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kokendwaterreactor

Kokendwaterreactor, or boiling water reactor (BWR), is a type of light-water nuclear reactor used for electricity generation. In a BWR, water serves as both coolant and neutron moderator. The reactor core’s heat boils the water inside the reactor vessel, producing steam directly within the primary loop. This steam drives the turbine connected to a generator, and the condensed steam is returned to the reactor as feedwater. Unlike a pressurized water reactor, the steam is generated in the reactor vessel and sent directly to the turbine, forming a single closed loop.

Key components include the reactor pressure vessel with the fuel assemblies, control rods that can be inserted

Safety and design have evolved since the 1950s and 1960s, with General Electric developing early BWR designs

Advantages of the BWR design include a simpler primary circuit with fewer heat exchangers and a more

from
above
to
regulate
reactivity,
and
a
recirculation
system
that
adjusts
water
flow
and
the
amount
of
boiling
to
control
power.
The
steam
leaves
the
core,
passes
through
moisture
separators
and
dryers,
and
then
drives
the
turbine
before
being
condensed.
Typical
operating
conditions
are
around
70
bar
of
pressure
with
outlet
temperatures
near
280°C,
giving
thermal
efficiencies
in
the
low
to
mid
30s
percent.
and
subsequent
generations
improving
containment,
instrumentation,
and
safety
systems.
Notable
examples
of
BWRs
include
Dresden
Unit
1
in
the
United
States
and
the
Fukushima
Daiichi
units
in
Japan.
The
Fukushima
accident
highlighted
vulnerabilities
related
to
loss
of
cooling
and
hydrogen
buildup,
prompting
enhancements
in
safety
measures
such
as
hydrogen
management,
backup
power,
and
containment
robustness.
compact
layout.
Disadvantages
include
higher
radioactivity
levels
in
the
turbine
and
associated
systems,
and
greater
complexity
in
managing
radiolysis
byproducts
and
hydrogen
in
some
scenarios.