Sustainability,
Journal Year:
2022,
Volume and Issue:
14(22), P. 15070 - 15070
Published: Nov. 14, 2022
Microalgae
exhibit
remarkable
potential
as
a
feedstock
for
biofuel
production
compared
with
other
sources,
owing
to
their
high
areal
productivity,
low
environmental
effect,
and
negligible
influence
on
food
security.
However,
the
primary
obstacle
commercialization
of
algae-based
biofuels
is
economic
cost
due
low-yield
lipid
content
in
microalgae
biomass.
Maximizing
biomass
crucial
improve
viability
biofuels.
Identifying
appropriate
algal
strains,
particularly
from
indigenous
environments,
developing
those
‘platform
strains’
using
mutagenesis
genetic-engineering
techniques
preferable.
The
provided
discussion
conventional
methods
increase
microalgae’s
productivity
mostly
entailed
adjusting
(such
temperature,
light,
salinity)
nutritional
nitrogen
phosphorus)
parameters.
This
review
illustrated
comprehensive
overview
biotechnological
approaches
recent
strategies
enhance
microalgae.
research
also
emphasized
need
streamline
engineering
aid
advancements
DNA-manipulation
hinder
existing
biological
intricacies
lipogenesis.
discussed
current
this
biorefinery
along
drawbacks.
International Journal of Renewable Energy Development,
Journal Year:
2024,
Volume and Issue:
13(4), P. 750 - 782
Published: May 15, 2024
The
rising
demand
for
renewable
energy
sources
has
fueled
interest
in
converting
biomass
and
organic
waste
into
sustainable
bioenergy.
This
study
employs
a
bibliometric
analysis
(2013-2023)
of
publications
to
assess
trends,
advancements,
future
prospects
this
field.
explores
seven
key
research
indicators,
including
publication
leading
contributors,
keyword
analysis,
highly
cited
papers.
We
begin
with
comprehensive
overview
as
source
various
waste-to-energy
technologies.
Employing
Scopus
Web
Science
databases
alongside
Biblioshiny
VOSviewer
the
investigates
patterns,
citation
networks,
usage.
systematic
approach
unveils
significant
trends
focus
identifies
prominent
actors
(countries
institutions).
Our
findings
reveal
increase
yearly
publications,
reflecting
growing
global
on
conversion.
Leading
contributors
include
China,
United
States,
India,
Germany.
Analysis
keywords
commonly
used
terms
like
"biofuels,"
"pyrolysis,"
"lignocellulosic
biomass."
concludes
by
proposing
directions,
emphasizing
advanced
conversion
technologies,
integration
sources,
innovative
modelling
techniques.
Sustainability,
Journal Year:
2022,
Volume and Issue:
14(22), P. 15070 - 15070
Published: Nov. 14, 2022
Microalgae
exhibit
remarkable
potential
as
a
feedstock
for
biofuel
production
compared
with
other
sources,
owing
to
their
high
areal
productivity,
low
environmental
effect,
and
negligible
influence
on
food
security.
However,
the
primary
obstacle
commercialization
of
algae-based
biofuels
is
economic
cost
due
low-yield
lipid
content
in
microalgae
biomass.
Maximizing
biomass
crucial
improve
viability
biofuels.
Identifying
appropriate
algal
strains,
particularly
from
indigenous
environments,
developing
those
‘platform
strains’
using
mutagenesis
genetic-engineering
techniques
preferable.
The
provided
discussion
conventional
methods
increase
microalgae’s
productivity
mostly
entailed
adjusting
(such
temperature,
light,
salinity)
nutritional
nitrogen
phosphorus)
parameters.
This
review
illustrated
comprehensive
overview
biotechnological
approaches
recent
strategies
enhance
microalgae.
research
also
emphasized
need
streamline
engineering
aid
advancements
DNA-manipulation
hinder
existing
biological
intricacies
lipogenesis.
discussed
current
this
biorefinery
along
drawbacks.
