Home

windpower

Wind power is energy generated by converting the kinetic energy of wind into electricity, typically using wind turbines. Modern turbines consist of rotor blades attached to a nacelle mounted on a tall tower. The rotor drives a generator, often via a gearbox, though some designs use direct-drive systems. A control system optimizes blade pitch and turbine orientation relative to wind direction (yaw control). Electricity is transmitted through transformers and cables to the power grid. Onshore wind is installed on land; offshore wind is built in seas or oceans where winds are stronger and steadier. Offshore projects generally employ taller towers and larger rotors, which increases capacity but adds cost and technical complexity.

Wind resources vary by location, with capacity factors depending on wind speed and turbine design; typical

Global deployment has grown rapidly since the late 20th century, driven by policy support and falling costs.

onshore
factors
range
from
20%
to
40%,
and
offshore
factors
are
higher.
Benefits
include
low
operating
costs,
no
fuel
emissions
during
operation,
and
rapid
scalability.
Challenges
include
intermittency
and
variability,
grid
integration
and
storage
needs,
land
use
and
wildlife
impacts,
visual
and
noise
concerns,
and
the
energy
and
materials
required
for
manufacturing
and
decommissioning.
Ongoing
innovations
include
larger
turbines,
taller
towers,
offshore
floating
platforms,
and
advanced
grid
technologies
to
accommodate
variable
generation,
with
the
aim
of
increasing
wind’s
share
in
clean
electricity
portfolios.
The
efficiency
of
converting
wind
energy
is
bounded
by
Betz’s
law,
which
limits
the
maximum
extractable
energy
from
wind
to
about
59%.