Overview
Quebrada de Ullum is a 45 MW hydroelectric power plant in Argentina, operated by EPSE. It contributes to the region's renewable energy capacity.
Quebrada de Ullum is a hydroelectric power plant located in Argentina, with an operational capacity of 45 megawatts. The facility is owned and operated by EPSE - Energia Provincial Sociedad del Estado, a provincial energy company. As a hydroelectric plant, it harnesses the flow of water to generate electricity, providing a renewable energy source to the grid. The plant operates under Argentina's regulatory framework for renewable energy, which includes national policies promoting hydroelectric power. The 45 MW capacity places it in the small-to-medium scale range for hydroelectric facilities in the country. Typical technology for such plants includes turbines and generators driven by water flow, often from a dam or run-of-river system. As a renewable energy facility, Quebrada de Ullum contributes to reducing greenhouse gas emissions compared to fossil fuel-based power generation. It supports the local energy grid and helps meet regional electricity demand. The plant's operation aligns with Argentina's goals to increase the share of renewables in its energy mix.
Environmental context
Hydroelectric power generation like that at Quebrada de Ullum has a low carbon footprint but can affect local aquatic ecosystems and water flow regimes. The plant's location in Argentina involves considerations of water resource management and potential impacts on river habitats. Proximity to populated areas may influence environmental monitoring requirements.
Frequently asked questions
Quebrada de Ullum is a hydroelectric power plant located in Argentina.
Quebrada de Ullum has a capacity of 45 megawatts (MW).
Quebrada de Ullum is owned and operated by EPSE - Energia Provincial Sociedad del Estado.
Hydroelectric plants in Argentina operate under national renewable energy policies and environmental regulations, including water use permits and environmental impact assessments.
Hydroelectric power has low greenhouse gas emissions but can affect aquatic ecosystems, water flow, and local habitats. Proper management and mitigation measures are required.