Stabilized landfill leachate treatment by combined physicochemical–nanofiltration processes

Landfill leachate is a complex wastewater which the composition and concentration of contaminants are influenced by the type of waste deposited and the age of landfill. In the last years, several processes or process combinations were developed and tested to reach requirements for the discharge of l...

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Bibliographic Details
Published inWater research (Oxford) Vol. 35; no. 12; pp. 2935 - 2942
Main Authors Trebouet, D, Schlumpf, J.P, Jaouen, P, Quemeneur, F
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.08.2001
Elsevier Science
Subjects
Adsorption
Applied sciences
Calcium - analysis
Calcium - chemistry
Chlorides
Coagulants - pharmacology
coagulation
COD
Colloids - chemistry
Environmental Monitoring - methods
Exact sciences and technology
Ferric Compounds - pharmacology
Filtration - methods
Flocculation
fouling
Hydrogen-Ion Concentration
Iron - analysis
Iron - chemistry
landfill leachate
Membranes
Molecular Weight
nanofiltration
Osmotic Pressure
Other wastewaters
Oxygen Consumption
Pollution
Soil Pollutants - analysis
Surface Properties
Suspensions
Waste Disposal, Fluid - methods
Wastewaters
Water Movements
Water Pollutants - analysis
Water Purification - methods
Water treatment and pollution
COD
adsorption
landfill leachate
fouling
coagulation
nanofiltration
Membrane separation
Nanofiltration
Sanitary landfill
Waste dumping
Fouling
Adsorption
Flocculation
Physicochemical purification
Waste water purification
Experimental study
Leachate
Online AccessGet full text
ISSN0043-1354
1879-2448
DOI10.1016/S0043-1354(01)00005-7

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Abstract Landfill leachate is a complex wastewater which the composition and concentration of contaminants are influenced by the type of waste deposited and the age of landfill. In the last years, several processes or process combinations were developed and tested to reach requirements for the discharge of leachate. Among the new processes, membrane processes are considered as promising: reverse osmosis is one of the most widely used treatment in the Northwestern European countries and nanofiltration is gained in popularity during the last 5 years. Successful application of membrane technology for the treatment of landfill leachates, requires efficient control of membrane fouling. Two organic membranes of nanofiltration were used for pilot-scale testing. Leachates were subject to several pretreatments (pH modification, prefiltration and coagulation with FeCl 3) to remove potential foulants including dissolved organic and inorganic substances, colloidal and suspended particles. These pretreatments do not enhance the performances (retention and permeation flux) of membranes because the pH range and the presence of Fe 3+ ions contribute greatly to change the characteristics of organic matter and the surface charges of membranes. However, the results show that nanofiltration is sufficient to eliminate refractory COD, the permeates have a COD lower than the requirements for discharge.
AbstractList Landfill leachate is a complex wastewater which the composition and concentration of contaminants are influenced by the type of waste deposited and the age of landfill. In the last years, several processes or process combinations were developed and tested to reach requirements for the discharge of leachate. Among the new processes, membrane processes are considered as promising: reverse osmosis is one of the most widely used treatment in the Northwestern European countries and nanofiltration is gained in popularity during the last 5 years. Successful application of membrane technology for the treatment of landfill leachates, requires efficient control of membrane fouling. Two organic membranes of nanofiltration were used for pilot-scale testing. Leachates were subject to several pretreatments (pH modification, prefiltration and coagulation with FeCl3) to remove potential foulants including dissolved organic and inorganic substances, colloidal and suspended particles. These pretreatments do not enhance the performances (retention and permeation flux) of membranes because the pH range and the presence of Fe3+ ions contribute greatly to change the characteristics of organic matter and the surface charges of membranes. However, the results show that nanofiltration is sufficient to eliminate refractory COD, the permeates have a COD lower than the requirements for discharge.Landfill leachate is a complex wastewater which the composition and concentration of contaminants are influenced by the type of waste deposited and the age of landfill. In the last years, several processes or process combinations were developed and tested to reach requirements for the discharge of leachate. Among the new processes, membrane processes are considered as promising: reverse osmosis is one of the most widely used treatment in the Northwestern European countries and nanofiltration is gained in popularity during the last 5 years. Successful application of membrane technology for the treatment of landfill leachates, requires efficient control of membrane fouling. Two organic membranes of nanofiltration were used for pilot-scale testing. Leachates were subject to several pretreatments (pH modification, prefiltration and coagulation with FeCl3) to remove potential foulants including dissolved organic and inorganic substances, colloidal and suspended particles. These pretreatments do not enhance the performances (retention and permeation flux) of membranes because the pH range and the presence of Fe3+ ions contribute greatly to change the characteristics of organic matter and the surface charges of membranes. However, the results show that nanofiltration is sufficient to eliminate refractory COD, the permeates have a COD lower than the requirements for discharge.
Landfill leachate is a complex wastewater which the composition and concentration of contaminants are influenced by the type of waste deposited and the age of landfill. In the last years, several processes or process combinations were developed and tested to reach requirements for the discharge of leachate. Among the new processes, membrane processes are considered as promising: reverse osmosis is one of the most widely used treatment in the Northwestern European countries and nanofiltration is gained in popularity during the last 5 years. Successful application of membrane technology for the treatment of landfill leachates, requires efficient control of membrane fouling. Two organic membranes of nanofiltration were used for pilot-scale testing. Leachates were subject to several pretreatments (pH modification, prefiltration and coagulation with FeCl sub(3)) to remove potential foulants including dissolved organic and inorganic substances, colloidal and suspended particles. These pretreatments do not enhance the performances (retention and permeation flux) of membranes because the pH range and the presence of Fe super(3+) ions contribute greatly to change the characteristics of organic matter and the surface charges of membranes. However, the results show that nanofiltration is sufficient to eliminate refractory COD, the permeates have a COD lower than the requirements for discharge.
Landfill leachate is a complex wastewater which the composition and concentration of contaminants are influenced by the type of waste deposited and the age of landfill. In the last years, several processes or process combinations were developed and tested to reach requirements for the discharge of leachate. Among the new processes, membrane processes are considered as promising: reverse osmosis is one of the most widely used treatment in the Northwestern European countries and nanofiltration is gained in popularity during the last 5 years. Successful application of membrane technology for the treatment of landfill leachates, requires efficient control of membrane fouling. Two organic membranes of nanofiltration were used for pilot-scale testing. Leachates were subject to several pretreatments (pH modification, prefiltration and coagulation with FeCl3) to remove potential foulants including dissolved organic and inorganic substances, colloidal and suspended particles. These pretreatments do not enhance the performances (retention and permeation flux) of membranes because the pH range and the presence of Fe3+ ions contribute greatly to change the characteristics of organic matter and the surface charges of membranes. However, the results show that nanofiltration is sufficient to eliminate refractory COD, the permeates have a COD lower than the requirements for discharge.
Landfill leachate is a complex wastewater which the composition and concentration of contaminants are influenced by the type of waste deposited and the age of landfill. In the last years, several processes or process combinations were developed and tested to reach requirements for the discharge of leachate. Among the new processes, membrane processes are considered as promising: reverse osmosis is one of the most widely used treatment in the Northwestern European countries and nanofiltration is gained in popularity during the last 5 years. Successful application of membrane technology for the treatment of landfill leachates, requires efficient control of membrane fouling. Two organic membranes of nanofiltration were used for pilot-scale testing. Leachates were subject to several pretreatments (pH modification, prefiltration and coagulation with FeCl 3) to remove potential foulants including dissolved organic and inorganic substances, colloidal and suspended particles. These pretreatments do not enhance the performances (retention and permeation flux) of membranes because the pH range and the presence of Fe 3+ ions contribute greatly to change the characteristics of organic matter and the surface charges of membranes. However, the results show that nanofiltration is sufficient to eliminate refractory COD, the permeates have a COD lower than the requirements for discharge.
Author Jaouen, P
Trebouet, D
Schlumpf, J.P
Quemeneur, F
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Issue 12
Keywords COD
adsorption
landfill leachate
fouling
coagulation
nanofiltration
Membrane separation
Nanofiltration
Sanitary landfill
Waste dumping
Fouling
Adsorption
Flocculation
Physicochemical purification
Waste water purification
Experimental study
Leachate
Language English
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Snippet Landfill leachate is a complex wastewater which the composition and concentration of contaminants are influenced by the type of waste deposited and the age of...
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StartPage 2935
SubjectTerms Adsorption
Applied sciences
Calcium - analysis
Calcium - chemistry
Chlorides
Coagulants - pharmacology
coagulation
COD
Colloids - chemistry
Environmental Monitoring - methods
Exact sciences and technology
Ferric Compounds - pharmacology
Filtration - methods
Flocculation
fouling
Hydrogen-Ion Concentration
Iron - analysis
Iron - chemistry
landfill leachate
Membranes
Molecular Weight
nanofiltration
Osmotic Pressure
Other wastewaters
Oxygen Consumption
Pollution
Soil Pollutants - analysis
Surface Properties
Suspensions
Waste Disposal, Fluid - methods
Wastewaters
Water Movements
Water Pollutants - analysis
Water Purification - methods
Water treatment and pollution
Title Stabilized landfill leachate treatment by combined physicochemical–nanofiltration processes
URI https://dx.doi.org/10.1016/S0043-1354(01)00005-7
https://www.ncbi.nlm.nih.gov/pubmed/11471693
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https://www.proquest.com/docview/71065620
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