
Energy in Uruguay describes and production, consumption and import in . As part of climate mitigation measures and an energy transformation, Uruguay has converted over 98% of its electrical grid to sustainable energy sources (primarily solar, wind, and hydro). are primarily imported into Uruguay for transportation, industrial uses and applicat. . The electricity sector of Uruguay has traditionally been based on domestic along with plants, and reliant on imports from and at times of peak demand. Over the last 10 years, investments in renewable energy sources such as and allowed the country to cover in early 2016 94.5% of its electricity needs with [pdf]
Uruguay generates nearly half of its electricity from wind and solar, more than any other country in Latin America and the Caribbean. Source: Visual Capitalist: Solar & Wind Power by Country © 2020 The World Bank, Source: Global Solar Atlas 2.0, Solar resource data: Solargis.
Uruguay primarily imports natural gas from Argentina via the Gasoducto Cruz del Sur. As of May 2021, there are no new projects proposed for oil and gas in Uruguay. Uruguay generates nearly half of its electricity from wind and solar, more than any other country in Latin America and the Caribbean.
In 2020, Uruguay produced 13.5 TWh of electricity, with 40% coming from wind energy, 30% from hydro, 20% from biomass, 6% from fossil fuels, and 4% from solar. As of 2020, 100% of the population has access to electricity. The UTE is spending $960 million between 2020-2025 for installing new electrical transmission infrastructure.
As of 2020, renewables accounted for 75.8% of Uruguay's electrical capacity, while non-renewable sources made up the remaining 24.2% (down from 29% in 2016).
The current 6% private contribution to the generation park is expected to increase as investments in new wind power plants materialize. Renewables could play a role in future energy supply, in particular wind power, allowing Uruguay to reduce its dependence on imports.
According to the National Directorate for Energy and Nuclear Technology (DNETN), grid-connected wind power generation is one of the domestic resources with both medium and long term potential in Uruguay. The government has taken action to promote RE development.

By studying the influence of air gap on energy storage location, the energy in the process of power conversion can be reasonably stored in the air gap to reduce the loss and increase the efficiency of magnetic device conversion, in addition, by reasonably distributing the size of air gap, improve the magnetic conductivity after adding air gap, adjust the linearity of inductance, and more reasonable magnetic devices are designed to increase the stability of products. [pdf]
The air gap is the main place for electromechanical energy conversion of external rotor PMSMs, and air gap magnetic field determines the output performance of motors. On one hand, for an inner rotor PMSM, the external stator is the radiator of electromagnetic noise.
In this study, the air gap magnetic field characteristics of external rotor permanent magnet synchronous motors (PMSMs) under both the stator and rotor coordinate systems considering low-order current harmonics and high-order sideband current harmonics are analysed. A direct measurement technique (DMT) for air-gap magnetic field is proposed.
In the context of rotating electrical machines, air gap is the physical separation between the rotor and stator core. The role of air gap is not as simple as fi
In , a Hall sensor that can be attached to the stator surface was used to measure the air gap flux of an axial flux motor. In , 36 Hall flux sensors were installed in the air gap to detect the rotor fault and eccentricity of the rotor.
The direct measurement mainly uses a linear Hall-effect flux sensor to directly detect the air gap magnetic field distribution. In , a Hall sensor that can be attached to the stator surface was used to measure the air gap flux of an axial flux motor.
The main conclusions are as follows: (i) In stator static coordinate system, the spatial order of air gap magnetic density of external rotor PMSMs with PWM technique is np, , vm and , the frequency characteristics are nf c, and . New spatial orders are introduced by the stator slotting effect.

The electricity sector of Uruguay has traditionally been based on domestic along with plants, and reliant on imports from and at times of peak demand. Over the last 10 years, investments in renewable energy sources such as and allowed the country to cover in early 2016 94.5% of its electricity needs with The total cost of this project is estimated to be between $1 and 3 billion USD. In addition, private companies have announced large investments in wind and solar for hydrogen production. [pdf]
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.
All the potential for large hydroelectric projects in Uruguay has already been developed. Existing plants are Terra (152 MW), Baygorria (108 MW), Constitucion (333 MW) and the bi-national Salto Grande, with a total capacity of 1,890 MW. Uruguay has a favorable climate for generating electricity through wind power.
Installed electricity capacity in Uruguay was around 2,500 MW ( megawatts) in 2009 and around 2,900 MW in 2013. Of the installed capacity, about 63% is hydro, accounting for 1,538 MW which includes half of the capacity of the Argentina-Uruguay bi-national Salto Grande.
The current 6% private contribution to the generation park is expected to increase as investments in new wind power plants materialize. Renewables could play a role in future energy supply, in particular wind power, allowing Uruguay to reduce its dependence on imports.
According to the National Directorate for Energy and Nuclear Technology (DNETN), grid-connected wind power generation is one of the domestic resources with both medium and long term potential in Uruguay. The government has taken action to promote RE development.
A number of photovoltaic solar power plants have been built. Additionally, a new electrical grid interconnection has improved the ability to import or export electricity with Brazil. [citation needed] Installed electricity capacity in Uruguay was around 2,500 MW ( megawatts) in 2009 and around 2,900 MW in 2013.
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