a power station
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could be reached through theculvertsof the viaduct without digging up the road, which was
the monopoly of the gas companies. The customers included theCity Templeand theOld
Bailey. Another important customer was the Telegraph Office of theGeneral Post Office, but
this could not be reached though the culverts. Johnson arranged for the supply cable to be run
overhead, via Holborn Tavern andNewgate.[5]
In September 1882 in New York, thePearl Street Stationwas established by Edison to
provide electric lighting in the lower Manhattan Island area. The station ran until destroyed
by fire in 1890. The station used reciprocatingsteam enginesto turn direct-current
generators. Because of the DC distribution, the service area was small, limited by voltage
drop in the feeders. TheWar of Currentseventually resolved in favor of AC distribution and
utilization, although some DC systems persisted to the end of the 20th century. DC systems
with a service radius of a mile (kilometer) or so were necessarily smaller, less efficient of fuel
consumption, and more labor intensive to operate than much larger central AC generating
stations.
AC systems used a wide range offrequenciesdepending on the type of load; lighting loadusing higher frequencies, and traction systems and heavy motor load systems preferring
lower frequencies. The economics of central station generation improved greatly when
unified light and power systems, operating at a common frequency, were developed. The
same generating plant that fed large industrial loads during the day, could feed commuter
railway systems during rush hour and then serve lighting load in the evening, thus improving
the systemload factorand reducing the cost of electrical energy overall. Many exceptions
existed, generating stations were dedicated to power or light by the choice of frequency, and
rotatingfrequency changersand rotating converters were particularly common to feed
electric railway systems from the general lighting and power network.
Throughout the first few decades of the 20th century central stations became larger, using
higher steam pressures to provide greater efficiency, and relying on interconnections of
multiple generating stations to improve reliability and cost. High-voltage AC transmission
allowedhydroelectric powerto be conveniently moved from distant waterfalls to city
markets. The advent of thesteam turbinein central station service, around 1906, allowed
great expansion of generating capacity. Generators were no longer limited by the power
transmission of belts or the relatively slow speed of reciprocating engines, and could grow to
enormous sizes. For example,Sebastian Ziani de Ferrantiplanned what would have been the
largest reciprocating steam engine ever built for a proposed new central station, but scrapped
the plans when turbines became available in the necessary size. Building power systems out
of central stations required combinations of engineering skill and financial acumen in equalmeasure. Pioneers of central station generation includeGeorge WestinghouseandSamuel
Insullin the United States, Ferranti andCharles Hesterman Merzin UK, and many others.
Thermal power stations [edit]
Main article:Thermal power station
http://en.wikipedia.org/wiki/Culverthttp://en.wikipedia.org/wiki/Culverthttp://en.wikipedia.org/wiki/Culverthttp://en.wikipedia.org/wiki/City_Temple_(London)http://en.wikipedia.org/wiki/City_Temple_(London)http://en.wikipedia.org/wiki/City_Temple_(London)http://en.wikipedia.org/wiki/Old_Baileyhttp://en.wikipedia.org/wiki/Old_Baileyhttp://en.wikipedia.org/wiki/Old_Baileyhttp://en.wikipedia.org/wiki/Old_Baileyhttp://en.wikipedia.org/wiki/General_Post_Office#Headquartershttp://en.wikipedia.org/wiki/General_Post_Office#Headquartershttp://en.wikipedia.org/wiki/General_Post_Office#Headquartershttp://en.wikipedia.org/wiki/Newgatehttp://en.wikipedia.org/wiki/Newgatehttp://en.wikipedia.org/wiki/Power_station#cite_note-5http://en.wikipedia.org/wiki/Power_station#cite_note-5http://en.wikipedia.org/wiki/Power_station#cite_note-5http://en.wikipedia.org/wiki/Pearl_Street_Stationhttp://en.wikipedia.org/wiki/Pearl_Street_Stationhttp://en.wikipedia.org/wiki/Pearl_Street_Stationhttp://en.wikipedia.org/wiki/Steam_enginehttp://en.wikipedia.org/wiki/Steam_enginehttp://en.wikipedia.org/wiki/Steam_enginehttp://en.wikipedia.org/wiki/War_of_Currentshttp://en.wikipedia.org/wiki/War_of_Currentshttp://en.wikipedia.org/wiki/War_of_Currentshttp://en.wikipedia.org/wiki/Utility_frequencyhttp://en.wikipedia.org/wiki/Utility_frequencyhttp://en.wikipedia.org/wiki/Utility_frequencyhttp://en.wikipedia.org/wiki/Load_factor_(electrical)http://en.wikipedia.org/wiki/Load_factor_(electrical)http://en.wikipedia.org/wiki/Load_factor_(electrical)http://en.wikipedia.org/wiki/Frequency_changerhttp://en.wikipedia.org/wiki/Frequency_changerhttp://en.wikipedia.org/wiki/Frequency_changerhttp://en.wikipedia.org/wiki/Hydroelectric_powerhttp://en.wikipedia.org/wiki/Hydroelectric_powerhttp://en.wikipedia.org/wiki/Hydroelectric_powerhttp://en.wikipedia.org/wiki/Steam_turbinehttp://en.wikipedia.org/wiki/Steam_turbinehttp://en.wikipedia.org/wiki/Steam_turbinehttp://en.wikipedia.org/wiki/Sebastian_Ziani_de_Ferrantihttp://en.wikipedia.org/wiki/Sebastian_Ziani_de_Ferrantihttp://en.wikipedia.org/wiki/Sebastian_Ziani_de_Ferrantihttp://en.wikipedia.org/wiki/George_Westinghousehttp://en.wikipedia.org/wiki/George_Westinghousehttp://en.wikipedia.org/wiki/George_Westinghousehttp://en.wikipedia.org/wiki/Samuel_Insullhttp://en.wikipedia.org/wiki/Samuel_Insullhttp://en.wikipedia.org/wiki/Samuel_Insullhttp://en.wikipedia.org/wiki/Samuel_Insullhttp://en.wikipedia.org/wiki/Charles_Hesterman_Merzhttp://en.wikipedia.org/wiki/Charles_Hesterman_Merzhttp://en.wikipedia.org/wiki/Charles_Hesterman_Merzhttp://en.wikipedia.org/w/index.php?title=Power_station&action=edit§ion=2http://en.wikipedia.org/wiki/Thermal_power_stationhttp://en.wikipedia.org/wiki/Thermal_power_stationhttp://en.wikipedia.org/wiki/Thermal_power_stationhttp://en.wikipedia.org/wiki/Thermal_power_stationhttp://en.wikipedia.org/w/index.php?title=Power_station&action=edit§ion=2http://en.wikipedia.org/wiki/Charles_Hesterman_Merzhttp://en.wikipedia.org/wiki/Samuel_Insullhttp://en.wikipedia.org/wiki/Samuel_Insullhttp://en.wikipedia.org/wiki/George_Westinghousehttp://en.wikipedia.org/wiki/Sebastian_Ziani_de_Ferrantihttp://en.wikipedia.org/wiki/Steam_turbinehttp://en.wikipedia.org/wiki/Hydroelectric_powerhttp://en.wikipedia.org/wiki/Frequency_changerhttp://en.wikipedia.org/wiki/Load_factor_(electrical)http://en.wikipedia.org/wiki/Utility_frequencyhttp://en.wikipedia.org/wiki/War_of_Currentshttp://en.wikipedia.org/wiki/Steam_enginehttp://en.wikipedia.org/wiki/Pearl_Street_Stationhttp://en.wikipedia.org/wiki/Power_station#cite_note-5http://en.wikipedia.org/wiki/Newgatehttp://en.wikipedia.org/wiki/General_Post_Office#Headquartershttp://en.wikipedia.org/wiki/Old_Baileyhttp://en.wikipedia.org/wiki/Old_Baileyhttp://en.wikipedia.org/wiki/City_Temple_(London)http://en.wikipedia.org/wiki/Culvert -
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Rotor of a modern steam turbine, used in power station.
In thermal power stations, mechanical power is produced by aheat enginethat transforms
thermal energy, often fromcombustionof afuel, into rotational energy. Most thermal power
stations produce steam, and these are sometimes called steam power stations. Not all thermalenergy can be transformed into mechanical power, according to thesecond law of
thermodynamics. Therefore, there is always heat lost to the environment. If this loss is
employed as useful heat, for industrial processes ordistrict heating, the power plant is
referred to as acogenerationpower plant or CHP (combined heat-and-power) plant. In
countries where district heating is common, there are dedicated heat plants calledheat-only
boiler stations. An important class of power stations in the Middle East uses by-product heat
for thedesalinationof water.
The efficiency of a steam turbine is limited by the maximum steam conditions produced and
is not directly a function of the fuel used. For the same steam conditions, coal, nuclear and
gas power plants all have the same theoretical efficiency. Overall, if a system is on constantly(base load) it will be more efficient than one that is used intermittently (peak load). steam
turbines generally operate at higher efficiency when operated a full capacity.
Besides use of reject heat for process or district heating, one way to improve overall
efficiency of a power plant is to combine two different thermodynamic cycles. Most
commonly, exhaust gases from a gas turbine are used to generate steam for a boiler and steam
turbine. The combination of a "top" cycle and a "bottom" cycle produces higher overall
efficiency than either cycle can attain alone.
Classification [edit]
St. Clair Power Plant, a large coal-fired generating station inMichigan,United States.
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Ikata Nuclear Power Plant,Japan.
Nesjavellir Geothermal Power Station,Iceland.
By fuel [edit]
Fossil-fuel power stationsmay also use a steam turbine generator or in the case ofnatural gas-fired plants may use acombustion turbine. A conventionalcoal-fired
power stationproduces heat by burning coal in a steam boiler. The steam drives a
steam turbineandgeneratorthat then produceselectricityA side-effect of burningcoal is the production of combustion gases such assulphur dioxide,nitrogen oxides
andcarbon dioxide. Technology can be used to capture or convert these gases. If this
is not done they can contribute to environmental harm such asglobal warmingoracid
rain.
Nuclear power plants[6]use anuclear reactor's heat that is transferred to steam whichthen operates asteam turbineandgenerator. About 20% of electric generation in the
USA is produced by nuclear power plants.
Geothermal powerplants use steam extracted from hot underground rocks. Biomass-fuelled power plantsmay be fuelled bywaste from sugar cane,municipal
solid waste, landfillmethane, or other forms ofbiomass.
In integratedsteel mills,blast furnaceexhaust gas is a low-cost, although low-energy-density, fuel.
Waste heat from industrial processesis occasionally concentrated enough to use forpower generation, usually in a steam boiler and turbine.
Solar thermalelectric plants use sunlight to boil water and produce steam which turnsthe generator.
By prime mover [edit]
Steam turbineplants use the dynamic pressure generated by expanding steam to turnthe blades of a turbine. Almost all large non-hydro plants use this system. About 90%of all electric power produced in the world is by use of steam turbines.
[7]
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Gas turbineplants use the dynamic pressure from flowing gases (air and combustionproducts) to directly operate the turbine. Natural-gas fuelled (and oil fueled)
combustion turbine plants can start rapidly and so are used to supply "peak" energy
during periods of high demand, though at higher cost than base-loaded plants. These
may be comparatively small units, and sometimes completely unmanned, being
remotely operated. This type was pioneered by the UK, Princetown[8]
being theworld's first, commissioned in 1959.
Combined cycleplants have both a gas turbine fired by natural gas, and a steam boilerand steam turbine which use the hot exhaust gas from the gas turbine to produce
electricity. This greatly increases the overall efficiency of the plant, and many new
baseload power plants are combined cycle plants fired by natural gas.
Internal combustionreciprocating enginesare used to provide power for isolatedcommunities and are frequently used for small cogeneration plants. Hospitals, office
buildings, industrial plants, and other critical facilities also use them to provide
backup power in case of a power outage. These are usually fuelled by diesel oil,
heavy oil,natural gas, andlandfill gas.
Microturbines,Stirling engineand internal combustion reciprocating engines are low-cost solutions for using opportunity fuels, such aslandfill gas, digester gas from water
treatment plants and waste gas from oil production.
By duty [edit]
Power plants that can be dispatched (scheduled) to provide energy to a system include:
Base load power plantsrun nearly continually to provide that component of systemload that doesn't vary during a day or week. Baseload plants can be highly optimized
for low fuel cost, but may not start or stop quickly during changes in system load.
Examples of base-load plants would include large modern coal-fired and nuclear
generating stations, or hydro plants with a predictable supply of water.
Peaking power plantsmeet the daily peak load, which may only be for a one or twohours each day. While their incremental operating cost is always higher than base load
plants, they are required to ensure security of the system during load peaks. Peaking
plants include simple cycle gas turbines and sometimes reciprocating internal
combustion engines, which can be started up rapidly when system peaks are
predicted. Hydroelectric plants may also be designed for peaking use.
Load following power plantscan economically follow the variations in the daily andweekly load, at lower cost than peaking plants and with more flexibility than baseload
plants.
Non-dispatchable plants include such sources as wind and solar energy; while their long-term
contribution to system energy supply is predictable, on a short-term (daily or hourly) base
their energy must be used as available since generation cannot be deferred. Contractual
arrangements ( "take or pay") with independent power producers or system interconnections
to other networks may be effectively non-dispatchable.
Cooling towers [edit]
Main article:Cooling tower
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Cooling towersshowing evaporating water atRatcliffe-on-Soar Power Station,United
Kingdom.
"Camouflaged" natural draft wetcooling tower
All thermal power plants producewaste heatenergy as a byproduct of the useful electrical
energy produced. The amount of waste heat energy equals or exceeds the amount of energy
converted into useful electricity . Gas-fired power plants can achieve 50% conversion
efficiency while coal and oil plants achieve around 3049%. The waste heat produces a
temperature rise in the atmosphere which is small compared to that produced bygreenhouse-
gasemissions from the same power plant. Natural draft wetcooling towersat many nuclear
power plants and large fossil fuel-fired power plants use largehyperboloidchimney-like
structures (as seen in the image at the left) that release the waste heat to the ambient
atmosphere by theevaporationof water.
However, the mechanical induced-draft or forced-draft wet cooling towers in many large
thermal power plants, nuclear power plants, fossil-fired power plants,petroleum refineries,
petrochemical plants,geothermal,biomassandwaste-to-energy plantsusefansto provide air
movement upward through downcoming water, and are not hyperboloid chimney-like
structures. The induced or forced-draft cooling towers are typically rectangular, box-like
structures filled with a material that enhances the mixing of the upflowing air and the
downflowing water.[9][10]
In areas with restricted water use, a dry cooling tower or directly air-cooled radiators may be
necessary, since the cost or environmental consequences of obtaining make-up water for
evaporative cooling would be prohibitive. These coolers have lower efficiency and higherenergy consumption to drive fans, compared to a typical wet, evaporative cooling tower.
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Where economically and environmentally possible, electric companies prefer to use cooling
water from the ocean, a lake, or a river, or a cooling pond, instead of a cooling tower. This
type of cooling can save the cost of a cooling tower and may have lower energy costs for
pumping cooling water through the plant'sheat exchangers. However, the waste heat can
cause the temperature of the water to rise detectably. Power plants using natural bodies of
water for cooling must be designed to prevent intake of organisms into the coolingmachinery. A further environmental impact is that aquatic organisms which adapt to the
warmer discharge water may be injured if the plant shuts down in cold weather.
Water consumption by power stations is a developing issue.[11]
In recent years, recycled wastewater, or grey water, has been used in cooling towers. The
Calpine Riverside and the Calpine Fox power stations inWisconsinas well as the Calpine
Mankato power station inMinnesotaare among these facilities.
Power from renewable energy [edit]Power stations can also generate electrical energy fromrenewable energysources.
Hydroelectricity [edit]
Three Gorges Dam
Main article:Hydroelectricity
Damsbuilt to producehydroelectricityimpound areservoirof water and release it through
one or morewater turbines, connected togenerators, and generate electricity, from the energy
provided by difference in water level upstream and downstream.
Pumped storage [edit]
Main article:Pumped-storage hydroelectricity
Apumped-storagehydroelectric power plant is a net consumer of energy but can be used to
smooth peaks and troughs in overall electricity demand. Pumped storage plants typically use
"spare" electricity during off peak periods to pump water from a lower reservoir or dam to an
upper reservoir. Because the electricity is consumed "off peak" it is typically cheaper than
power at peak times. This is because the "base load" power stations, which are typically coal
fired, cannot be switched on and off quickly so remain in service even when demand is low.
During hours of peak demand, when the electricity price is high, the water pumped to thehigh reservoir is allowed to flow back to the lower reservoir through a water turbine
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connected to an electricity generator. Unlike coal power stations, which can take more than
12 hours to start up from cold, the hydroelectric plant can be brought into service in a few
minutes, ideal to meet a peak load demand. Two substantial pumped storage schemes are in
South Africa, one to the East of Cape Town (Palmiet) and one in the Drakensberg, Natal
Solar [edit]
Main article:Solar power
Solar energycan be turned into electricity either directly insolar cells, or in aconcentrating
solar powerplant by focusing the light to run a heat engine.
Nellis Solar Power PlantinNevada, United States.
A solar photovoltaic power plant converts sunlight into direct current electricity using the
photoelectric effect.Inverterschange the direct current into alternating current for connection
to the electrical grid. This type of plant does not use rotating machines for energy conversion.
Solar thermal power plants are another type of solar power plant. They use either parabolic
troughs orheliostatsto direct sunlight onto a pipe containing a heat transfer fluid, such as oil.
The heated oil is then used to boil water into steam, which turns a turbine that drives an
electrical generator. The central tower type of solar thermal power plant uses hundreds or
thousands of mirrors, depending on size, to direct sunlight onto a receiver on top of a tower.
Again, the heat is used to produce steam to turn turbines that drive electrical generators.
Wind [edit]
Main article:Wind power
Wind turbines inTexas,USA.
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Wind turbinescan be used to generate electricity in areas with strong, steady winds,
sometimesoffshore. Many different designs have been used in the past, but almost all modern
turbines being produced today use a three-bladed, upwind design. Grid-connected wind
turbines now being built are much larger than the units installed during the 1970s, and so
produce power more cheaply and reliably than earlier models. With larger turbines (on the
order of one megawatt), the blades move more slowly than older, smaller, units, which makesthem less visually distracting and safer for airborne animals.
Marine [edit]
Main article:Marine energy
Marine energy ormarine power (also sometimes referred to as ocean energy orocean
power) refers to the energy carried byocean waves,tides,salinity, andocean temperature
differences. The movement of water in the worlds oceans creates a vast store ofkinetic
energy, or energy in motion. This energy can be harnessed togenerateelectricity to power
homes, transport and industries.
The term marine energy encompasses bothwave powerpower from surface waves, and
tidal powerobtained from the kinetic energy of large bodies of moving water.Offshore
wind poweris not a form of marine energy, as wind power is derived from thewind, even if
thewind turbinesare placed over water.
Theoceanshave a tremendous amount of energy and are close to many if not most
concentrated populations. Ocean energy has the potential of providing a substantial amount
of newrenewable energyaround the world.[12]
Osmosis [edit]
Main article:Osmotic power
Salinity gradient energy is called pressure-retarded osmosis.[15] In this method, seawater is
pumped into a pressure chamber that is at a pressure lower than the difference between the
pressures of saline water and fresh water. Freshwater is also pumped into the pressure
chamber through a membrane, which increase both the volume and pressure of the chamber.
As the pressure differences are compensated, a turbine is spun creating energy. This method
is being specifically studied by the Norwegian utility Statkraft, which has calculated that up
to 25 TWh/yr would be available from this process in Norway. Statkraft has built the world'sfirst prototype osmotic power plant on the Oslo fiord which was opened on November 24,
2009.
Typical power output [edit]
The power generated by a power station is measured in multiples of thewatt, typically
megawatts(106 watts) orgigawatts(109 watts). Power stations vary greatly in capacity
depending on the type of power plant and on historical, geographical and economic factors.
The following examples offer a sense of the scale.
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Many of the largest operational onshore wind farms are located in the USA. As of 2011, the
Roscoe Wind Farmis the second largest onshore wind farm in the world, producing 781.5
MWof power, followed by theHorse Hollow Wind Energy Center(735.5 MW). As of
November 2010, theThanet Offshore Wind ProjectinUnited Kingdomis the largest offshore
wind farm in the world at 300MW, followed byHorns Rev II(209 MW) in Denmark.
As of April 2012, thelargest photovoltaic (PV) power plants in the worldare led by India's
Gujarat Solar Parkrated at 605 megawatts. A planned installation in China will produce 2000
megawatts at peak.[13]
Solar thermal power stations in the U.S. have the following output:
The country's largest solar facility atKramer Junctionhas an output of 354 MW
The plannedBlythe Solar Power Projectwill produce an estimated 968 MW
Large coal-fired, nuclear, and hydroelectric power stations can generate hundreds of
Megawatts to multiple Gigawatts. Some examples:
TheThree Mile Island Nuclear Generating Stationin the USA has a rated capacity of
802 megawatts.
The coal-firedRatcliffe-on-Soar Power Stationin the UK has a rated capacity of 2
gigawatts.
TheAswan Damhydro-electric plant in Egypt has a capacity of 2.1 gigawatts.
TheThree Gorges Damhydro-electric plant in China will have a capacity of 22.5
gigawatts when complete; 18.2 gigawatts capacity is operating as of 2010.
Gas turbine power plants can generate tens to hundreds of megawatts. Some examples:
TheIndian Queenssimple-cycle peaking power station in Cornwall UK, with a single
gas turbine is rated 140 megawatts.
TheMedway Power Station, a combined-cycle power station in Kent, UK with two
gas turbines and one steam turbine, is rated 700 megawatts.[14]
The rated capacity of a power station is nearly the maximum electrical power that that power
station can produce. Some power plants are run at almost exactly their rated capacity all the
time, as a non-load-followingbase load power plant, except at times of scheduled or
unscheduled maintenance.
However, many power plants usually produce much less power than their rated capacity.
In some cases a power plant produces much less power than its rated capacity because it uses
anintermittent energy source. Operators try to pullmaximum available powerfrom such
power plants, because theirmarginal costis practically zero, but the available power varies
widelyin particular, it may be zero during heavy storms at night.
In some cases operators deliberately produce less power for economic reasons. The cost of
fuel to run aload following power plantmay be relatively high, and the cost of fuel to run a
peaking power plantis even higherthey have relatively high marginal costs. Operators keep
power plants turned off ("operational reserve") or running at minimum fuelconsumption
[citation needed]("spinning reserve") most of the time. Operators feed more fuel into
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ow_Wind_Energy_Centerhttp://en.wikipedia.org/wiki/Megawatthttp://en.wikipedia.org/wiki/Roscoe_Wind_Farm 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7/28/2019 A Power Station
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load following power plants only when the demand rises above what lower-cost plants (i.e.,
intermittent and base load plants) can produce, and then feed more fuel into peaking power
plants only when the demand rises faster than the load following power plants can follow.
Operations [edit]
The power station operator has several duties in the electricity-generating facility.
Operators are responsible for the safety of the work crews that frequently do repairs on the
mechanical and electrical equipment. They maintain the equipment with periodicinspections
and log temperatures, pressures and other important information at regular intervals.
Operators are responsible for starting and stopping, thegeneratorsdepending on need. They
are able to synchronize and adjust the voltage output of the added generation with the running
electrical system, without upsetting the system. They must know the electrical and
mechanical systems in order totroubleshootsolve/fix problems in the facility and add to the
reliability of the facility. Operators must be able to respond to an emergency and know the
procedures in place to deal with it.
See also [edit]
Energy portal
Battery-to-gridmini-power plants Combined heat and power Cooling tower system District heating Electricity generation Environmental concerns with electricity generation Flue gas stacks Fossil-fuel power station Geothermal power List of largest power stations in the world List of thermal power station failures Plant efficiency Relative cost of electricity generated by different sources Virtual power plant
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