are required to evaluate the toxicity of leachate before and after the treatment. This review summarizes extensive studies on leachate treatment methods and leachate toxicity assessment. It is found that individual biological or physical-chemical treatment is unable to meet strict effluent guidelines, whereas a combination of biological and physical-chemical treatments can achieve satisfactory removal efficiencies of both COD and ammonia nitrogen. In order to assess the toxic effects of leachate on different trophic organisms, we need to develop an appropriate matrix of bioassays based on their sensitivity to various toxicants and a multispecies approach using organisms representing different trophic levels. In this regard, a reduction in toxicity of the treated leachate will contribute to assessing the effectiveness of a specific remediation strategy. [Display omitted] •Suitable treatment technologies depend mainly on leachate COD, BOD/COD ratio, and landfill age.•Efficiencies, cost and environmental impacts are three major criteria for selecting treatment technologies.•A combination of two or more treatment technologies can achieve satisfactory removal efficiencies.•An appropriate matrix of bioassays should be developed to assess the toxic effects of leachate.
AbstractList Nowadays, sanitary landfilling is the most common approach to eliminate municipal solid waste, but a major drawback is the generation of heavily polluted leachates. These leachates must be appropriately treated before being discharged into the environment. Generally, the leachate characteristics such as COD, BOD/COD ratio, and landfill age are necessary determinants for selection of suitable treatment technologies. Rapid, sensitive and cost-effective bioassays are required to evaluate the toxicity of leachate before and after the treatment. This review summarizes extensive studies on leachate treatment methods and leachate toxicity assessment. It is found that individual biological or physical-chemical treatment is unable to meet strict effluent guidelines, whereas a combination of biological and physical-chemical treatments can achieve satisfactory removal efficiencies of both COD and ammonia nitrogen. In order to assess the toxic effects of leachate on different trophic organisms, we need to develop an appropriate matrix of bioassays based on their sensitivity to various toxicants and a multispecies approach using organisms representing different trophic levels. In this regard, a reduction in toxicity of the treated leachate will contribute to assessing the effectiveness of a specific remediation strategy.
Nowadays, sanitary landfilling is the most common approach to eliminate municipal solid waste, but a major drawback is the generation of heavily polluted leachates. These leachates must be appropriately treated before being discharged into the environment. Generally, the leachate characteristics such as COD, BOD/COD ratio, and landfill age are necessary determinants for selection of suitable treatment technologies. Rapid, sensitive and cost-effective bioassays are required to evaluate the toxicity of leachate before and after the treatment. This review summarizes extensive studies on leachate treatment methods and leachate toxicity assessment. It is found that individual biological or physical-chemical treatment is unable to meet strict effluent guidelines, whereas a combination of biological and physical-chemical treatments can achieve satisfactory removal efficiencies of both COD and ammonia nitrogen. In order to assess the toxic effects of leachate on different trophic organisms, we need to develop an appropriate matrix of bioassays based on their sensitivity to various toxicants and a multispecies approach using organisms representing different trophic levels. In this regard, a reduction in toxicity of the treated leachate will contribute to assessing the effectiveness of a specific remediation strategy. [Display omitted] •Suitable treatment technologies depend mainly on leachate COD, BOD/COD ratio, and landfill age.•Efficiencies, cost and environmental impacts are three major criteria for selecting treatment technologies.•A combination of two or more treatment technologies can achieve satisfactory removal efficiencies.•An appropriate matrix of bioassays should be developed to assess the toxic effects of leachate.
Nowadays, sanitary landfilling is the most common approach to eliminate municipal solid waste, but a major drawback is the generation of heavily polluted leachates. These leachates must be appropriately treated before being discharged into the environment. Generally, the leachate characteristics such as COD, BOD/COD ratio, and landfill age are necessary determinants for selection of suitable treatment technologies. Rapid, sensitive and cost-effective bioassays are required to evaluate the toxicity of leachate before and after the treatment. This review summarizes extensive studies on leachate treatment methods and leachate toxicity assessment. It is found that individual biological or physical-chemical treatment is unable to meet strict effluent guidelines, whereas a combination of biological and physical-chemical treatments can achieve satisfactory removal efficiencies of both COD and ammonia nitrogen. In order to assess the toxic effects of leachate on different trophic organisms, we need to develop an appropriate matrix of bioassays based on their sensitivity to various toxicants and a multispecies approach using organisms representing different trophic levels. In this regard, a reduction in toxicity of the treated leachate will contribute to assessing the effectiveness of a specific remediation strategy.Nowadays, sanitary landfilling is the most common approach to eliminate municipal solid waste, but a major drawback is the generation of heavily polluted leachates. These leachates must be appropriately treated before being discharged into the environment. Generally, the leachate characteristics such as COD, BOD/COD ratio, and landfill age are necessary determinants for selection of suitable treatment technologies. Rapid, sensitive and cost-effective bioassays are required to evaluate the toxicity of leachate before and after the treatment. This review summarizes extensive studies on leachate treatment methods and leachate toxicity assessment. It is found that individual biological or physical-chemical treatment is unable to meet strict effluent guidelines, whereas a combination of biological and physical-chemical treatments can achieve satisfactory removal efficiencies of both COD and ammonia nitrogen. In order to assess the toxic effects of leachate on different trophic organisms, we need to develop an appropriate matrix of bioassays based on their sensitivity to various toxicants and a multispecies approach using organisms representing different trophic levels. In this regard, a reduction in toxicity of the treated leachate will contribute to assessing the effectiveness of a specific remediation strategy.
ArticleNumber 135468
Author Pan, Xiangliang
Cheng, Ying
He, Dongqin
Luo, Hongwei
Zeng, Yifeng
Author_xml – sequence: 1
  givenname: Hongwei
  surname: Luo
  fullname: Luo, Hongwei
– sequence: 2
  givenname: Yifeng
  surname: Zeng
  fullname: Zeng, Yifeng
– sequence: 3
  givenname: Ying
  surname: Cheng
  fullname: Cheng, Ying
– sequence: 4
  givenname: Dongqin
  surname: He
  fullname: He, Dongqin
– sequence: 5
  givenname: Xiangliang
  surname: Pan
  fullname: Pan, Xiangliang
  email: panxl@zjut.edu.cn
BackLink https://www.ncbi.nlm.nih.gov/pubmed/31753496$$D View this record in MEDLINE/PubMed
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PublicationDateYYYYMMDD 2020-02-10
PublicationDate_xml – month: 02
  year: 2020
  text: 2020-02-10
  day: 10
PublicationDecade 2020
PublicationPlace Netherlands
PublicationPlace_xml – name: Netherlands
PublicationTitle The Science of the total environment
PublicationTitleAlternate Sci Total Environ
PublicationYear 2020
Publisher Elsevier B.V
Publisher_xml – name: Elsevier B.V
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Snippet Nowadays, sanitary landfilling is the most common approach to eliminate municipal solid waste, but a major drawback is the generation of heavily polluted...
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SubjectTerms ammonium nitrogen
bioassays
biochemical oxygen demand
Biological Assay
Biological processes
chemical oxygen demand
cost effectiveness
guidelines
Landfill leachate
landfill leachates
landfills
Municipal solid waste
Physical-chemical processes
Refuse Disposal - methods
remediation
toxic substances
toxicity
Toxicity assessment
trophic levels
Waste Disposal Facilities
Water Pollutants, Chemical
Title Recent advances in municipal landfill leachate: A review focusing on its characteristics, treatment, and toxicity assessment
URI https://dx.doi.org/10.1016/j.scitotenv.2019.135468
https://www.ncbi.nlm.nih.gov/pubmed/31753496
https://www.proquest.com/docview/2317599430
https://www.proquest.com/docview/2388748708
Volume 703
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