The Community Power Agency (CPA) report emphasizes the benefits of renewable energy developers partnering with communities, rather than just consulting with them, to expedite planning processes, reduce opposition, and provide financial advantages. The Power in Partnership Guide outlines nine models for collaboration, such as co-ownership and community energy gardens, to enhance community acceptance of renewable energy projects and prevent conflicts. The example of the Bulabul battery project in Wellington, NSW, underscores the importance of community involvement in seizing opportunities in the evolving energy sector. With Australia aiming to increase renewable energy to 82% by 2030, fostering successful partnerships with communities is deemed essential for achieving this target and promoting regional development.
Category: Electricity & Industry
Cut Emissions:
– Enhance Efficiency
– Cut Fugitive Emissions
– Shift Production
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Small 24/7 clean power commitments could cut costs for long-duration storage
Early demand for 24/7 carbon-free electricity is driving the adoption of advanced energy technologies, reducing costs and making clean power commercially viable. Companies like Google are investing in this initiative, bridging the gap between early investment and commercial viability for emerging clean energy technologies. By committing to 24/7 clean power procurement, companies can incentivize the development of newer energy generation and storage technologies, leading to a virtuous cycle of investment and technological learning. This approach not only reduces emissions but also helps advanced technologies become more cost competitive, with studies showing significant cost reductions for technologies like lithium-ion batteries and iron-air batteries driven by carbon-free energy commitments.
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In Alaska, a Data Center Inside a Power Plant, Inside a Microgrid
Cordova Electric Cooperative in Alaska has successfully implemented a local microgrid powered by hydropower and battery energy storage, reducing diesel imports and increasing local energy supply. Inspired by this success, they are now piloting a modular data center powered by localized energy from a hydroelectric facility. The data center is designed for resilience and efficiency, with a focus on distributing data processing and storage assets around geography. This initiative aims to bridge the digital divide and demonstrate the capabilities of edge-based data centers in supporting remote populations. Surplus hydropower is being used to power a local data center in Cordova, Alaska, providing computing capacity for various purposes and bringing data "inside the fence" for business and artificial intelligence applications. Lessons learned from microgrid-data center setups can help streamline data center investments and avoid excessive costs, with the DOE Office of Electricity researching advanced microgrid technologies to facilitate affordable and reliable electricity delivery for data centers. ARIES analysis is being used to answer key questions for connecting computers to power in both small-scale and hyperscale projects, showcasing the potential for localized energy solutions in addressing climate challenges.
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New modelling shows renewable electricity can meet NZ future demand
The government's plan to import LNG for energy security in New Zealand is questioned due to price volatility and the country's goal of achieving 100% renewable electricity generation by 2030. Analysis shows that investing in renewable energy generation and storage systems can meet future demand and exceed it, with offshore wind projects reducing the need for hydro electricity generation. The article discusses the use of excess grid power for pumped hydro storage and highlights the need for additional long-term storage capacity, such as the proposed pumped-hydro project at Lake Onslow. The country already has a regulatory roadmap for battery systems, with significant renewable generation and battery storage projects in development, suggesting that the electricity sector may not actually need the new LNG terminal infrastructure. Storage capacity, both short-term and long-term, is crucial for stabilizing a 100% renewable grid.
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Steering Electricity: How Grid Control Devices Unlock Transmission Capacity
Engineers are focusing on extracting more performance from the electricity network using electronics, software, and control systems. The grid is evolving to become smarter, similar to the evolution of transportation systems. FACTS and APFC technologies help operators guide the flow of electrons, allowing the existing grid to carry more power than originally expected. This approach does not eliminate the need for new infrastructure but maximizes the capacity of the current network.
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The US Offshore Wind Industry Gets An Assist From Singapore
The Empire Wind offshore wind farm off the coast of New York, initially halted by President Trump, is back on track with the use of shuttle models and a Jones-compliant vessel from Singapore for construction. Seatrium has built a new WTIV for the US offshore wind industry, designed to handle large turbines and comply with the Jones Act. Despite challenges, including Trump's attempts to halt projects, the vessel is now in use at the Empire Wind project. The global offshore wind industry is growing, with advancements in technology and construction progressing worldwide, showcasing the potential for renewable energy industries to thrive.
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How women transformed a Vanuatu community with off-grid solar
In Vanuatu, women are facing challenges to their rights, including in climate action, but are organizing in resistance and leading transformative projects like the women-led off-grid solar project in Lawital village on Tanna Island. This initiative has provided electricity to all 115 homes, improving safety, livelihoods, education, and wellbeing. Women have become primary leaders of transformation by mastering technical skills and bringing reliable solar-powered light to their community, revolutionizing education and breaking traditional barriers. The project showcases collective determination and the resilience of women in the face of climate crises, highlighting the importance of supporting women-led initiatives for sustainable change and gender equality. Sustainable funding for such movements is crucial to create lasting impact and promote the rights and empowerment of women and girls.
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Texas Seizes the Solar Crown From California, and Other Key Points From the Latest Electricity Data
Texas has surpassed California as the leader in utility-scale solar generation, producing 58,634 gigawatt-hours in 2025, while California remains ahead in small-scale solar electricity generation. Utility-scale solar was the fastest-growing electricity source in the US last year, increasing by 35 percent, with renewable energy, including wind and hydropower, as the second largest electricity source after natural gas, showing a 9.5 percent increase. Data centers and electrification are driving the trend of total electricity generation from all utility-scale sources increasing by 2.8 percent in 2025. Indiana is increasing its use of coal power despite concerns about costs and environmental impacts, but there is also investment in utility-scale solar projects, such as the Mammoth Solar project. The energy transition is accelerating, with large-scale solar projects becoming more common, highlighting the importance of renewable energy solutions in the face of climate change.
https://insideclimatenews.org/news/05032026/inside-clean-energy-texas-utility-scale-solar/
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AI energy management system to unlock VPP potential
UNSW researchers are collaborating with Aussie Solar Batteries to develop AI-driven energy management platforms for optimizing solar and battery systems to support virtual power plant deployment. The project aims to improve grid stability, lower costs, and unlock greater value from distributed energy assets through forecasting, demand-side management, optimization algorithms, and digital-twin modeling. The partnership is part of the TRaCE initiative funded by the Australian government to fast-track advanced clean-energy technologies. The project, scheduled to run until the end of 2026, focuses on accelerating the commercial readiness of smarter batteries and AI-driven energy systems for more efficient solar and battery networks in Australia.
https://www.pv-magazine.com/2026/03/05/ai-energy-management-system-to-unlock-vpp-potential/