Valorization of Residues from Energy Conversion of Biomass for Advanced and Sustainable Material Applications

The focus of this Special Issue was on biomass ash valorization with respect to their potential for various material applications. Most of the publications in this Special Issue focused on the production of biogenic silica with different properties. Additionally, some of the publications considered...

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collection Directory of Open Access Books
description The focus of this Special Issue was on biomass ash valorization with respect to their potential for various material applications. Most of the publications in this Special Issue focused on the production of biogenic silica with different properties. Additionally, some of the publications considered application of biomass ashes and biochar as a fertilizer, for soil amendment and recovery of ash forming elements such as N and P, as well as the application of biomass feedstocks in biofuel production.Accordingly, ashes produced from the thermochemical conversion of agricultural residues have high potential to be utilized for different material applications. However, local availability, as well as scaling up the process and life-cycle assessment should be considered prior to the utilization of these materials. Furthermore, densification as a mechanical pre-treatment can be crucial to improve the fuel properties, while purification of some of the ash forming elements, such as calcium, potassium, and prosperous should also not be disregarded in future investigations.
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publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-844872024-04-09T23:15:42Z Valorization of Residues from Energy Conversion of Biomass for Advanced and Sustainable Material Applications Enke, Dirk Beidaghy Dizaji, Hossein Lenz, Volker Zeng, Thomas rice husk rice husk ash silica engineered particle bottom-up process silica extraction valorization agricultural byproduct sustainable material biomass renewable material biogenic amorphous silica green chemistry maize leaves sugarcane fiber sugarcane leaves sugarcane pith biorefinery multi-objectives RSM nano-silica de-ashing cellulose crystals carbon nanotubes cellulose sugarcane bagasse capacitance maize straw acid leaching ash pyrolysis nitrogen conversion wood ash fertilizer heat and power plants heavy metals nutrients German fertilizer legislation alkaline leaching continuous process bio-based material waste exhausted grape marc biochar soil amendment biogas lifecycle assessment greenhouse gas emissions mitigation potential GHG mitigation costs manure biomethane RED II EU ETS smoldering high moisture content specific surface area rice straw nanosilica methylene blue zero waste generation decolorization SDGs municipal sewage sludge energy recovery phosphorus recovery techno-economic analysis mono-combustion co-combustion n/a thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues The focus of this Special Issue was on biomass ash valorization with respect to their potential for various material applications. Most of the publications in this Special Issue focused on the production of biogenic silica with different properties. Additionally, some of the publications considered application of biomass ashes and biochar as a fertilizer, for soil amendment and recovery of ash forming elements such as N and P, as well as the application of biomass feedstocks in biofuel production.Accordingly, ashes produced from the thermochemical conversion of agricultural residues have high potential to be utilized for different material applications. However, local availability, as well as scaling up the process and life-cycle assessment should be considered prior to the utilization of these materials. Furthermore, densification as a mechanical pre-treatment can be crucial to improve the fuel properties, while purification of some of the ash forming elements, such as calcium, potassium, and prosperous should also not be disregarded in future investigations. 2022-06-21T08:38:14Z 2022-06-21T08:38:14Z 2022 book ONIX_20220621_9783036542164_65 9783036542164 9783036542157 https://directory.doabooks.org/handle/20.500.12854/84487 eng application/octet-stream Attribution 4.0 International https://mdpi.com/books/pdfview/book/5470 https://mdpi.com/books/pdfview/book/5470 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-4215-7 10.3390/books978-3-0365-4215-7 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036542164 9783036542157 212 Basel open access
spellingShingle rice husk
rice husk ash
silica
engineered particle
bottom-up process
silica extraction
valorization
agricultural byproduct
sustainable material
biomass
renewable material
biogenic amorphous silica
green chemistry
maize leaves
sugarcane fiber
sugarcane leaves
sugarcane pith
biorefinery
multi-objectives RSM
nano-silica
de-ashing
cellulose crystals
carbon nanotubes
cellulose
sugarcane bagasse
capacitance
maize straw
acid leaching
ash
pyrolysis
nitrogen conversion
wood ash
fertilizer
heat and power plants
heavy metals
nutrients
German fertilizer legislation
alkaline leaching
continuous process
bio-based material
waste
exhausted grape marc
biochar
soil amendment
biogas
lifecycle assessment
greenhouse gas emissions
mitigation potential
GHG mitigation costs
manure
biomethane
RED II
EU ETS
smoldering
high moisture content
specific surface area
rice straw
nanosilica
methylene blue
zero waste generation
decolorization
SDGs
municipal sewage sludge
energy recovery
phosphorus recovery
techno-economic analysis
mono-combustion
co-combustion
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
Valorization of Residues from Energy Conversion of Biomass for Advanced and Sustainable Material Applications
title Valorization of Residues from Energy Conversion of Biomass for Advanced and Sustainable Material Applications
title_full Valorization of Residues from Energy Conversion of Biomass for Advanced and Sustainable Material Applications
title_fullStr Valorization of Residues from Energy Conversion of Biomass for Advanced and Sustainable Material Applications
title_full_unstemmed Valorization of Residues from Energy Conversion of Biomass for Advanced and Sustainable Material Applications
title_short Valorization of Residues from Energy Conversion of Biomass for Advanced and Sustainable Material Applications
title_sort valorization of residues from energy conversion of biomass for advanced and sustainable material applications
topic rice husk
rice husk ash
silica
engineered particle
bottom-up process
silica extraction
valorization
agricultural byproduct
sustainable material
biomass
renewable material
biogenic amorphous silica
green chemistry
maize leaves
sugarcane fiber
sugarcane leaves
sugarcane pith
biorefinery
multi-objectives RSM
nano-silica
de-ashing
cellulose crystals
carbon nanotubes
cellulose
sugarcane bagasse
capacitance
maize straw
acid leaching
ash
pyrolysis
nitrogen conversion
wood ash
fertilizer
heat and power plants
heavy metals
nutrients
German fertilizer legislation
alkaline leaching
continuous process
bio-based material
waste
exhausted grape marc
biochar
soil amendment
biogas
lifecycle assessment
greenhouse gas emissions
mitigation potential
GHG mitigation costs
manure
biomethane
RED II
EU ETS
smoldering
high moisture content
specific surface area
rice straw
nanosilica
methylene blue
zero waste generation
decolorization
SDGs
municipal sewage sludge
energy recovery
phosphorus recovery
techno-economic analysis
mono-combustion
co-combustion
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
topic_facet rice husk
rice husk ash
silica
engineered particle
bottom-up process
silica extraction
valorization
agricultural byproduct
sustainable material
biomass
renewable material
biogenic amorphous silica
green chemistry
maize leaves
sugarcane fiber
sugarcane leaves
sugarcane pith
biorefinery
multi-objectives RSM
nano-silica
de-ashing
cellulose crystals
carbon nanotubes
cellulose
sugarcane bagasse
capacitance
maize straw
acid leaching
ash
pyrolysis
nitrogen conversion
wood ash
fertilizer
heat and power plants
heavy metals
nutrients
German fertilizer legislation
alkaline leaching
continuous process
bio-based material
waste
exhausted grape marc
biochar
soil amendment
biogas
lifecycle assessment
greenhouse gas emissions
mitigation potential
GHG mitigation costs
manure
biomethane
RED II
EU ETS
smoldering
high moisture content
specific surface area
rice straw
nanosilica
methylene blue
zero waste generation
decolorization
SDGs
municipal sewage sludge
energy recovery
phosphorus recovery
techno-economic analysis
mono-combustion
co-combustion
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
url ONIX_20220621_9783036542164_65