WEG and Neoenergia Partner on 22 MWp Brazil solar project
In a significant move to advance Brazil’s renewable energy landscape, WEG and Neoenergia have announced a partnership to develop a new 22 MWp solar project. This substantial solar park is set to generate clean energy for Neoenergia’s distribution facilities in the state of Mato Grosso do Sul, an operation managed by its subsidiary, Neoenergia MS. This collaboration underscores a shared commitment to decarbonization and sustainable energy solutions within the country.
A Proven Partnership in Decarbonization with the Brazil solar project
This new venture is not the first time these two energy giants have joined forces. Their collaboration has already yielded impressive results, most notably with the Noronha Verde project in Fernando de Noronha. This initiative is a cornerstone of a broader energy decarbonization effort, aiming to establish the archipelago as a benchmark for clean energy.
A key achievement of the Noronha Verde project was the installation of the archipelago’s first Floating Photovoltaic Solar Plant on the Xaréu Reservoir. This innovative facility features a complete WEG photovoltaic system and has a capacity of 622 kWp. It is projected to generate 1,083 MWh annually, supplying approximately 30% of the energy consumed by the local water and sewage company, Compesa, and preventing 717 tons of COâ‚‚ emissions each year. This project, backed by a R$ 10 million investment through Neoenergia Pernambuco’s Energy Efficiency Program, showcases the partnership’s capacity to deliver complex and impactful clean energy solutions, including both solar generation and energy storage systems.
Powering a Sustainable Future in Mato Grosso do Sul with a Brazil solar project
The new 22 MWp solar park builds on this successful history, focusing on powering Neoenergia’s own operational infrastructure with renewable energy. By directly supplying their distribution facilities, Neoenergia is reducing its carbon footprint and reinforcing its commitment to a sustainable operational model. This project is a strategic step towards energy independence for its facilities and contributes directly to the greening of the energy grid in Mato Grosso do Sul.
This initiative is a reflection of a much larger trend across the nation. Brazil is experiencing a massive renewable energy boom, with solar power playing a pivotal role. The country’s efforts have been remarkable, with reports showing a stunning 43% surge in new energy capacity. This momentum is part of a broader push that has seen Brazil’s solar and wind power generation reach record highs.
Projects like the WEG and Neoenergia partnership are crucial contributors to the impressive growth proven in 2025 for Brazil’s solar sector. With plans for a stunning 19.2 GW expansion and the country on track to hit an impressive 40 GW milestone in distributed capacity, this 22 MWp facility is another important piece of the puzzle.
The Technology Behind the Brazil solar project Transition
Bringing a 22 MWp solar park to life is a complex undertaking that relies on advanced technology and a sophisticated supply chain. The entire solar panel manufacturing process involves multiple stages, from sourcing high-purity solar panel raw materials like silicon to assembling the final modules.
Understanding the basics of solar panel manufacturing reveals the precision required to convert these materials into efficient energy-producing devices. This is achieved using highly specialized solar panel manufacturing machines in state-of-the-art facilities. The overall solar panel manufacturing plant cost breakdown reflects the significant investment needed to scale up production to meet the growing global demand for clean energy.
The partnership between a technology provider like WEG and an energy leader like Neoenergia is essential for deploying these technologies effectively and driving the energy transition forward.
To learn more about the intricacies of the solar industry and how you can be a part of it, explore our Free E-Course on solar panel manufacturing.
