Wind power in Uruguay generates a rapidly growing proportion of the country's electricity mix. [1] In 2014, Uruguay installed the most wind power capacity per capita in the world. [2] Overall, the majority of Uruguayan electricity generation is derived from hydroelectric sources. [3]
In 2016, the country's total installed wind power capacity surpassed 1,000 MW. [4] As of 2016, this figure comprised 17 percent of the country's overall electricity generation, [5] marking a sudden increase in the overall share from the 2 percent of all alternative renewable energy sources made up in 2012. [3] In July 2018 UTE, the country's power plants and transmission administrator, announced that record electricity demand was being met entirely by renewable sources, of which wind power comprised 34 percent. [6] [7]
The national government has supported this nascent of fast-moving wind power transformation by providing a policy environment of incentives like feed-in tariffs and utility-scale bidding. [5] The former helped incentivize small-scale installations, while the latter enabled large-scale projects.
In 2008, the Uruguayan government set a target of 15% joint participation in the national electricity grid by a number of alternative renewable sources, namely biomass, wind power, and mini-hydro. [8] Wind power alone far surpassed that proportion in the several years following the setting of that goal. Electricity generation auctions, first put forward in 2006, have been a primary vehicle for larger-scale deployment of mini-hydro and wind power deployment over the past decade. [8]
Some analysts have credited Uruguay's ability to leverage UNDP funding to create reliable policy frameworks that would eventually encourage greater stand-alone private investment in the sector. [5]
Its proximity to Argentina and Brazil make for relatively easy electricity trade between the countries, and in 2016 Uruguay began exporting excess wind power generation to neighboring Argentina. The two countries' state-operated utilities had previously sold electricity bilaterally, but the 2016 wind power sales marked the first Uruguayan-Argentine electricity trade between private companies. [9] Meanwhile, along the Uruguayan border with Brazil, wind power projects are being approached through a binational partnership with Brazilian utility Eletrobras. [5]
There are about 50 wind farms in Uruguay as of 2022, including: [10]
Electricity generation is the process of generating electric power from sources of primary energy. For utilities in the electric power industry, it is the stage prior to its delivery to end users or its storage.
Many countries and territories have installed significant solar power capacity into their electrical grids to supplement or provide an alternative to conventional energy sources. Solar power plants use one of two technologies:
Wind power in California had initiative and early development during Governor Jerry Brown's first two terms in the late 1970s and early 1980s. The state's wind power capacity has grown by nearly 350% since 2001, when it was less than 1,700 MW. In 2016, wind energy supplied about 6.9% of California's total electricity needs, or enough to power more than 1.3 million households. Most of California's wind generation is found in the Tehachapi area of Kern County, California, with some large projects in Solano, Contra Costa and Riverside counties as well. California is among the states with the largest amount of installed wind power capacity. In recent years, California has lagged behind other states when it comes to the installation of wind power. It was ranked 4th overall for wind power electrical generation at the end of 2016 behind Texas, Iowa, and Oklahoma. As of 2019, California had 5,973 megawatts (MW) of wind power generating capacity installed.
According to data from the US Energy Information Administration, renewable energy accounted for 8.4% of total primary energy production and 21% of total utility-scale electricity generation in the United States in 2022.
In Honduras, there is an important potential of untapped indigenous renewable energy resources. Due to the variability of high oil prices and declining renewable infrastructure costs, such resources could be developed at competitive prices.
The electricity sector in Argentina constitutes the third largest power market in Latin America. It relies mostly on thermal generation and hydropower generation (36%). The prevailing natural gas-fired thermal generation is at risk due to the uncertainty about future gas supply.
Making up over 62% of the state's generated electricity in 2022, wind power is the largest source of electricity generation in Iowa. In 2020, over 34 billion kWh of electrical energy was generated by wind power. As of 2022, Iowa has over 12,200 megawatts (MW) of installed capacity with over 6,000 wind turbines, ranking second and third in the nation below Texas respectively.
Brazil has the largest electricity sector in Latin America. Its capacity at the end of 2021 was 181,532 MW. The installed capacity grew from 11,000 MW in 1970 with an average yearly growth of 5.8% per year. Brazil has the largest capacity for water storage in the world, being dependent on hydroelectricity generation capacity, which meets over 60% of its electricity demand. The national grid runs at 60 Hz and is powered 83% from renewable sources. This dependence on hydropower makes Brazil vulnerable to power supply shortages in drought years, as was demonstrated by the 2001–2002 energy crisis.
According to the International Hydropower Association, Canada is the fourth largest producer of hydroelectricity in the world in 2021 after the United States, Brazil, and China. In 2019, Canada produced 632.2 TWh of electricity with 60% of energy coming from Hydroelectric and Tidal Energy Sources).
India is world's 4th largest consumer of electricity and world's 3rd largest renewable energy producer with 40% of energy capacity installed in the year 2022 coming from renewable sources. Ernst & Young's (EY) 2021 Renewable Energy Country Attractiveness Index (RECAI) ranked India 3rd behind USA and China. In FY2023-24, India is planning to issue 50 GW tenders for wind, solar and hybrid projects. India has committed for a goal of 500 GW renewable energy capacity by 2030. In line with this commitment, India's installed renewable energy capacity has been experiencing a steady upward trend. From 94.4 GW in 2021, the capacity has gone up to 119.1 GW in 2023 as of Q4.
The electricity sector of Uruguay has traditionally been based on domestic hydropower along with thermal power plants, and reliant on imports from Argentina and Brazil at times of peak demand. Over the last 10 years, investments in renewable energy sources such as wind power and solar power allowed the country to cover in early 2016 94.5% of its electricity needs with renewable energy sources.
As of 2019, renewable energy in Morocco covered 35% of the country’s electricity needs.
Energy in Uruguay describes energy and electricity production, consumption and import in Uruguay.
The total installed solar power in Brazil was estimated at about 34.2 GW at October 2023, which consists of about 15.6% of the country's electricity matrix. In 2022, Brazil was the 8th country in the world in terms of installed solar power capacity.
Most of Kenya's electricity is generated by renewable energy sources. Access to reliable, affordable, and sustainable energy is one of the 17 main goals of the United Nations’ Sustainable Development Goals. Development of the energy sector is also critical to help Kenya achieve the goals in Kenya Vision 2030 to become a newly industrializing, middle-income country. With an installed power capacity of 2,819 MW, Kenya currently generates 826 MW hydroelectric power, 828 geothermal power, 749 MW thermal power, 331 MW wind power, and the rest from solar and biomass sources. Kenya is the largest geothermal energy producer in Africa and also has the largest wind farm on the continent. In March 2011, Kenya opened Africa's first carbon exchange to promote investments in renewable energy projects. Kenya has also been selected as a pilot country under the Scaling-Up Renewable Energy Programmes in Low Income Countries Programme to increase deployment of renewable energy solutions in low-income countries. Despite significant strides in renewable energy development, about a quarter of the Kenyan population still lacks access to electricity, necessitating policy changes to diversify the energy generation mix and promote public-private partnerships for financing renewable energy projects.
Renewable energy in South Africa is energy generated in South Africa from renewable resources, those that naturally replenish themselves—such as sunlight, wind, tides, waves, rain, biomass, and geothermal heat. Renewable energy focuses on four core areas: electricity generation, air and water heating/cooling, transportation, and rural energy services. The energy sector in South Africa is an important component of global energy regimes due to the country's innovation and advances in renewable energy. South Africa's greenhouse gas (GHG) emissions is ranked as moderate and its per capita emission rate is higher than the global average. Energy demand within the country is expected to rise steadily and double by 2025.
ACEN Corporation, formerly AC Energy, is the energy firm under the Ayala Group. The company has over 4,000 MW of attributable capacity in the Philippines, Vietnam, Indonesia, India, and Australia, with a renewable share of 98% which is among the highest in the region.
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