GridCARE, a California-based startup, released an analysis showing that large data centers can help reduce electricity costs and improve grid reliability by incorporating flexibility into their operations. By partnering with utilities and using artificial intelligence in load management, data centers can potentially reduce costs by 5% across all customer classes or unlock over $1.35 billion in capital for the utility. Another analysis by Camus Energy, encoord, and Princeton University found that flexible data centers could connect to the grid sooner and eliminate incremental power supply costs, contributing $733 million per gigawatt towards the cost of its incremental load. Overall, these studies suggest that data centers can play a key role in improving grid efficiency and sustainability, leading to lower rates for customers and accelerating investment in grid assets.
Category: Electricity & Industry
Cut Emissions:
– Enhance Efficiency
– Cut Fugitive Emissions
– Shift Production
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Hithium pushes into long-duration storage and AI data centres with 1,300Ah cell, 6.9 MW/55.2 MWh system, and lithium-sodium hybrid
Hithium Energy Storage has unveiled new 1300Ah cell and long-duration storage system, as well as a lithium-sodium hybrid solution for AI data centers, to tackle the issues of renewable energy intermittency and growing electricity demand in digital infrastructure. By positioning long-duration storage as a grid asset and foundation for energy-intensive AI infrastructure, the company is making a strategic shift towards more sustainable and efficient energy solutions in response to climate change.
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Germany brings world’s first supercapacitor STATCOM online
Siemens Energy and TenneT have successfully installed the world's first supercapacitor-based grid-stabilization system in Mehrum, Germany. The SVC Plus FS system utilizes supercapacitors to provide instantaneous reserve and reactive power, eliminating the need for large fossil-fuel power plant generators. After over a decade of development and three years of construction, the system now operates fully automatically and remotely controlled. This groundbreaking project sets a new standard for the global energy transition, showcasing the potential of supercapacitors to revolutionize traditional grid-stabilizing functions.
https://www.pv-magazine.com/2025/12/15/germany-brings-worlds-first-supercapacitor-statcom-online/
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The Orphan Well Case For Renewable Energy
Oklahoma has made progress in utilizing wind energy resources, ranking #3 in total renewable energy production and #4 in net power generation from renewables. Despite challenges with pollution and abandoned wells from the oil and gas industry, the state is a renewable energy leader with potential for solar energy growth. Renewable energy opportunities are emerging, with farmers and property owners pursuing solar panels and wind turbines for new revenue. The Energy Department is exploring harvesting geothermal energy from oil and gas wells, as well as repurposing unused oil storage tanks for energy storage, showing that Oklahoma has the potential to grow its renewable energy profile alongside its fossil fuel industry.
https://cleantechnica.com/2025/12/14/the-oilfield-binge-purge-another-reason-to-ditch-fossil-fuels/
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Batteries now cheap enough to make dispatchable solar economically feasible
Utility-scale battery costs have fallen to $65/MWh outside China and the United States, making solar power more reliable. Ember reports a significant drop in battery costs in 2024 and further declines in 2025, making storage more accessible for dispatchable solar projects. The cost of a full utility-scale battery system is $125/kWh for long-duration projects of four hours or more. The levelized cost of storage (LCOS) is calculated at $65/MWh, factoring in various costs and improvements in efficiency and financing. Solar power is now considered anytime dispatchable electricity, changing the game for countries with high solar resources and growing energy demand.
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Rooftop solar and batteries on centre stage: Six key graphs from AEMO’s transition roadmap
The Australian Energy Market Operator has released the draft of its 2026 Integrated System Plan, outlining the transition of Australia's main grid to renewables and storage. The plan highlights the growth of rooftop solar and the potential for an accelerated transition to green energy, with a focus on addressing transmission concerns and the continuation of coal in Queensland. AEMO is unsure how to keep coal running until 2049 due to aging coal-fired power stations being a threat to grid reliability, but the concept of "baseload" is expected to be phased out. The grid is projected to reach 82% renewables by 2030, leading to a significant drop in emissions and paving the way for further emission cuts in other sectors as they electrify and transition to renewables.
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Q&A: Five key climate questions for China’s next ‘five-year plan’
China's upcoming 15th five-year plan in China will have a significant impact on greenhouse gas emissions, influencing clean energy growth and meeting climate commitments. The plan is crucial for aligning with Paris Agreement goals, setting clean-energy targets, capping coal consumption, and preventing emission rebounds. China faces challenges in meeting its climate targets, with a marked slowdown in carbon intensity reduction. To achieve the required reduction in carbon intensity, China would need to increase the share of non-fossil energy and reduce coal consumption. Policymakers are working on implementing a "dual control of carbon" system to manage emissions and face a choice between slowing down the clean-energy boom or retiring older coal-power plants to address challenges.
https://www.carbonbrief.org/qa-five-key-climate-questions-for-chinas-next-five-year-plan/
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AEMO draft plan confirms essential role for long-duration storage in Australia
The Draft 2026 Integrated System Plan (ISP) by the Australian Energy Market Operator (AEMO) underscores the critical role of hydropower, pumped storage, grid-scale batteries, and renewable energy in Australia's future electricity system. With a focus on long-duration storage technologies to manage low wind and solar output, the plan outlines the need for 12GW of pumped storage, 32GW of batteries, and 120GW of new wind and solar by 2035. The forecasted closure of two-thirds of the remaining coal fleet by 2035 highlights the transition towards cleaner energy sources. Stakeholders have until February to provide input on the plan, offering an opportunity for businesses to stay informed and adapt to the evolving climate landscape.
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NYPA adopts 5.5-GW renewable plan amid concerns over affordability, policy changes
The New York Power Authority has approved an update to its renewables plan, adding 2.5 GW of planned capacity for a total of 5.5 GW, which includes solar, wind, distributed energy storage, and compressed air storage projects. NYPA aims to help the state meet its clean energy targets, focusing on developing 15 GW of renewables to supplement private sector energy development in New York. The plan emphasizes the importance of delivering clean, affordable electricity as electric demand grows, while also addressing challenges such as increased costs and power shortages. NYPA's updated renewables strategic plan is focused on developing clean energy projects to strengthen grid resiliency, reduce reliance on fossil fuels, and ensure affordability and equity in the state's clean energy transition.
https://www.utilitydive.com/news/nypa-renewable-energy-plan/807542/
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Construction begins on Engie’s Pelican Point BESS in South Australia
Sungrow and Engie are constructing the Pelican Point grid-forming battery energy storage system (BESS) in South Australia, set to be operational in H2 2027. The 200MW/400MWh BESS will enhance the region's renewable-rich power grid, providing storage, grid stability services, and system resilience for over 29,400 homes. Utilizing Sungrow technologies, the project will support South Australia's energy transition, enabling greater renewable integration and grid flexibility. Additionally, AI-enabled Microgrid Management SystemTM and networked microgrids are being implemented to rebuild the grid for a more flexible, resilient, and sustainable energy future.
https://www.power-technology.com/news/construction-engies-pelican-point-bess/