Articles tagged with "wind-turbines"
Trump Fails, Again, To Stop The US Wind Industry
The article details the latest legal setback for former President Trump’s efforts to halt the US offshore wind industry, highlighting a recent federal court ruling that allowed the massive 800-megawatt Vineyard Wind project in Massachusetts to resume work. This decision came after the Trump administration issued a stop-work order citing national security concerns, which a judge found to be irrational and poorly justified, especially since 44 of the project’s 62 turbines were already operational and delivering electricity. The ruling emphasized that if the government’s concern was truly about turbine operation, it made no sense to allow turbines to run while prohibiting repairs and completion of the remaining turbines. This case marks the fourth judicial defeat for Trump’s attempts to impede offshore wind projects, with courts consistently ruling against the administration’s efforts to block development once leases had been granted. Although Trump had initially halted new offshore lease approvals and ordered work stoppages on projects under construction, courts have maintained that lease-holders have the right to complete their projects unless there is a compelling
energywind-energyoffshore-windrenewable-energyUS-energy-policywind-turbinesclean-energyLandfill Panic vs System Reality: What Wind & Solar Actually Displace - CleanTechnica
The article from CleanTechnica addresses recurring claims that wind turbines and solar panels contribute significantly to landfill waste, suggesting that these clean energy sources merely replace one environmental problem with another. While wind turbine blades and solar panels do generate physical waste at the end of their lifecycles, the article emphasizes the importance of evaluating this waste in the context of the entire electricity system and on a per megawatt-hour (MWh) basis. When annualized over their operational lifetimes, wind turbine blades contribute approximately 0.1 to 0.25 kilograms of material waste per MWh, and solar panels produce similarly low amounts. These materials are inert and managed within engineered waste systems, contrasting sharply with fossil fuel waste. In comparison, coal and natural gas power generation produce continuous and substantial waste streams during operation, including roughly 900 to 1,000 kilograms of CO2 per MWh from coal, along with nitrogen oxides, sulfur dioxide, particulates, and toxic fly ash. Natural gas emits
energyrenewable-energywind-turbinessolar-panelsclean-energyenergy-waste-managementsustainable-materialsTen Nations Commit $11 Billion To Make The North Sea A 100 GW Powerhouse - CleanTechnica
Ten European nations bordering the North Sea—the UK, Belgium, Denmark, France, Germany, Ireland, Luxembourg, the Netherlands, Norway, and Iceland—are set to sign an agreement on January 26, 2026, in Hamburg to develop a 100 GW offshore wind power network. This initiative aims to transform the North Sea, historically a major oil and methane production region, into one of the world’s largest clean energy reservoirs. The total investment for this project is expected to exceed $11 billion by the end of the decade. Key components of the agreement include harmonizing turbine specifications and distribution systems to reduce offshore wind costs by 30% through improved design and permitting processes. The project is anticipated to attract over a trillion dollars in offshore wind investments by 2040 and create more than 90,000 jobs in clean energy sectors. It also promotes removing regulatory barriers to power purchase agreements, facilitating direct contracts between producers and corporate consumers. European energy leaders emphasize that this cooperative effort will enhance energy security
energyoffshore-windrenewable-energyNorth-Seaclean-energywind-turbinesenergy-investmentTrump Judge Hands Another Offshore Wind #FAIL To Trump
The article discusses the ongoing conflict between former President Donald Trump and offshore wind energy projects in the United States. Since 2013, Trump has opposed offshore wind turbines, including a failed legal challenge in Scotland. Domestically, his administration issued a stop-work order on December 22, halting five major offshore wind projects—Sunrise Wind, Empire Wind, Vineyard Wind, Revolution Wind, and the Coastal Virginia Offshore Wind (CVOW) project—citing national security concerns raised by the Department of Defense. These projects collectively represent about 8 gigawatts of energy capacity, with some turbines already operational, such as those at Vineyard Wind. Legal challenges quickly followed, and two of the projects—Sunrise Wind and Empire Wind—have had their stop-work orders lifted by federal judges, including Trump appointee District Judge Carl J. Nichols, who ruled that delays would cause "imminent irreparable harm." The fate of the remaining three projects remains uncertain but faces increasing legal and political pressure
energyoffshore-windrenewable-energywind-turbinesenergy-infrastructureUS-energy-policyclean-energyComments on World's Potential Response to Trump on UNFCCC Withdrawal - CleanTechnica
The article from CleanTechnica discusses global reactions and potential consequences following the United States' withdrawal from the UNFCCC (United Nations Framework Convention on Climate Change) under the Trump administration. It highlights a range of insightful comments emphasizing that while the US retreat from international climate commitments is detrimental, it may not significantly hinder global progress on clean energy. Many other regions—including Europe, Asia, and Africa—are expected to accelerate their adoption of zero-emission technologies, such as widespread electrification beyond just electric vehicles, thereby driving down emissions and technology costs independently of US policy. A key point raised is that China stands to benefit substantially from the US withdrawal. The article notes that China has already capitalized on the US's inconsistent climate stance by heavily investing in renewable energy research, development, and deployment, effectively cornering the market on clean technology. The US’s imposition of tariffs and restrictions on solar panels, batteries, and related technologies has slowed its own transition while allowing China and other countries to advance rapidly.
energyrenewable-energyclean-technologyelectrificationsolar-panelswind-turbinesenergy-policySuperorganism raises $25M to back biodiversity startups
Superorganism, a venture capital firm focused on biodiversity startups, has closed its first fund with $25.9 million in capital commitments from investors including the Cisco Foundation, AMB Holdings, Builders Vision, and individuals like Jeff Jordan of Andreessen Horowitz. The firm targets early-stage companies working in three main areas: technologies that slow or reverse extinction, ventures at the intersection of climate and biodiversity, and tools that enhance conservation efforts. Superorganism typically invests $250,000 to $500,000 in pre-seed and seed rounds and commits 10% of its profits to future conservation initiatives. Managing director Kevin Webb describes the fund as analogous to a climate tech fund but focused on preventing nature loss rather than carbon emissions. Founded in 2022 by Webb and Tom Quigley, Superorganism aims to build a diverse portfolio of about 35 companies, having already invested in 20. Their portfolio includes startups like one using computer vision to track bird migration to reduce wind turbine impacts,
energybiodiversityclimate-techconservation-technologywind-turbinescomputer-visionenvironmental-startupsOffshore wind developers sue Trump administration for halting $25B in projects
Three offshore wind developers have filed lawsuits against the Trump administration following the Department of the Interior's decision on December 22 to halt $25 billion worth of offshore wind projects, which collectively would generate 6 gigawatts of electricity. The affected projects include Revolution Wind, nearly 90% complete, and Empire Wind and Coastal Virginia Offshore Wind, each about 60% complete. Dominion, involved in these projects, reported losses of $5 million per day due to the halt. Meanwhile, Avangrid’s Vineyard Wind 1 project, nearly half operational, has not yet joined the legal action. The Department of the Interior justified the stoppage citing national security concerns, likely related to the interference wind turbines can cause with radar systems. Although specifics were not detailed, a February 2024 Department of Energy report acknowledged these radar challenges but also outlined potential solutions, such as careful site selection and technological adaptations. Coordination between the Bureau of Ocean Energy Management and military agencies aims to address these conflicts on a project-by
energyoffshore-windrenewable-energywind-turbinesDepartment-of-Energyradar-interferenceclean-energy-projectsTop 7 must-read stories of 2025 — Interesting Engineering
As 2025 concludes, Interesting Engineering highlights its top seven must-read stories that captivated audiences with breakthroughs in engineering, robotics, and materials science. Leading the list is a Penn State aerospace engineering graduate student who solved a century-old mathematical problem related to wind turbine optimization, significantly improving power output by amending Hermann Glauert’s rotor disk solution. Robotics also featured prominently, with Chinese humanoid robots demonstrating advanced combat skills ahead of the world’s first robot boxing match, showcasing the rapid evolution of robotic capabilities. Other notable stories include the creation of the strongest-ever armor material by U.S. scientists, featuring a novel two-dimensional mechanically interlocked polymer with exceptional strength and flexibility, promising future applications in lightweight body armor. Rheinmetall Canada’s Mission Master 2.0 unmanned ground vehicle successfully completed a challenging sea-to-shore transit, proving its autonomous operational capabilities. Additionally, FBR Limited’s Hadrian bricklaying robot demonstrated remarkable efficiency by laying up to 360 blocks per hour, signaling a
robothumanoid-robotswind-turbinesenergy-optimizationadvanced-materialsunmanned-ground-vehiclerobotics-technologyAs Offshore Wind War Heats Up, Trump's Flop Sweat Is Showing
The article discusses President Donald Trump's recent decision on December 22 to halt construction at the 2.6-gigawatt Coastal Virginia Offshore Wind (CVOW) project, marking a significant escalation in his longstanding opposition to the U.S. offshore wind industry. Despite Trump's vocal threats since January, the CVOW project had previously been exempt from federal interference, possibly due to intervention by Virginia's Republican Governor Glenn Youngkin, who supported the project despite his alignment with Trump. This protection ended following the November 2025 Virginia gubernatorial election, where a Democrat won, aligning Virginia with other Democratic-led states that host offshore wind projects. Trump's new order also affects four other major offshore wind projects in Massachusetts, Rhode Island, Connecticut, and New York, citing national security concerns as justification. However, this rationale is questioned because these projects had already passed extensive multi-agency national security reviews prior to approval. The timing and nature of the order suggest political motivations tied to partisan conflicts rather than new security threats.
energyoffshore-windrenewable-energywind-turbinesclean-energyenergy-policyUS-energy-projectsTrump admin halts 6 GW of offshore wind leases again
The Trump administration has again paused offshore wind leases for five major projects totaling nearly 6 gigawatts of generating capacity along the U.S. East Coast, citing national security concerns related to radar interference. Interior Secretary Doug Bergum referenced emerging risks from adversary technologies and vulnerabilities posed by large-scale offshore wind farms near population centers. The affected projects include Revolution Wind (Connecticut and Rhode Island), Coastal Virginia Offshore Wind, Vineyard Wind (Massachusetts), and Empire Wind and Sunrise Wind (New York). The Department of the Interior based its decision on unclassified and classified Pentagon reports but did not specify the agencies involved or provide links to these documents. Radar interference from wind turbines is a known issue that has been studied for over a decade, with various mitigation strategies developed and implemented. Wind turbine blades create complex Doppler signatures that can challenge radar detection, but adaptive processing algorithms and careful wind farm siting have allowed radar systems to filter out these interferences effectively. A 2024 Energy Department report noted that while
energyoffshore-windwind-turbinesrenewable-energyradar-interferenceenergy-policynational-securityIE’s top 7: Must-read stories on wind power tech innovations of 2025
The article highlights seven groundbreaking wind power technology innovations emerging in 2025, showcasing a shift from incremental improvements to radical redesigns of wind energy systems. Key developments include China’s successful test of the S1500, the world’s first megawatt-level airborne wind turbine shaped like a giant Zeppelin, which floats at high altitudes to capture steady winds without requiring towers or deep foundations. This design reduces material use by 40% and electricity costs by about 30%, and is fully mobile for deployment in challenging environments like deserts and islands. Another notable innovation is a German-developed lightweight small turbine that boosts energy output by 83% while reducing weight by 35%, enabling efficient power generation even at very low wind speeds and expanding wind power’s applicability to previously unsuitable areas. Additional advances include a bladeless wind turbine design from the University of Glasgow that uses vortex-induced vibrations to generate up to 460 watts safely, with quieter operation, lower maintenance, and improved wildlife safety compared to traditional turbines. This design
energywind-powerrenewable-energywind-turbinesenergy-innovationoffshore-windsustainable-technologyUK: 150 recyclable wind turbine blades to power a million homes
The UK’s Sofia Offshore Wind Farm, a 1.4 GW project located 121 miles off the east coast, is set to power approximately 1.2 million homes upon its expected operational start in 2026. RWE, the global energy company behind the project, has completed the first large-scale installation of recyclable wind turbine blades in the UK, marking a significant advancement in circular technology for offshore wind energy. The wind farm features 50 Siemens Gamesa turbines, each equipped with three 108-meter recyclable blades, designed to efficiently harness the strong and steady winds of the North Sea. Construction is progressing on schedule, with over half of the 100 turbines installed and the project anticipated to begin commercial operations by September 2026. Siemens Gamesa developed a special resin for these blades, allowing the composite materials to be easily separated and reused at the end of their lifecycle, supporting a circular economy by diverting waste from landfills. This innovation enables materials from old blades to be repur
energyrenewable-energywind-turbinesrecyclable-materialsoffshore-wind-farmsustainable-energycircular-economy€500 Million Green Loan Signed For 315 MW Offshore Wind Farm - CleanTechnica
The European Investment Bank (EIB) has provided a €500 million green loan to Iberdrola, supported by the Spanish export credit agency Cesce, to finance the Windanker offshore wind farm currently under construction in the German Baltic Sea. Upon completion, the 315 MW project will feature 21 Siemens Gamesa SG 14-236 DD turbines, each with a capacity of up to 15 MW, and is expected to generate enough renewable electricity annually to power approximately 600,000 people. Turbine installation is slated to begin in 2026, with full commissioning by the end of that year. The project will create about 2,200 person-years of employment during construction and sustain up to 160 permanent skilled jobs during operation. It is projected to reduce carbon emissions by around 672,000 tons of CO2 annually, contributing to Germany’s goal of achieving an 80% renewable electricity share by 2030. The Windanker wind farm is part of a broader push to harness
energyrenewable-energyoffshore-wind-farmwind-turbinesgreen-loanSiemens-Gamesacarbon-emissions-reduction7 of the world’s largest wind turbines powering the offshore future
The article highlights the rapid advancements in offshore wind turbine technology, focusing on seven of the world’s largest and most powerful turbines currently shaping the future of marine wind energy. Engineers are pushing the boundaries with turbines now exceeding 20 megawatts (MW) in rated capacity, featuring enormous rotor diameters and blades designed to capture stronger offshore winds efficiently. These next-generation turbines incorporate advanced materials and technologies, such as carbon-fiber blades and semi-direct drive systems, enabling them to withstand extreme weather conditions like typhoons while delivering unprecedented power outputs. Among the turbines discussed, the DEW-26 MW-310 by Dongfang Electric Corporation in China stands out as the largest, with a 26 MW capacity and a rotor diameter of approximately 310 meters. Other notable models include the MySE 22 MW from Mingyang Smart Energy, designed for deployment in 2024-2025 with similar rotor size and typhoon resilience, and Siemens Gamesa’s SG DD-276 prototype rated at 21.
energywind-turbinesoffshore-wind-powerrenewable-energywind-energy-technologycarbon-fiber-materialsturbine-designFortescue Continues March to “Real Zero” - CleanTechnica
Fortescue Metals Group, led by Australian billionaire Dr. Andrew Forrest, is aggressively pursuing a goal of achieving “real zero” carbon emissions by 2030. This initiative involves forming strategic partnerships with global leaders in clean energy and technology, including BYD (electric vehicles and energy storage), Longi (solar technology), and Envision (advanced wind turbines). Fortescue aims to leverage a multilateral network combining operational expertise from Australia’s Pilbara region, R&D strengths from the US and Australia, engineering excellence from the UK and Europe, and manufacturing capabilities in China and the US to accelerate industrial decarbonization in an industry traditionally seen as hard to decarbonize. The company plans to electrify its mining fleet using battery electric haul trucks supplied by XCMG and Liebherr, with a target fleet of 300 to 400 zero-emission trucks by 2030. Fortescue has also acquired Spanish company Nabrawind to deploy innovative wind turbines capable of operating in the
energyrenewable-energydecarbonizationelectric-vehiclessolar-technologywind-turbinesenergy-storageWe're Waging A War In Defense Of Clean Energy - CleanTechnica
The article highlights the significant growth and defense of clean energy in the United States, noting that despite political opposition during the Trump administration, renewable energy has scaled up considerably. Many companies have integrated solar, wind, and battery technologies into their business models, driven by competitive advantages and a strong demand for new energy sources. Federal tax incentives from the Biden administration’s Inflation Reduction Act, which require renewable projects to start by July 1, 2026, are accelerating this growth. Experts, including Nobel laureates, emphasize the critical role of technological progress in sustaining economic growth and improving quality of life, with renewable energy innovation seen as a key contributor. Solar and battery technologies are becoming more cost-effective and quicker to deploy compared to traditional natural gas and nuclear plants. Federal tax credits for grid-scale battery storage remain intact, encouraging developers to invest in batteries that complement wind and solar projects. This surge in renewable capacity is expected to continue, with renewables and batteries projected to constitute about 93% of new energy capacity
energyrenewable-energyclean-energysolar-powerwind-turbinesbattery-storageenergy-innovationNew gravity battery design could store renewable power in skyscrapers
Researchers at the University of Waterloo have developed a novel gravity-based energy storage system designed for high-rise buildings to store renewable energy efficiently. This system integrates photovoltaic (PV) facades on multiple building sides, small rooftop wind turbines, lithium-ion batteries, and a rope-hoist gravity storage mechanism. Excess electricity generated by the PV panels and wind turbines is used to lift a heavy mass—typically steel or concrete blocks—within a vertical shaft, storing energy as gravitational potential. When energy demand rises or renewable production falls, the mass is lowered to drive a generator, converting the stored potential energy back into electricity. The lithium-ion batteries serve primarily for rapid response during sudden surpluses or shortages. The researchers employed a multi-objective optimization framework to minimize both the levelized cost of electricity (LCOE) and grid dependency (GD) across 625 parametric building designs varying in energy use intensity (EUI) and geometric configurations. The system demonstrated LCOE values between $0.051 and $
energyrenewable-energyenergy-storagegravity-batteryphotovoltaicwind-turbineslithium-ion-batteriesItaly's rare wind turbines with self-adjusting blades get funds to spin
Italian startup GEVI Wind has secured $3.1 million in seed funding to accelerate production of its innovative AI-powered vertical micro wind turbines, which feature self-adjusting blades that optimize energy capture in real time. Developed in Pisa and based in Rome, these compact turbines use proprietary AI to adjust blade angles every few milliseconds based on live wind data, resulting in up to 60% higher annual energy yields compared to traditional vertical-axis turbines and significantly reduced mechanical stress during strong winds. The turbines are designed for domestic and off-grid use, with a quiet operation suitable for residential areas and a size that fits rooftops and local microgrids. The funding, led by venture capital firms including 360 Capital and CDP Venture Capital, will help GEVI Wind transition from prototype to full industrial production across Europe. The company emphasizes durability, flexibility, and low maintenance, aiming to extend turbine lifespan and lower costs through its vertical design and smart blade control. Founded in 2022, GEVI Wind plans to refine
energywind-turbinesrenewable-energyAI-powered-turbinesmicro-wind-turbinesenergy-transitionsustainable-technologyOffshore Wind Workers Are Uncertain About The Industry's Future - CleanTechnica
The article from CleanTechnica highlights the uncertainty faced by offshore wind workers amid political opposition, particularly from the Trump administration, which has criticized and sought to limit offshore wind projects. Despite significant investments in infrastructure such as docks, terminals, and training programs, the administration’s stance threatens the progress and economic benefits generated by the industry. Offshore wind development has revitalized struggling port cities and provided blue-collar jobs, which ironically form a key part of Trump’s political base. Legal challenges have recognized the harm to workers, as seen in a ruling by Judge Royce Lamberth emphasizing the impact on over 1,000 employees involved in projects like Revolution Wind. A major challenge for the offshore wind sector is the shortage of an experienced workforce, with difficulties in hiring qualified personnel at all levels. The Trump administration’s focus on fossil fuels further hampers recruitment efforts, despite projections that offshore wind jobs will grow substantially through 2050, with demand for over 258,000 workers. To sustain industry growth, enhanced
energyoffshore-windrenewable-energywind-turbinesworkforce-developmentclean-energywind-power-industryLife Is Lovely Now That Block Islanders Have Offshore Wind Power - CleanTechnica
The article highlights the transformative impact of the Block Island Offshore Wind Project (BIOWP) on Block Island, Rhode Island. Previously reliant on five noisy, polluting diesel generators that caused inconsistent and expensive electricity, the island now benefits from clean, reliable offshore wind power. The BIOWP connects the island to the mainland power grid via a $120 million undersea cable, which also provides the first reliable broadband internet service to the island. This connection has significantly improved residents' quality of life, stabilized energy costs to less than a third of previous levels, and enhanced internet access critical for education and tourism. Block Islanders, who value their natural environment with nearly half the island protected from development, have embraced offshore wind as a key part of their conservation efforts and climate change mitigation. The offshore turbines, located about 5 km from shore within state waters, have not only reduced pollution and noise but also contributed positively to the marine ecosystem by creating artificial reefs that support productive fishing. The community’s support for expanding the offshore
energyoffshore-wind-powerrenewable-energywind-turbinesenergy-gridsustainable-energyclean-energyWorld's first near-zero CO2 steel to power onshore wind towers
Swedish-American company SSAB has developed the world’s first near-zero CO2 steel, called SSAB Zero, produced at their Montpelier, Iowa facility. This steel incorporates hydrogen-reduced iron made using the HYBRIT technology, which replaces coal with fossil-free hydrogen in ironmaking. The production process also uses recycled scrap, fossil-free electricity, biocoal, and renewable natural gas, aligning the steel with the International Energy Agency’s (IEA) near-zero CO2e emissions standards. SSAB Zero is designed for diverse applications including automotive, mining, construction, and energy, and will soon be used by GE Vernova in onshore wind turbine towers across the US. The partnership between SSAB and GE Vernova highlights a significant milestone in industrial decarbonization and clean energy efforts. GE Vernova, a major equipment manufacturer, supports the initiative as part of its commitment to electrify and decarbonize the energy sector. The collaboration is recognized by the First Movers Coalition
energygreen-steelhydrogen-reduced-irondecarbonizationrenewable-energywind-turbinessustainable-materialsA Huge Floating Offshore Wind Opportunity Floats Away
The article discusses the significant setbacks faced by the U.S. offshore wind industry under the Trump administration, particularly during his second term. Offshore wind, especially floating offshore wind technology, represents a major opportunity for the U.S. given its extensive coastal resources, including shallow Atlantic waters suitable for monopile turbines and deeper waters along the Pacific coast ideal for floating platforms. These floating platforms offer advantages such as avoiding conflicts with fishing, shipping, and naval operations, as well as preserving coastal views. Despite this potential, the Trump administration has aggressively targeted and dismantled much of the domestic offshore wind sector, resulting in job losses and lost economic opportunities. A key example highlighted is the Department of Justice’s September 2023 reversal of approval for the Maryland Offshore Wind Project, which had previously been fully permitted by state and federal agencies. This move has drawn sharp criticism from industry groups like the Oceanic Network, which warn that such actions will raise electricity costs, deter private investment, delay economic growth, and weaken the power grid
energyoffshore-windrenewable-energyfloating-wind-platformswind-turbinesclean-energyenergy-policySpace-time method unlocks unprecedented accuracy in fluid dynamics
Researchers at Rice University and Waseda University have advanced computational fluid dynamics (CFD) by developing a space-time computational flow analysis method that significantly improves accuracy in modeling complex fluid flows. Originally introduced by Tayfun Tezduyar in 1990, this approach integrates spatial and temporal dimensions of fluid flow simultaneously, unlike traditional methods that treat them separately. This unified representation allows for high-fidelity simulations that capture intricate, time-dependent flow patterns with unprecedented precision, enabling solutions to problems previously considered intractable. The method has been successfully applied across diverse fields including aerospace, medicine, automotive, and renewable energy. Notably, NASA used it to design reliable parachutes for the Orion spacecraft, while medical researchers employed it to simulate blood flow through heart valves, aiding cardiovascular surgeries. Automotive tire manufacturers analyze aerodynamics and cooling, and renewable energy experts assess turbulent wakes of wind turbines to optimize placement and reduce risks to aircraft and wildlife. By placing dense computational points in critical flow regions, the technique avoids accuracy losses
energyrenewable-energyfluid-dynamicscomputational-fluid-dynamicswind-turbinesaerospace-engineeringsimulation-methodsWorld's first nature-inclusive 30 MW floating wind farm launched
Ocean Winds (OW) has successfully completed the installation of the world’s first nature-inclusive 30 MW floating offshore wind farm, Éoliennes Flottantes du Golfe du Lion (EFGL), off the coast of Occitanie, France. The project features three 10 MW turbines mounted on floating foundations, assembled at Port-La Nouvelle and towed 16 km offshore. This milestone demonstrates the viability of floating wind technology in deeper waters, unlocking high-wind areas previously inaccessible to fixed-bottom turbines. The EFGL project is expected to supply clean energy to around 50,000 inhabitants annually and marks a significant step in OW’s 15-year leadership in floating wind technology. EFGL is notable not only for its technological achievement but also as the world’s first nature-inclusive floating wind farm, incorporating artificial marine habitats called Biohuts to enhance local biodiversity. This innovation, alongside strong regional collaboration and advanced engineering, sets a new benchmark for environmentally responsible offshore wind development. The success of EFGL p
energyoffshore-windfloating-wind-farmrenewable-energyclean-energywind-turbinesmarine-technologyWorld's first nature-inclusive 30 MW floating wind farm launched
Ocean Winds (OW) has successfully installed the world’s first nature-inclusive 30 MW floating offshore wind farm, Éoliennes Flottantes du Golfe du Lion (EFGL), off the coast of Occitanie, France. The project features three 10 MW turbines mounted on floating foundations, demonstrating the viability of floating wind technology in deeper waters where traditional fixed foundations are not feasible. Assembled at Port-La Nouvelle and towed 16 km offshore, the turbines are now undergoing final cable and grid connections, expected to supply clean energy to about 50,000 residents annually. This milestone underscores OW’s leadership in floating offshore wind, following their earlier 25 MW WindFloat Atlantic project in Portugal. EFGL is notable not only for its technological achievement but also for being the world’s first nature-inclusive floating wind farm, incorporating artificial marine habitats called Biohuts to enhance local biodiversity. This approach sets a new benchmark for environmentally responsible offshore wind development. The project reflects strong regional collaboration among local
energyrenewable-energyoffshore-windfloating-wind-farmclean-energywind-turbinessustainable-technologySix oddball wind turbine designs that turn clean power into art
The article highlights six unconventional wind turbine designs that blend clean energy generation with artistic and architectural innovation, challenging the traditional image of large, three-bladed turbines. These designs range from New World Wind’s Aeroleaf, which mimics trees with vertical-axis micro-turbines suited for urban environments, to Norway’s Windcatcher, a floating offshore “wind skyscraper” composed of clustered smaller turbines that aim to outperform single large rotors in energy capture and maintenance efficiency. The X-Rotor project introduces an “X”-shaped vertical-axis rotor combined with horizontal-axis secondary rotors to reduce costs and balance power loads, while Atelier DNA’s Windstalk envisions a kinetic art installation of carbon-fiber reeds that generate electricity through motion without spinning blades. Further pushing the boundaries, China’s Windmill Airship (S1500) is a helium-filled airborne turbine designed to harness stable, high-altitude winds at 1,500 meters, potentially producing vastly more energy than ground-based turbines. This
energywind-energywind-turbinesrenewable-energyclean-energysustainable-technologyenergy-innovationAmidst Energy Prices Rise, Trump Kills Jobs, Cuts Off Renewable Energy - CleanTechnica
The Trump Administration has issued a stop work order on the Revolution Wind offshore wind project in Rhode Island, halting progress despite the project being approximately 80% complete with 45 of 65 turbines installed. This project was designed to provide renewable energy to Rhode Island and Connecticut, supporting regional job creation and offering a clean energy alternative. The decision comes amid rising energy prices, drawing criticism for undermining efforts to expand affordable and sustainable energy sources. Environmental advocates, including the Sierra Club, have strongly condemned the administration's move. Sierra Club Climate Policy Director Patrick Drupp highlighted that offshore wind represents one of the cheapest and most reliable energy options available, and accused the Trump Administration of prioritizing fossil fuel interests over clean energy solutions. The Sierra Club, a leading grassroots environmental organization, continues to advocate for clean energy development, community health, and environmental protection through activism and policy engagement.
energyrenewable-energyoffshore-windwind-turbinesclean-energyenergy-policyenvironmental-activismAre vertical blades on-track to revolutionise wind power?
The article discusses Airloom Energy, a US startup that is innovating wind power technology with a compact, oval-track turbine system featuring smaller, independent vertical blades or "wings." Unlike traditional large horizontal-axis wind turbines (HAWTs), Airloom’s design operates on a lower profile and uses a track along which these wings move to capture wind energy. This approach promises to deliver utility-scale power while using significantly fewer materials, reducing costs, and enabling faster, modular deployment. The design also aims to minimize visual impact and logistical challenges associated with the construction and transportation of conventional massive turbines. Airloom’s concept originated from an informal sketch by founder Robert Lumley, inspired by kiteboarding and airborne wind energy ideas. CEO Neal Rickner highlights that the system’s smaller, mass-producible components can be shipped via standard trucks and assembled quickly, addressing current industry hurdles such as rising steel and aluminum tariffs that threaten to increase turbine costs. By fundamentally rethinking turbine architecture, Airloom Energy aims to accelerate the
energywind-powerrenewable-energywind-turbinesclean-energyAirloom-Energyturbine-designThe US Wind Industry Is Coming Back
The US wind industry experienced a significant downturn after President Donald Trump took office in 2017, with many projects stalled and jobs lost due to restrictive policies on new onshore wind farms. However, recent signs indicate a revival, particularly in the onshore sector. Danish manufacturer Vestas reported substantial turbine orders in 2025, including a 950 MW package for undisclosed US projects, signaling renewed demand. Much of this resurgence is driven by repowering efforts, where older wind farms are upgraded with newer, more efficient turbines to increase capacity while reducing the number of turbines. These repowering projects face fewer regulatory hurdles since they occur on existing sites, making them a viable path forward despite ongoing political resistance to new developments. The offshore wind sector remains more vulnerable due to its reliance on federal lease areas, which have been curtailed under the current administration, limiting new lease auctions and slowing project approvals. Nonetheless, some projects like Equinor’s in New York have resumed construction after brief halts, and new
energywind-powerrenewable-energywind-turbinesVestasUS-wind-industryclean-energyShould We Sacrifice The Seabed Floor For Next Generation Technology? - CleanTechnica
The article from CleanTechnica discusses the environmental and ethical concerns surrounding deep sea mining, particularly in light of recent U.S. government actions promoting the practice despite international prohibitions. Deep sea mining targets polymetallic nodules on the ocean floor, which contain valuable minerals like lithium, cobalt, copper, nickel, manganese, and rare earth elements essential for modern technologies such as electric vehicles, wind turbines, and medical devices. However, these nodules are home to unique and poorly understood marine ecosystems, including bioluminescent animals and species adapted to oxygen-minimum zones. Mining these nodules would destroy these fragile habitats, raising significant ecological concerns. The article highlights the tension between technological and economic interests and the need to protect the ocean’s last largely untouched frontier. While the United Nations Convention on the Law of the Sea (UNCLOS) provides a legal framework for ocean governance and emphasizes the protection of marine environments for present and future generations, the Trump administration has pushed forward with mining initiatives under an older
energydeep-sea-miningrare-earth-elementslithiumcobaltelectric-vehicleswind-turbinesGovernment Overreach Now Wears A MAGA Hat As Assault On Wind Power Accelerates - CleanTechnica
The article from CleanTechnica highlights a stark shift in Republican governance, particularly under the current MAGA-influenced administration, which is aggressively targeting wind power despite previous Republican rhetoric against government overreach. Historically, Republicans criticized Democrats for excessive spending and regulatory control, yet now they are imposing stringent rules that severely hinder the development of wind energy, a key clean and emissions-free power source. This contradiction is underscored by the administration’s willingness to bypass Congress and enforce policies aimed at eliminating wind power, reflecting a partisan agenda heavily influenced by fossil fuel interests. A recent example of this crackdown includes the Department of Transportation’s new mandate for a 1.2-mile setback requirement for wind turbines near railroads and highways, alongside increased Federal Aviation Administration scrutiny on turbine height clearances. These measures threaten to restrict wind energy development across vast areas of the U.S. The article also criticizes the Supreme Court’s alignment with these policies, suggesting it disregards legal precedents and judicial restraint, effectively enabling the executive
energywind-powerrenewable-energygovernment-policyclean-energywind-turbinesenergy-regulationYplasma zaps the air to cool chips for data centers
Yplasma, a startup spun out of Spain’s space agency INTA, has developed a novel cooling device that uses plasma actuators—thin, flexible strips of copper carrying electrical current—to manipulate air without moving parts. This technology offers a more energy-efficient alternative to traditional fans, consuming about 1 watt compared to 3-4 watts for a small laptop fan, and its slim form factor allows it to fit into space-constrained electronics. Yplasma recently raised $2.5 million in seed funding led by Faber, with participation from SOSV, and will conduct research and development at SOSV’s Hax labs in Newark, New Jersey, and Madrid. Initially targeting wind turbines to improve airflow and reduce drag—potentially increasing electricity generation by 10-15%—Yplasma’s actuators can also generate heat to de-ice turbine blades, addressing a significant energy loss issue caused by ice buildup. While continuing work on wind turbine applications, the company has shifted focus toward
energycooling-technologydata-centersplasma-actuatorswind-turbinessemiconductor-coolingenergy-efficiencyWest Virginia To Host A 335 Megawatt Wind Farm
The article discusses the development of a new 335-megawatt wind farm in West Virginia, a state historically dominated by coal mining, particularly mountaintop removal mining—a practice that has caused significant environmental damage. Despite President Trump’s vocal opposition to wind turbines, citing concerns about natural landscapes and the reliability of wind and solar energy, wind power projects in West Virginia have been steadily advancing. Since 2002, the state has established eight utility-scale wind farms totaling 856 megawatts, demonstrating a growing renewable energy presence even within a coal-centric economy. A notable trend in West Virginia’s wind industry is the repowering of older wind farms to improve efficiency and capacity. For example, Clearway Energy Group upgraded the Pinnacle Wind Farm, increasing its capacity by 16% without adding more turbines. More significantly, Clearway has entered a power purchase agreement with Microsoft to repower the Mount Storm wind farm in Grant County, aiming to enhance its output with American-made turbines from Vestas. This
energywind-farmrenewable-energyWest-Virginiapower-generationclean-energywind-turbinesTiny turbines crack wind’s secret ‘twist’ for a giant 37% power boost
Researchers led by Shuo Zhang have discovered that pairing two tiny, counter-rotating wind turbines in tandem can increase power output by 37% compared to a single turbine. These micro wind turbines, less than 200 millimeters in diameter, are crucial for powering remote and decentralized technologies such as environmental sensors and IoT devices. Using stereoscopic particle image velocimetry, a 3D airflow visualization technique, the team analyzed the wake—turbulent airflow—behind the first turbine and found it retains significant rotational energy typically lost. By positioning a second turbine counter-rotating behind the first at a specific distance (12 radii), this residual rotational energy can be harnessed, boosting overall efficiency. The enhanced performance stems from the unique physics of small turbines, which operate at lower speeds and higher torque, imparting a “twist” to the wind that the downstream turbine can exploit. This tandem design mimics multi-stage turbines in jet engines by capturing both the wind’s push and twist
energywind-turbinesmicro-wind-turbinesrenewable-energyenergy-harvestingIoT-devicessustainable-power‘Wings’ on poles: Bill Gates-backed wind tech plant takes off in US
Airloom Energy, a Wyoming-based startup backed by Bill Gates’ Breakthrough Energy Ventures, has begun construction on its first pilot facility in Rock River, aiming to revolutionize utility-scale wind energy. The company secured $13.75 million in funding last year to develop its innovative wind turbines, which are notably smaller and lighter than conventional models—standing at 82 feet compared to the typical 328 feet. Unlike traditional horizontal-axis wind turbines (HAWTs), Airloom’s proprietary design features compact, modular turbines with rectangular swept areas, enabling higher energy conversion efficiency in less space. This approach addresses growing US energy security concerns and the anticipated energy shortfalls forecasted by the North American Electric Reliability Corporation (NERC) and Gartner. Airloom Energy’s CEO Neal Rickner emphasizes the urgent need for affordable, flexible, and rapidly deployable energy systems to meet increasing electricity demand driven by factors such as AI and digital infrastructure growth. The company’s turbines, made with mass-manufacturable US components, can
energywind-energyrenewable-energywind-turbinesenergy-innovationAirloom-Energysustainable-energyGlobal Offshore Wind Market Sails Away From US
The global offshore wind market is poised for another strong year in 2025, with 8 gigawatts of new capacity added in 2024, marking the fourth-highest annual installation on record. The total installed offshore wind capacity now powers approximately 73 million households worldwide. Additionally, offshore wind farms under construction reached a record 48 gigawatts, and governments globally set a new record for offshore lease auctions at 56 gigawatts. However, despite this robust pipeline, the industry faces significant challenges, particularly due to policy instability and supply chain constraints. The United States, despite its vast offshore wind potential—estimated by the National Renewable Energy Laboratory at 4 terawatts combining fixed-bottom and floating turbines—has notably lagged, dragging down the global market’s short-term outlook. The Global Wind Energy Council (GWEC) highlights that the US’s negative policy environment, alongside failed auctions in the UK and Denmark, has led to a 24% downgrade in the short-term growth forecast
energyoffshore-windrenewable-energywind-powerenergy-policyglobal-energy-marketwind-turbinesUS urges UK to rethink Chinese turbine factory near North Sea projects
The UK government is currently reviewing the security implications of allowing Chinese manufacturer Mingyang Smart Energy to build a wind-turbine factory in Scotland, amid concerns raised by the United States. The Trump administration privately warned that turbines made by Mingyang could potentially contain electronic surveillance equipment, posing national security risks, especially given their proximity to sensitive military sites in the North Sea. Similar concerns have been communicated to Germany, where Mingyang is also involved in offshore wind projects. British intelligence agencies are contributing to a broader government assessment of China’s role in the UK’s energy infrastructure, with ministers debating whether to block the factory under the National Security and Investment Act. Supporters of the factory emphasize its potential to create jobs and advance the UK’s floating offshore wind ambitions, arguing that security risks can be managed through regulation. However, critics warn that reliance on Chinese technology could compromise sensitive defense operations, with some politicians highlighting the risk of espionage via sensors on turbines. The decision is complicated by geopolitical considerations: blocking Mingyang might
energywind-turbinesoffshore-windnational-securityChinaUK-energy-infrastructuresurveillance-concernsState vs. Local Control Over Energy Siting Sparks Debate In Pennsylvania - CleanTechnica
The article discusses the longstanding controversy over who should control the siting of new electrical generating facilities, focusing on recent debates in Pennsylvania. Historically, energy siting decisions have been contentious due to the trade-offs between proximity to demand centers and local community impacts, especially with thermal plants and now renewable projects like solar farms and wind turbines. Local communities, particularly in rural areas, often oppose such developments due to concerns about aesthetics and quality of life, fueling political tensions between rural and urban interests. In Pennsylvania, lawmakers are considering establishing a state-level board called the Reliable Energy Siting and Electric Transition Board (RESET) to centralize authority over energy siting decisions, replacing the current patchwork of local regulations. Proponents argue that localities lack the expertise to handle complex, costly energy projects and that local opposition causes delays and increased costs. However, opponents fear the board could favor thermal generation projects, increasing carbon and methane emissions contrary to climate goals. Clean energy advocates emphasize the need to streamline approvals for renewable projects,
energyenergy-sitingrenewable-energypower-generationenergy-policysolar-farmswind-turbinesBladeless wind turbines get upgrade with new design for quiet power
Researchers at the University of Glasgow have advanced the design of bladeless wind turbines (BWTs) through computer simulations that identify the most efficient configurations for future models. Unlike conventional turbines that use rotating blades, BWTs harness vortex-induced vibrations (VIV) by oscillating a tall, slender mast in the wind. This novel approach offers several advantages: BWTs are quieter, occupy less space, require less maintenance due to their simpler structure, and pose less risk to birds, which often collide with fast-spinning blades of traditional turbines. The study pinpointed an optimal design featuring an 80-centimeter tall mast with a 65-centimeter diameter, capable of safely generating up to 460 watts of power—significantly outperforming current prototypes that produce around 100 watts. This design balances power output with structural integrity, ensuring safety in wind speeds ranging from 20 to 70 miles per hour. The researchers suggest that their methodology could enable scaling BWTs to produce 1 kil
energywind-turbinesbladeless-technologyrenewable-energypower-generationvortex-induced-vibrationsustainable-energyA Primer About Wind On Global Wind Day - CleanTechnica
Global Wind Day, observed annually on June 15, aims to raise awareness about wind energy’s role as a clean, renewable, and sustainable power source. Wind is generated by the uneven heating of the Earth’s surface by the sun, causing air to move from high to low pressure areas, creating wind. This natural phenomenon has powered human activity for millennia, from ancient Egyptian sailboats to modern wind turbines that convert kinetic energy into electricity without greenhouse gas emissions, thus supporting the global transition to net-zero carbon emissions. Wind turbines, typically three-bladed and mounted on horizontal axes, vary in size and capacity—from 100 kilowatts to 12 megawatts—and can be installed in diverse environments including land, offshore, and deep waters with floating designs. Key factors influencing electricity production include wind speed, blade radius (with power increasing exponentially as blade size grows), and air density, which depends on altitude, temperature, and pressure. The wind energy sector also presents significant job growth opportunities; for example
energywind-energyrenewable-energywind-turbinesclean-energysustainable-energywind-powerWorld-record heavy lift vessel arrives in Rhode Island for wind project
energyoffshore-windwind-turbinescrane-vesselrenewable-energyconstructionEquinor