Bioenergy, ammonia and humic substances recovery from municipal solid waste leachate: A review and process integration

•EGSB + AnMBR is suggested to maximize CH4 production.•NH3 recovery by biogas recirculation with simultaneous Ca removal can be achieved.•Humic substances can be recovered by membrane from nanofiltration concentrate.•The integrated leachate treatment process is promising for resources recovery.•Envi...

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Published inBioresource Technology Vol. 293; p. 122159
Main Authors Gu, Nannan, Liu, Jianyong, Ye, Jiongjiong, Chang, Ning, Li, Yu-You
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2019
Elsevier BV
Subjects
Ammonia
Ammonia stripping
anaerobic digestion
Bioenergy
biogas
Bioreactors
calcium
fertilizers
financial economics
Humic Substances
leachates
membrane bioreactors
Methane
Methane production
municipal solid waste
Municipal solid waste leachate
nanofiltration
nitrogen
Refuse Disposal
Resource recovery
Sewage
sludge
Solid Waste
Resource recovery
A/O-MBR
SCWG
SND
HS
MFC
Methane production
Humic substances
EGSB
UF
OLR
SRT
COD
IC
Bioenergy
TDS
AD
Municipal solid waste leachate
Ammonia stripping
MEC
MSW
MWCO
AnMBR
NF
FA
UASB
RO
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Abstract •EGSB + AnMBR is suggested to maximize CH4 production.•NH3 recovery by biogas recirculation with simultaneous Ca removal can be achieved.•Humic substances can be recovered by membrane from nanofiltration concentrate.•The integrated leachate treatment process is promising for resources recovery.•Environmental and economic benefits of the integrated process are analyzed. High strength of organic matters and nitrogen are the most concerns in treatment of municipal solid waste leachate, but can be removed and recovered as bioenergy and fertilizer. A few review papers on leachate treatment technologies and single resource recovery have been published. However, none practical leachate treatment process towards multiple resources recovery has been worked out. In this paper, technologies of bioenergy, ammonia and humic substances recovery from municipal solid waste leachate are summarized. A two-stage anaerobic digestion comprising an expanded granular sludge bed reactor and an anaerobic membrane bioreactor is suggested to maximize methane production as bioenergy. Ammonia recovery by biogas recirculation with simultaneous calcium removal is proposed for the first time. Humic substances are suggested to be recovered as fertilizer from nanofiltration concentrate by membrane technology. A novel integrated leachate treatment process is proposed for resources recovery from leachate, with more environmental and economic benefits.
AbstractList High strength of organic matters and nitrogen are the most concerns in treatment of municipal solid waste leachate, but can be removed and recovered as bioenergy and fertilizer. A few review papers on leachate treatment technologies and single resource recovery have been published. However, none practical leachate treatment process towards multiple resources recovery has been worked out. In this paper, technologies of bioenergy, ammonia and humic substances recovery from municipal solid waste leachate are summarized. A two-stage anaerobic digestion comprising an expanded granular sludge bed reactor and an anaerobic membrane bioreactor is suggested to maximize methane production as bioenergy. Ammonia recovery by biogas recirculation with simultaneous calcium removal is proposed for the first time. Humic substances are suggested to be recovered as fertilizer from nanofiltration concentrate by membrane technology. A novel integrated leachate treatment process is proposed for resources recovery from leachate, with more environmental and economic benefits.High strength of organic matters and nitrogen are the most concerns in treatment of municipal solid waste leachate, but can be removed and recovered as bioenergy and fertilizer. A few review papers on leachate treatment technologies and single resource recovery have been published. However, none practical leachate treatment process towards multiple resources recovery has been worked out. In this paper, technologies of bioenergy, ammonia and humic substances recovery from municipal solid waste leachate are summarized. A two-stage anaerobic digestion comprising an expanded granular sludge bed reactor and an anaerobic membrane bioreactor is suggested to maximize methane production as bioenergy. Ammonia recovery by biogas recirculation with simultaneous calcium removal is proposed for the first time. Humic substances are suggested to be recovered as fertilizer from nanofiltration concentrate by membrane technology. A novel integrated leachate treatment process is proposed for resources recovery from leachate, with more environmental and economic benefits.
•EGSB + AnMBR is suggested to maximize CH4 production.•NH3 recovery by biogas recirculation with simultaneous Ca removal can be achieved.•Humic substances can be recovered by membrane from nanofiltration concentrate.•The integrated leachate treatment process is promising for resources recovery.•Environmental and economic benefits of the integrated process are analyzed. High strength of organic matters and nitrogen are the most concerns in treatment of municipal solid waste leachate, but can be removed and recovered as bioenergy and fertilizer. A few review papers on leachate treatment technologies and single resource recovery have been published. However, none practical leachate treatment process towards multiple resources recovery has been worked out. In this paper, technologies of bioenergy, ammonia and humic substances recovery from municipal solid waste leachate are summarized. A two-stage anaerobic digestion comprising an expanded granular sludge bed reactor and an anaerobic membrane bioreactor is suggested to maximize methane production as bioenergy. Ammonia recovery by biogas recirculation with simultaneous calcium removal is proposed for the first time. Humic substances are suggested to be recovered as fertilizer from nanofiltration concentrate by membrane technology. A novel integrated leachate treatment process is proposed for resources recovery from leachate, with more environmental and economic benefits.
High strength of organic matters and nitrogen are the most concerns in treatment of municipal solid waste leachate, but can be removed and recovered as bioenergy and fertilizer. A few review papers on leachate treatment technologies and single resource recovery have been published. However, none practical leachate treatment process towards multiple resources recovery has been worked out. In this paper, technologies of bioenergy, ammonia and humic substances recovery from municipal solid waste leachate are summarized. A two-stage anaerobic digestion comprising an expanded granular sludge bed reactor and an anaerobic membrane bioreactor is suggested to maximize methane production as bioenergy. Ammonia recovery by biogas recirculation with simultaneous calcium removal is proposed for the first time. Humic substances are suggested to be recovered as fertilizer from nanofiltration concentrate by membrane technology. A novel integrated leachate treatment process is proposed for resources recovery from leachate, with more environmental and economic benefits.
ArticleNumber 122159
Author Liu, Jianyong
Ye, Jiongjiong
Chang, Ning
Gu, Nannan
Li, Yu-You
Author_xml – sequence: 1
  givenname: Nannan
  surname: Gu
  fullname: Gu, Nannan
  organization: School of Environmental and Chemical Engineering, Shanghai University, 333 Nanchen Road, Shanghai 200444, China
– sequence: 2
  givenname: Jianyong
  surname: Liu
  fullname: Liu, Jianyong
  email: liujianyong@shu.edu.cn
  organization: School of Environmental and Chemical Engineering, Shanghai University, 333 Nanchen Road, Shanghai 200444, China
– sequence: 3
  givenname: Jiongjiong
  surname: Ye
  fullname: Ye, Jiongjiong
  organization: School of Environmental and Chemical Engineering, Shanghai University, 333 Nanchen Road, Shanghai 200444, China
– sequence: 4
  givenname: Ning
  surname: Chang
  fullname: Chang, Ning
  organization: School of Statistics and Management, Shanghai University of Finance and Economics, 777 GuoDing Road, Shanghai 200433, China
– sequence: 5
  givenname: Yu-You
  orcidid: 0000-0003-4067-8855
  surname: Li
  fullname: Li, Yu-You
  organization: Department of Civil and Environmental Engineering, Graduate School of Engineering, Tohoku University, 6-6-06 Aza, Aramaki, Aoba-ku, Sendai, Miyagi 980-8579, Japan
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Keywords Resource recovery
A/O-MBR
SCWG
SND
HS
MFC
Methane production
Humic substances
EGSB
UF
OLR
SRT
COD
IC
Bioenergy
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Snippet •EGSB + AnMBR is suggested to maximize CH4 production.•NH3 recovery by biogas recirculation with simultaneous Ca removal can be achieved.•Humic substances can...
High strength of organic matters and nitrogen are the most concerns in treatment of municipal solid waste leachate, but can be removed and recovered as...
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SubjectTerms Ammonia
Ammonia stripping
anaerobic digestion
Bioenergy
biogas
Bioreactors
calcium
fertilizers
financial economics
Humic Substances
leachates
membrane bioreactors
Methane
Methane production
municipal solid waste
Municipal solid waste leachate
nanofiltration
nitrogen
Refuse Disposal
Resource recovery
Sewage
sludge
Solid Waste
Title Bioenergy, ammonia and humic substances recovery from municipal solid waste leachate: A review and process integration
URI https://dx.doi.org/10.1016/j.biortech.2019.122159
https://cir.nii.ac.jp/crid/1871991018150600192
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Volume 293
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