Biomass gasification in fluidized beds: A review of biomass moisture content and operating pressure effects

Biomass gasification in fluidized beds: A review of biomass moisture content and operating pressure effects

The global dependence on fossil reserves as well as the environmental aspects related to them are some of the factors that propel research on renewable energy forms. Gasification, a thermochemical process that converts carbonaceous resources into syngas, is an advantageous alternative due to its rel...

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Bibliographic Details
Published in:Renewable & sustainable energy reviews Vol. 94; pp. 998 - 1023
Main Authors: Motta, Ingrid Lopes, Miranda, Nahieh Toscano, Maciel Filho, Rubens, Wolf Maciel, Maria Regina
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-10-2018
Subjects:
Biomass gasification
Fluidized bed
Gasifier
Moisture content
Pressure
Syngas
WGS
BIGCC
S/B
CHP
PFB
PFD
eph,syngas
HGCU
ech,biomass
BtL
DOE
CEDER
eagent
IEA
CHRISGAS
ER
Pressure
SEA
CHxOy
PCA
LHVbiomass
Biomass gasification
KIT
MWth
PICHTR
CFB
FEED
MWfuel
SOFC
Fluidized bed
CHOREN
HTL
FTS
IRENA
ψ
SNG
Syngas
HT-WGS
Vg
RDF
Moisture content
Mbiomass
PLS
TPS
HHV
VTT
IGCC
DME
wt
CGE
FICFB
PDU
ASU
CCE
Gasifier
ech,syngas
CCG
nagent
LHVi
GV
MSW
xi
CCS
PAH
IGT
nsyngas
UCG
MWe
LHVsyngas
GTI
SCO
ATR
BFB
HRSG
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Description
Summary:The global dependence on fossil reserves as well as the environmental aspects related to them are some of the factors that propel research on renewable energy forms. Gasification, a thermochemical process that converts carbonaceous resources into syngas, is an advantageous alternative due to its relatively low costs, high efficiencies, and syngas’ wide variety of applications. Although gasification is a very promising heat, power, and fuel production technique, there is still a field of improvement in gasification in fluidized beds when it comes to operation under high pressure and with feedstocks containing moderate or high moisture contents. Thus, to provide enough information to address such questions, the present work aims at bringing an overview of gasification concepts, as well as an in-depth discussion based on simulation, laboratory- and demonstration-scale works of the effects of biomass water content and pressure on different parameters of several fluidized bed gasifiers. Moreover, diverse strategies for handling high-moisture content biomass materials are presented, as well as the achievements and technical difficulties encountered by worldwide development and demonstration plant projects that designed and used pressurized fluidized-bed gasifiers. •Effect of biomass moisture and pressure on fluidized bed gasification was reviewed.•Biomass moisture reduces bed temperature and increases energy requirements.•Co-gasification, torrefaction and HTL as pretreatment methods to reduce moisture.•High pressures create operating difficulties and affect gas composition, but increase gas yields and CGE.•Previous experiences of large-scale pressurized biomass gasifiers were described.
ISSN:1364-0321
1879-0690
DOI:10.1016/j.rser.2018.06.042