Overview
Maslul is an operational solar PV facility in Israel with a capacity of 8.9 MW. It contributes to the country's renewable energy targets under national feed-in tariff policies.
Maslul is a solar photovoltaic (PV) facility located in Israel, operating with a capacity of 8.9 MW. The plant is part of Israel's growing renewable energy sector, which aims to increase solar generation to meet national energy goals. The facility uses solar PV technology to convert sunlight into electricity. Israel's regulatory framework supports solar energy through feed-in tariffs and net metering, encouraging distributed generation. The 8.9 MW capacity places Maslul in the small-to-medium scale range for utility solar projects in the region. Operationally, Maslul contributes to the local grid, helping reduce reliance on fossil fuels. Solar PV plants like this one support Israel's target of 30% renewable energy by 2030, aligning with broader climate commitments. The facility's location in the Negev desert benefits from high solar irradiance, enhancing its energy yield.
Environmental context
Solar PV facilities like Maslul have a low environmental footprint during operation, with no emissions or water use. However, land use for solar arrays can impact local ecosystems, particularly in desert areas. In Israel, solar development is often sited on non-agricultural land to minimize conflicts. The high solar resource in the Negev makes it ideal for solar energy, but careful siting is needed to avoid sensitive habitats.
Frequently asked questions
Maslul is located in Israel, with coordinates approximately 31.318° N, 34.570° E, in the Negev desert region.
The Maslul solar PV facility has a capacity of 8.9 megawatts (MW), making it a small-to-medium scale solar installation.
Maslul uses solar photovoltaic (PV) technology, which converts sunlight directly into electricity using semiconductor panels.
Israel supports solar energy through feed-in tariffs, net metering, and renewable energy targets, aiming for 30% renewable electricity by 2030.
Solar PV facilities have minimal operational emissions but require land. In Israel, siting on non-agricultural land helps reduce land-use conflicts, and the high solar irradiance maximizes energy generation.