Electricity generators typically
use steam turbines to transform energy from the burning of fossil fuels such as coal into electricity that can be used for residential, commercial, industrial, or transportation purposes.
Unlike solar photovoltaic (PV) technologies, CSP plants
use steam turbines, and thus can provide most needed ancillary services.
Not exact matches
These incinerators were able to recover energy through burning waste,
using the released heat to boil water, and
using the
steam produced to power
turbines that generate electricity.
The water would be
used in seawater greenhouses and a concentrated solar power operation, in which mirrors focus sunlight onto water boilers to push
steam - powered
turbines.
The heat from the helium can then be
used to create
steam to drive a
turbine.
The hydrogen would be stored for
use overnight to superheat water and run the
steam turbines, or it could be
used for other applications, producing zero greenhouse - gas emissions.
Heated springs and geysers up to three miles underground can be accessed by special wells that bring the hot water (or
steam from it) up to the surface where it can be
used directly for heat or indirectly to generate electricity by powering rotating
turbines.
The heated liquid is
used to generate
steam, which turns a
turbine, generating electricity.
Most systems
use a heat exchanger to boil clean water for
steam to spin a
turbine.
The resulting heat is conveyed out of the reactor, where it turns water into
steam that is
used to run a
turbine that drives an electric generator.
The
steam produced is
used to turn
turbines and produce up to 5 megawatts of electricity.
Known as PS10 and built by the Spanish company Abengoa Solar, the project produces electricity with 624 large moveable mirrors called heliostats,
using these to concentrate the sun's heat to the top of a 115 - metre - high tower where a solar receiver and a
steam turbine are located.
This «supression tank» recycles and regulates
steam generated by heat from the reactor that is
used to drive the electrical generators in the neighbouring
turbine hall.
When electricity is needed, the hot salt is
used to boil water and produce high - temperature, high - pressure
steam, which turns
turbines that generate electricity.
Now engineers are looking into replacing
steam with supercritical carbon dioxide, a technique that could unlock up to 50 percent greater thermal efficiency
using a smaller, cheaper
turbine.
After geothermal power plants pump up a hot brine — water and dissolved salts from underground — and
use its heat to make
steam to spin a
turbine and generate electricity, Simbol would borrow the still warm fluid for roughly 90 minutes.
EPD's trick is to
use sand as the heat - exchange substance,
using it to create
steam and drive a
turbine.
And at 11:08 A.M. local time Wednesday, this concentrated light heated
steam in those towers to turn a
turbine — the first «power towers» in the U.S. to convert the sun's heat into electricity for commercial
use.
Today's nuclear power plants
use the heat from uranium fission reactions to do nothing more complicated than boil water, making pressurized
steam that spins
turbines to generate electricity.
Torrid exhaust gases from the
turbine are captured and
used to heat water, which is fed to a separate
steam turbine to yield another 125 megawatts.
The 19 - megawatt tower will be the first in the world to
use a mixture of molten salts to transfer heat from the receiver on top of the tower to a heat exchanger where
steam to drive the
turbines is generated.
The Morocco Noor Ouarzazate Concentrating Solar Power (CSP) project is based on technology that
uses heat from the sun to drive
steam turbines or engines to produce electricity, even at night, through a heat storage mechanism.
The heat turns the water to pressurized
steam, which is then
used to turn generator -
turbines in order to produce electricity.
All geothermal power plants
use steam to turn large
turbines, which run electrical generators.
This
steam in turn powers
turbines, which are
used to produce the electricity that supplies the surrounding community.
Constructed back in 1905, this ship
used to be among the very first
steamers driven by
turbine.
I gather that these may include existing obsolescent coal power station sites so that the
steam turbines thereon can continue to be
used.
There's no reason you couldn't
use the heat to drive a
steam turbine or Stirling engine, just as the
steam turbines in a nuclear plant are basically identical to the ones in a coal - fired plant, or for that matter a solar thermal one.
The resulting
steam is
used to turn a
turbine.
Until the 1930s, hydroelectric - power plants equipped with water -
turbine generating units produced the largest percentage of electric energy because they were less expensive to operate than thermal - power plants
using steam -
turbine units.
[7] Power plant efficiency can also be greatly improved by
using «combined heat and power» systems that
use waste heat from the combustion process for space heating or industrial applications, [8] or by
using a «combined cycle» that
uses the waste heat to power a
steam turbine and make more electricity.
At the community or village level, the
use of crop residues to power small
steam turbine generators to produce electricity can deliver environmental and social benefits in addition to saving carbon.
How CHP works is by
using the heat that would otherwise be wasted in exhaust gases from fossil combustion systems, such as flue gases from a coal - or biomass - fueled boiler or exhaust from a gas
turbine or reciprocating engine, to produce
steam and / or hot water for various industrial or commercial needs.
It
uses carbon dioxide produced in combustion to drive
turbines at the plant rather than
steam.
Thermal plants
using nuclear energy or gas
turbines to run
steam - electric units are among these technological advances.
After the energy integration more than 30 MW of process heat is
used directly for heating up the feed gas to the reactor R1 and for producing electricity via a
steam turbine.
While standard solar panels convert sunlight directly into electricity, concentrated solar power plants focus an array of mirrors onto a solar receiver and
use the resulting heat to drive an electricity - generating
steam turbine.
Concentrated solar power technologies
use mirrors that direct sunlight to heat an intermediary fluid, which then heats water into
steam to drive a
turbine.
Coal - fired power plants are simple: They burn coal to boil water,
using the
steam to turn a
turbine.
It was decided that Olkiluoto Island in western Finland would host the new plant, where the Gulf of Bothnia could cool the
steam used to turn the
turbines and generate electricity.
Bottoming cycle: A waste - heat recovery boiler recaptures the unused energy and
uses it to produce
steam to drive a
steam turbine generator to produce electricity.
APS» Solana Generating Station, near Gila Bend, is a 280 MW Concentrating Solar Power (CSP) power plant that includes storage, providing up to 6 hours of electricity after the sun sets by
using molten salt to store heat, which then turns a
steam turbine.
The heat is
used to boil water in the boiler, and the energy in the
steam is
used to turn
turbines and generators.
The solar thermal power plants,
using technology distinct from photovoltaics which currently dominate China's solar power market, will consist of mirrors and lenses to concentrate the sun rays to power a
steam turbine.
The light heats water in a boiler at the top of the tower, creating
steam, which is
used to run a conventional
steam turbine like those in a typical fossil - fired power plant.
The oil - fired (liquid - fired) generators are only
used minimally today, due to a combination of high relative fuel prices, air pollution restrictions, and the low efficiencies of the older
steam turbines and newer internal combustion units.
That
steam is either
used in a
turbine to create electricity or for other industrial applications.
We have advanced controls through WiFi towers that are spread out throughout the plant and we
use the latest generation of
steam power technologies,
steam turbines and generators provided by General Electric.»
Steam - turbine power boilers can be used in sawmills to generate steam by burning bark and other waste prod
Steam -
turbine power boilers can be
used in sawmills to generate
steam by burning bark and other waste prod
steam by burning bark and other waste products.
Energy from combustion is
used to heat water, which in turn powers a
steam turbine.