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Biomass Processing for Biofuels, Bioenergy and Chemicals



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Autore: Bhaskar Thallada Visualizza persona
Titolo: Biomass Processing for Biofuels, Bioenergy and Chemicals Visualizza cluster
Pubblicazione: MDPI - Multidisciplinary Digital Publishing Institute, 2020
Descrizione fisica: 1 online resource (428 p.)
Soggetto topico: History of engineering and technology
Soggetto non controllato: acclimatization
alternative fuel
anaerobic digestion
anaerobic treatment
antioxidant
base-catalyzed transesterification
bio-jet fuel
biochar
biodiesel
biodiesel production
bioenergy
bioethanol
biofuel
biogas
biomass
biomass pretreatment
black soldier fly larvae (BSFL)
Box-Behnken design
butylated hydroxyanisole
co-combustion
coffee mucilage
combustion
combustion characteristics
compression ratio
concentration polarization
cow manure
crude glycerol
crude oil
dark fermentation
diesel
dimethyl carbonate
direct carbon fuel cell
draw solution
drop-in fuel
emission
energy yield
environment
enzymatic digestibility
extrusion
FAME yield
fatty acid methyl ester
Fatty Acid Methyl Ester
fatty acid methyl ester (FAME)
fatty acid methyl esters
feed solution
fermentation
forward osmosis
Fourier transform infrared spectroscopy
free fatty acid
free fatty acids
gasification
GCI
glycerol carbonate
hardwood
hydrodeoxygenation
hydrogen
injection strategies
instar
intake temperature
kinetic study
lignocellulose
lipid
lipids
membrane fouling
mesophilic
microwave
microwave irradiation
nano-additives
nano-catalysts
nanomagnetic catalyst
nanotechnology
non-edible oil
operating conditions
organic wastes
osmotic membrane
oxidation stability
palm oil mill effluent
Physico-chemical properties
post-treatment
potato peels
power density
power generation
pre-treatment
pressure-retarded osmosis
pretreatment
pyrolysis
Rancimat method
reaction kinetics
renewable energy
response surface
Rhus typhina biodiesel
rice husk
rice straw
rubber seed oil
sewage sludge
single-pellet combustion
subcritical methanol
synergistic effect
technology development
tert-butylhydroquinone
thermogravimetric analysis
thermophilic
torrefaction
triacylglycerides
vacuum
viscosity
waste
Persona (resp. second.): ChenWei-Hsin
OngHwai
Sommario/riassunto: Biomass can be used to produce renewable electricity, thermal energy, transportation fuels (biofuels), and high-value functional chemicals. As an energy source, biomass can be used either directly via combustion to produce heat or indirectly after it is converted to one of many forms of bioenergy and biofuel via thermochemical or biochemical pathways. The conversion of biomass can be achieved using various advanced methods, which are broadly classified into thermochemical conversion, biochemical conversion, electrochemical conversion, and so on. Advanced development technologies and processes are able to convert biomass into alternative energy sources in solid (e.g., charcoal, biochar, and RDF), liquid (biodiesel, algae biofuel, bioethanol, and pyrolysis and liquefaction bio-oils), and gaseous (e.g., biogas, syngas, and biohydrogen) forms. Because of the merits of biomass energy for environmental sustainability, biofuel and bioenergy technologies play a crucial role in renewable energy development and the replacement of chemicals by highly functional biomass. This book provides a comprehensive overview and in-depth technical research addressing recent progress in biomass conversion processes. It also covers studies on advanced techniques and methods for bioenergy and biofuel production.
Titolo autorizzato: Biomass Processing for Biofuels, Bioenergy and Chemicals  Visualizza cluster
ISBN: 3-03928-910-1
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910404079103321
Lo trovi qui: Univ. Federico II
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