hydroelectricity$36438$ - significado y definición. Qué es hydroelectricity$36438$
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Qué (quién) es hydroelectricity$36438$ - definición

OVERVIEW OF RENEWABLE ENERGY IN BRAZIL
Wind power in Brazil; Hydroelectric power in Brazil; Hydroelectricity in Brazil; Bioenergy in Brazil; Biomass energy in Brazil
  • Paulo Afonso Hydroelectric Powerplant]] in [[Bahia]]
  • plantation]] in [[Avaré]] (State of São Paulo). Cane remains are used to produce [[biomass]] energy.
  • Windfarm in Osório]], [[Rio Grande do Sul]].
  • [[Eucalyptus]] in the State of [[Espírito Santo]]. Remains of the tree are reused for biomass power generation.
  • Complexo Solar Pirapora}}, one of the largest in Brazil and Latin America, with a capacity of 321 MW.
  • Wenceslau Braz]], [[Minas Gerais]].

Hydroelectricity in Ukraine         
  • [[Dnieper Hydroelectric Station]] in [[Zaporizhzhia Oblast]]
Hydropower of Ukraine
Hydroelectricity in Ukraine is quite developed branch of power engineering. State operating company is Ukrhydroenergo and Energoatom.
hydroelectricity         
  • Pico hydroelectricity in [[Mondulkiri]], [[Cambodia]]
  • Museum Hydroelectric power plant "Under the Town" in [[Užice]], [[Serbia]], built in 1900.<ref>[https://books.google.com/books?id=-x9NHOLSnNUC&dq=One+of+the+oldest+hydroelectric+power+plants+built+on+tesla+principles&pg=PA397 ''One of the Oldest Hydroelectric Power Plants in Europa Built on Tesla's Principels''], Explorations in the History of Machines and Mechanisms: Proceedings of HMM2012, Teun Koetsier and Marco Ceccarelli, 2012.</ref>
  • MW]]}}.
  • life-cycle greenhouse gases]] of hydroelectricity projects, to potentially exceed that of coal power stations.
  • A micro-hydro facility in [[Vietnam]]
  • Share of electricity production from hydropower, 2021
  • MW]]}} of electricity within 60 seconds of the demand arising.
  • Measurement of the tailrace and forebay rates at the [[Limestone Generating Station]] in [[Manitoba]], [[Canada]].
  • Trends in the top five hydroelectricity-producing countries
  • The [[Warwick Castle]] water-powered generator house, used for the generation of electricity for the castle from 1894 until 1940
ELECTRICITY GENERATED BY HYDROPOWER
Hydroelectric plant; Hydroelectric; Hydroelectric power; Hydroelectric energy; Hydro-electric power; Hydro-electricity; Hydroelectric dam; Hydroelectric Power; Hydro-electric; Hydro-electric dam; Hydroelectric powerplant; Hydroelectric dams; Hydroelectric power plant; Hydro electric; Hydroelectric Dams; Hydroelectric generators; Hydroelectric power station; Hydroelectric station; Hydro electricity; Hydroelectric plants; Hydro electrical; Hydroelectric power plants; Hydropower station; Hydro energy; Hydro-electric Power; Hydropower plant; Hydroelectrical Power; Hyrdoelectric power; Hydropower potential; Hydro-electrical; Hydroelectric potential; Hydro electricity generator; Hydroelectrostation; Hydroplant; Hydroelectric reservoir; Hydro-electric plant; Large hydro; Hydro plant; Hydro-electric power station; Power dam; Hydroelectric generator; Hydro power plant; Conventional hydroelectricity; Hydel energy; Hydro-electric power stations; Hydro-electric power plants; Disadvantages of hydroelectricity; Environmental impact of hydroelectricity; Hydroelectric power generation; Hydrogeneration; Weir power station; History of hydroelectricity; Hydro-electric power plant; Hydopower
also hydro-electricity
Hydroelectricity is electricity made from the energy of running water.
N-UNCOUNT
Hydro-electric         
  • Pico hydroelectricity in [[Mondulkiri]], [[Cambodia]]
  • Museum Hydroelectric power plant "Under the Town" in [[Užice]], [[Serbia]], built in 1900.<ref>[https://books.google.com/books?id=-x9NHOLSnNUC&dq=One+of+the+oldest+hydroelectric+power+plants+built+on+tesla+principles&pg=PA397 ''One of the Oldest Hydroelectric Power Plants in Europa Built on Tesla's Principels''], Explorations in the History of Machines and Mechanisms: Proceedings of HMM2012, Teun Koetsier and Marco Ceccarelli, 2012.</ref>
  • MW]]}}.
  • life-cycle greenhouse gases]] of hydroelectricity projects, to potentially exceed that of coal power stations.
  • A micro-hydro facility in [[Vietnam]]
  • Share of electricity production from hydropower, 2021
  • MW]]}} of electricity within 60 seconds of the demand arising.
  • Measurement of the tailrace and forebay rates at the [[Limestone Generating Station]] in [[Manitoba]], [[Canada]].
  • Trends in the top five hydroelectricity-producing countries
  • The [[Warwick Castle]] water-powered generator house, used for the generation of electricity for the castle from 1894 until 1940
ELECTRICITY GENERATED BY HYDROPOWER
Hydroelectric plant; Hydroelectric; Hydroelectric power; Hydroelectric energy; Hydro-electric power; Hydro-electricity; Hydroelectric dam; Hydroelectric Power; Hydro-electric; Hydro-electric dam; Hydroelectric powerplant; Hydroelectric dams; Hydroelectric power plant; Hydro electric; Hydroelectric Dams; Hydroelectric generators; Hydroelectric power station; Hydroelectric station; Hydro electricity; Hydroelectric plants; Hydro electrical; Hydroelectric power plants; Hydropower station; Hydro energy; Hydro-electric Power; Hydropower plant; Hydroelectrical Power; Hyrdoelectric power; Hydropower potential; Hydro-electrical; Hydroelectric potential; Hydro electricity generator; Hydroelectrostation; Hydroplant; Hydroelectric reservoir; Hydro-electric plant; Large hydro; Hydro plant; Hydro-electric power station; Power dam; Hydroelectric generator; Hydro power plant; Conventional hydroelectricity; Hydel energy; Hydro-electric power stations; Hydro-electric power plants; Disadvantages of hydroelectricity; Environmental impact of hydroelectricity; Hydroelectric power generation; Hydrogeneration; Weir power station; History of hydroelectricity; Hydro-electric power plant; Hydopower
·adj Pertaining to, employed in, or produced by, the evolution of electricity by means of a battery in which water or steam is used.

Wikipedia

Renewable energy in Brazil

As of 2018, renewable energy accounted for 79% of the domestically produced electricity used in Brazil.

Brazil relies on hydroelectricity for 65% of its electricity, and the Brazilian government plans to expand the share of wind energy (currently 11%), solar energy (currently 2.5%) and biomass as alternatives. Wind energy has the greatest potential in Brazil during the dry season, so it is considered a hedge against low rainfall and the geographical spread of existing hydroelectric resources.

Brazil held its first wind-only energy auction in 2009, in a move to diversify its energy portfolio. Foreign companies scrambled to take part. The bidding lead to the construction of 2 gigawatts (GW) of wind production with an investment of about $6 billion over the following two years. Brazil's technical potential for wind energy is 143 GW due to the country's blustery 7,400 kilometres (4,600 mi) kilometres coastline where most projects are based. The Brazilian Wind Energy Association and the government have set a goal of achieving 20 GW of wind energy capacity by 2020 from the current 5 GW (2014). The industry hopes the auction will help kick-start the wind-energy sector, which already accounts for 70% of the total in all of Latin America.

According to Brazil's Energy Master-plan 2016-2026 (PDE2016-2026), Brazil is expected to install 18,5GW of additional wind power generation, 84% in the North-East and 14% in the South.

Brazil started focusing on developing alternative sources of energy, mainly sugarcane ethanol, after the oil shocks in the 1970s. Brazil's large sugarcane farms helped the development. In 1985, 91% of cars produced that year ran on sugarcane ethanol. The success of flexible-fuel vehicles, introduced in 2003, together with the mandatory E25 blend throughout the country, have allowed ethanol fuel consumption in the country to achieve a 50% market share of the gasoline-powered fleet by February 2008.