ASME Journal of Engineering for Sustainable Buildings and Cities,
Год журнала:
2023,
Номер
5(1)
Опубликована: Ноя. 15, 2023
Abstract
Distributed
energy
resources
(DERs)
have
been
considered
as
a
promising
solution
due
to
the
benefits
on
efficiency
and
environmental
sides.
However,
despite
rapid
development
of
distributed
technologies,
share
generation
is
still
small
in
comparison
that
traditional
generation.
Time-of-use
(TOU)
pricing
can
be
an
important
incentive
strategy
encourage
penetration
resources.
In
this
paper,
multi-objective
optimization
considering
time-of-use
impacts
proposed
determine
optimal
configuration
capacity
involving
different
including
solar
photovoltaic
(PV),
thermal
collector
(STC),
combined
heating
power
system
(CHP),
integrated
storage
(ES).
The
are
designed
satisfy
electric
load
commercial
buildings
(large
hotels
medium
offices)
partially
or
entirely.
utilized
configure
combination
technologies
well
reduce
both
cost
impact
locations.
Results
show
method
achieve
trade-off
between
based
existing
structure.
According
to
the
desulfurization
mechanism
of
fluidized
bed
boiler,
factors
affecting
efficiency
are
determined,
and
weight
coefficients
determined
according
contribution
each
factor
efficiency.
A
neural
network-based
model
system
boiler
is
established.
The
structure,
training
simulation
capabilities
this
have
been
deeply
systematically
studied.
results
show
that
network
intelligent
integrated
can
simulate
predict
well.
reactor
outlet
temperature
approaches
adiabatic
saturation
temperature,
calcium-sulfur
ratio
cycle
rate
most
significant
parameters
As
increases,
decreases,
while
increases
with
increases.
Moreover,
use
recycled
materials
significantly
improves
In
addition,
control
optimization
method
has
high
prediction
accuracy
fast
convergence
speed,
suitable
for
industrial
processes
severe
nonlinearity,
especially
many
input
variables.
ASME Journal of Engineering for Sustainable Buildings and Cities,
Год журнала:
2023,
Номер
5(1)
Опубликована: Ноя. 15, 2023
Abstract
Distributed
energy
resources
(DERs)
have
been
considered
as
a
promising
solution
due
to
the
benefits
on
efficiency
and
environmental
sides.
However,
despite
rapid
development
of
distributed
technologies,
share
generation
is
still
small
in
comparison
that
traditional
generation.
Time-of-use
(TOU)
pricing
can
be
an
important
incentive
strategy
encourage
penetration
resources.
In
this
paper,
multi-objective
optimization
considering
time-of-use
impacts
proposed
determine
optimal
configuration
capacity
involving
different
including
solar
photovoltaic
(PV),
thermal
collector
(STC),
combined
heating
power
system
(CHP),
integrated
storage
(ES).
The
are
designed
satisfy
electric
load
commercial
buildings
(large
hotels
medium
offices)
partially
or
entirely.
utilized
configure
combination
technologies
well
reduce
both
cost
impact
locations.
Results
show
method
achieve
trade-off
between
based
existing
structure.
