Trump Offshore Wind Policy Shocks 5-Year Forecast Drop 25%
The global renewable energy market is bracing for turbulence as President Donald Trump offshore wind policy sends shockwaves through the industry. According to a new report from the International Energy Agency (IEA), the forecast for global offshore wind capacity growth has been cut by more than 25% over the next five years—a direct result of the Trump administration’s renewed push for fossil fuels and tightened restrictions on clean energy projects.
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U.S. Policy Shift Alters Global Renewable Trajectory
The IEA’s revised outlook paints a stark picture: the forecast for renewable energy generation between 2025 and 2030 is now 5% lower than last year’s estimate, with the U.S. share slashed by nearly 50%.
Renewable capacity expansion changes from Renewables 2024 to Renewables 2025 in selected countries or regions, 2025-2030, Image: IEA
Policy changes under the Trump administration have contributed heavily to the downgrade. These include the following: Offshore wind industry outlook
Early withdrawal of federal tax credits for clean energy developers.
A freeze on new offshore wind leases.
A cap on permits for onshore wind and solar PV projects on federal land.
Import restrictions on wind turbine components and rare-earth materials.
The result: a wave of project cancellations, delays, and investor uncertainty across the U.S. renewable landscape.
Offshore Wind Industry Faces a 25% Growth Collapse
The most dramatic impact has fallen on the offshore wind sector, once seen as a cornerstone of America’s clean energy transition. The IEA report now predicts that offshore wind capacity growth will be 25% lower than previously projected over the next five years.
Developers like Ørsted, RWE, and Equinor have already scaled back 2030 offshore wind capacity growth targets, citing rising costs, long permitting delays, and the chilling effect of new federal restrictions.
“The new Trump energy policy marks a turning point,” said an industry analyst. “It could undo years of progress in offshore wind just as the U.S. was starting to compete with Europe and China.”
China Surges Ahead Despite Policy Adjustments
While the United States steps back, China continues to surge ahead—accounting for about 60% of global renewable power capacity growth.
Though China recently shifted from fixed tariffs to competitive auctions (causing a temporary slowdown), it remains on track to reach its 2035 wind and solar targets five years early. The contrast between the two largest economies highlights a widening gap in global clean energy leadership.
Weighted average net margins of renewable energy companies in China, Q2 2023-Q2 2025. Source: IEAWeighted average net margins of renewable energy companies excluding China, Q2 2023-Q2 2025 Source: IEA
Trump’s Fossil Fuel Agenda Returns
The IEA report also notes that President Trump’s return to the White House in January for a second term has brought with it a clear shift in energy priorities. Trump has pledged to expand oil, gas, and coal production while arguing that renewables are “too costly and unreliable.”
Critics warn that such a stance could undermine America’s climate commitments and job growth in the renewable sector. Offshore wind projects—particularly those planned off the East Coast—are already facing multi-billion-dollar setbacks.
Market Reaction: Global Developers Reconsider U.S. Expansion
Investors and energy developers are responding cautiously. Some companies have paused offshore wind investments in U.S. waters, redirecting funds toward European and Asian markets where policy support remains strong.
“Uncertainty is the biggest threat,” said a senior executive from a European renewable developer. “Policy reversals make long-term investment planning nearly impossible.”
Meanwhile, states like New York and Massachusetts are trying to push forward with their offshore projects independently—but without federal backing, their timelines and incentives could face significant delays under Trump renewable energy policy.
The Broader Impact on Clean Energy Ambitions
The new 25% offshore wind forecast cut doesn’t just impact future turbines—it represents a potential loss of thousands of jobs, billions in investment, and slower progress toward emission targets.
Industry experts argue that offshore wind remains vital to meeting global net-zero goals, providing a reliable large-scale renewable source. A prolonged slowdown could have cascading effects across supply chains, port infrastructure, and coastal economies.
Outlook: Can the U.S. Regain Momentum?
Despite the grim short-term outlook, analysts believe the U.S. offshore wind industry could recover if political and policy shifts occur before 2030. Bipartisan support for energy security and local manufacturing might still bring new opportunities.
For now, the Trump offshore wind policy stands as a major turning point—reshaping not just America’s clean energy trajectory but also the global race toward renewable dominance.
Stay updated with the latest on U.S. offshore wind policy, global renewable investments, and industry forecasts—follow WindNewsToday for breaking updates and expert insights.
So, do you want to be a wind energy engineer in 2025? This is great, because the renewable energy sector is rapidly growing, with wind energy leading the industry. In this guide, we will cover everything from the necessary basic education to your future employment opportunities in your area, including the appropriate training and expected earnings. Let’s get started.
To begin with, 2025 will be the best year so far for wind energy engineers—and there’s no better moment to begin a career in renewable energy. With governments and businesses trying to meet their clean energy targets, the need for wind energy specialists is unprecedented. Picture yourself designing massive wind energy turbines, studying complex analytics, and delivering clean energy to millions of households, while enjoying a great and secure income.
If you’re a recent engineering graduate or looking to begin a career with a true purpose, working as a wind energy engineer will provide you with opportunities that no other field will offer. There is a lot of potential in the industry in the US, Europe, and China, and now in many other places, with projects that range from offshore wind farms to AI turbine optimization.
Step by step, you will find out how to become a wind energy engineer in 2025, the best degrees, leading educational institutions, and other relevant details, including the best degrees, top universities, certifications, training programs, and career paths that will set you apart in one of the fastest-growing industries on the planet.
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Step 1: Understanding the Function of Wind Energy Engineers
Prior to pursuing this profession, it is helpful to know what a wind energy engineer does. These engineers design, develop, evaluate, and sustain the systems that enable wind turbines and wind farms to function efficiently. This incorporates different branches of engineering, such as
Mechanical Engineering: Deals with the design of turbines and the blades, as well as the aerodynamics and structural integrity.
Electrical Engineering: Handles the generation of electricity as well as grid integration and electrical protection.
Civil Engineering: Oversees the foundation and site infrastructure and the construction logistics.
Sometime Renewable energy engineer also concentrates on specialized activities such as automated system controls, project execution, and assessment of ecological effects.
The position requires a blend of theoretical and applied aspects, making it stimulating as well as rewarding. A wind energy engineer works with advanced technology, collaborates with various disciplines, and helps develop solutions that make clean energy available to many households.
Step 2: Establish your foundation in high school
Most people start to think about becoming a wind energy engineer when they get to high school. In order for everything to succeed in this fast-evolving area, it is important to build a solid base in the STEM subjects.
Concentrate on:
Advanced mathematics: Also includes calculus, trigonometry, and applied math, and is fundamental for turbine mechanics and energy calculations.
Physics and chemistry: Fundamental for the comprehension of aerodynamics, material properties, and energy systems.
Computer science or programming: Vital for simulation, data analysis, and the control systems of the modern wind turbines.
On top of your studies, try to get involved in robotics clubs, science fairs, and engineering competitions. All of these activities provide useful engineering and real-world hands-on principles.
This gusto is what most colleges and future employers look for. Extracurricular activities provide the most valuable skills that students wouldn’t get from their books.
Step 3: Pursue a Relevant Bachelor’s Degree
This is a crucial step in your path to being a wind energy engineer. With four years to obtain a bachelor’s degree in the proper field of study, you’ll acquire the theoretical and practical competencies necessary to conceptualize, create, and upkeep wind turbine and wind farm systems.
Primary Degree Options:
Mechanical Engineering: The most popular route centers on turbine design and the heating of mechanical systems and the associated aerodynamics.
Electrical Engineering: The best fit for those who have an interest in the generation of electricity and its control systems and integration to the grid.
Civil Engineering: Centers on the geo-structural framework and geo-structural works and the integrity of the structures.
Renewable Energy Engineering: This is a new offering in many universities, synergizing many different disciplines.
Choosing the Right Program:
Target institutions with reputable engineering disciplines, wind energy centers of excellence, or engineering-specific research laboratories. These institutions provide state-of-the-art facilities, practical engineering applications, and collaborations with enterprises to improve your prospects.
9 Best Universities For Wind Energy Programs (by Location)
Here’s a state-by-state snapshot of the best programs, tuition, and opportunities, arranged for renewable energy engineer degree requirements.
Bachelor’s in Mechanical Engineering (Energy Focus)
126 credits, 4 years
$16,000–$38,000 / year
Full energy program including wind, solar, and geothermal; strong research partnerships
Step 4: Wind Energy Enginner Essential Skills and Training
Once you have your degree, start building the skills that will help you become a great wind power engineer. This job mixes different fields, so knowing stuff and getting experience are both important.
Key Technical Skills:
Mechanical Skills: How turbines work, how to check if they’re built right, and how air moves around them.
Electrical Skills: Power grids and how to hook up to them, plus how to control everything.
Software and Data: Learn things like MATLAB, AutoCAD, SCADA, and how to use computers to understand fluids.
Emerging Technology: like using AI to make turbines better, ways to fix things before they break, and using the internet to connect wind farms.
Soft Skills That Help:
Be able to figure out problems and think hard when turbines cause issues.
Work well with others and talk to people from different fields.
Know how to run projects to put up wind farms.
Training and Certificates:
GWO Safety Training: You need it if working with turbines on land or water.
NABCEP Certificate: Shows you know about power from nature and how to do things right.
Online Classes: Sites like Coursera, edX, and MIT have classes about wind power, turbines, and how to handle energy.
Workshops and Bootcamps: Short classes that let you play with real turbines and see how they work.
Quick Tip: Mix learning in class with hands-on training. A lot of companies work with schools to offer programs, internships, and projects. This not only makes you better at your job but also helps you meet people in the wind energy world.
By getting these technical and soft skills and certificates, you’ll be well-prepared and ready for entry-level roles and can grow fast in the renewable energy engineer world.
Step 5: Gain Real-World Experience Through Internships and Entry-Level Jobs
Seriously, start trying to work in wind energy before you even graduate. A lot of wind turbine engineers get hired full-time after doing an internship. Companies love to hire students who’ve already shown they can do the wind power engineer job. Getting that experience can really help you stand out from other people applying. Internships let you put what you’ve learned to work.
You might help turbines work better, check out possible sites, study data, or even help with big renewable energy projects that are changing how the country gets its power.
3 Top Companies Offering Wind Energy Internships for students & Entry-Level Jobs in 2025
1. Vestas – Powering the Future of Wind
Headquarters: Colorado (nationwide facilities) Roles: Design Engineer, Field Service Engineer, Project Manager, Research Engineer Salary Range: $65,000–$120,000 Where They’re Hiring: Colorado, Texas, California, New York, Illinois Why it’s great: Vestas makes the most wind turbines in the world. If you work there, you’ll see all the newest stuff first, from how they design turbines to how they keep them running great.
2. GE Renewable Energy – Engineering a Cleaner Tomorrow
Headquarters: They have a bunch of places Roles: Mechanical Engineer, Electrical Engineer, Controls Engineer, Field Engineer Salary Range: $70,000–$130,000 Where They’re Hiring:Massachusetts, Texas, Colorado, Illinois, Washington Why It’s great: This is part of General Electric, and they spend a lot on new tech, digital wind stuff, and making the grid better. They’re known for giving good training and chances to move up for a renewable energy engineer role.
3. Siemens Gamesa – Shaping the Offshore Revolution
Headquarters: Lots of spots in the U.S. Roles: Systems Engineer, Design Engineer, Service Technician, Project Coordinator Salary Range: $60,000–$115,000 Where They’re Hiring:Texas, Oklahoma, Iowa, California, New York Reason of Greatness:They’re big in both offshore and onshore wind. They care about being sustainable, being diverse, and making the next big thing in turbines.
Roles: Wind Power Engineer, Operations Manager, Maintenance Engineer, Project Developer Salary Range: $65,000–$125,000 Where They’re Hiring: Texas, Wyoming, New Mexico, Colorado, Iowa, Massachusetts Why It’s Great: NextEra runs some huge wind farms. You can really grow your career in their renewable energy engineer program.
Headquarters: North Carolina Roles: Project Wind turbine Engineer, Systems Engineer, Wind Power Engineer, or Operations Specialist Salary: $60,000–$110,000 Where They’re Hiring: North Carolina, South Carolina, Florida, Ohio, and Indiana. Why It’s Great: They’re becoming greener quickly. They’re putting money into wind and trying to get to net-zero emissions.
Headquarters: New York (for their U.S. stuff) Roles: Wind Engineer, Maintenance Technician, Project Manager, Energy Analyst Salary: $62,000–$120,000 Where They’re Hiring: New York, Massachusetts, California, Texas, and Illinois. Why It’s Great: They’re the best at offshore wind development. They give great training, let you work with people from other countries, and let you see these massive projects by the coast.
Headquarters: All over the place Roles: Operations Engineer, Maintenance Manager, Technical Specialist Salary: $55,000–$115,000 Where They’re Hiring: California, Texas, Colorado, New Mexico, North Carolina Why It’s Great: They mix new engineering ideas with having a lot of money. It’s good if you’re into the business side of renewable energy.
4 Best Consulting Firms in the U.S. That Hire Wind Engineers
DNV – The World’s Leading Certification & Assessment Experts
Services: Design wind farms, make sure they’re safe, and check projects Roles: Certification Engineer, Design Consultant, Project Manager Salary: $68,000–$130,000 Where They’re Hiring: Everywhere in the U.S.
Ramboll – A Global Wind Advisory and Environmental Design
Services: Wind engineering, planning sites, and check the environment Roles: Wind Engineer, Site Engineer, Environmental Specialist Salary: $65,000–$125,000 Where They’re Hiring: Everywhere in the U.S.
Services: Systems Engineer, professional at improving things, Technical Consultant Wind energy engineer salary in the USA: $70,000–$135,000 Where They’re Hiring: Everywhere in the U.S.
Servicces: Wind Farm Engineer, Environmental Consultant, Project Manager Salary: $62,000–$120,000 Where They’re Hiring: Everywhere in the U.S.
Quick Tip: Turn Internships Into Job Offers Most wind Power engineer who do well started as interns. Make people think highly of you by showing that you can take action, asking lots of questions, and volunteering for projects that require your highest efforts. Lots of companies will offer interns a full-time job as soon as they get out of school.
Step 6: Pursue Advanced Certifications Or Master’s Degree
Getting more education isn’t always a must, but it can totally boost your career and help you earn more. A master’s degree in things like mechanical or electrical engineering, or even renewable energy engineer, usually takes another year or two. It really gets you into the nitty-gritty of the tech stuff. It’s awesome if you’re aiming for research, development, or top-level tech jobs, even wind turbine enginer, renewable energy engineer.
A lot of those universities I talked about earlier (like Iowa State, UMass Amherst, and the University of Colorado) have cool master’s programs you can check out. There are also certifications you can get.
One is the Professional Engineer (PE) license. To get it, you gotta pass the Fundamentals of Engineering (FE) exam, get some work experience, and then pass the PE exam.
You don’t always need it, but having a PE license proves you know your stuff and can lead to better jobs or consulting work. For wind energy,
Specialized Wind Energy Certifications:
Global Wind Organization (GWO) certifications – They have certificates that everyone knows about, like Basic Safety Training, Work at Heights, Rescue, First Aid, and Wind Turbine Technician stuff. You usually need these if you’re working on-site.
Besides school, wind energy engineers need certain skills to do well.
Technicial Sills:
MATLAB and Simulink for modeling stuff
CAD software like ANSYS, SolidWorks, or AutoCAD
Python or C++ for coding and looking at data
Knowing about fluid dynamics and aerodynamics
Knowing about electrical systems and how they hook up to the power grid
Soft skills:
Managing projects and talking to people
Figuring out problems
Working with others
Paying attention to the little things and staying safe You can get better at these skills by taking classes, using websites like Coursera or edX, and doing projects. You’ll learn a lot on the job, but getting a jump start can really help you stand out.
Step 8: Network and Keep Up with What’s Happening in Wind Energy Industry Trends
The wind energy world changes fast. Turbine aerodynamics get better, offshore farms get bigger, and there are fresh tech breakthroughs every year. Knowing the right folks and staying in the loop isn’t just a good idea—it’s how to stay on top of your game.
How to Stay Plugged In
Join Profesiional Assoiciatiion like the American Wind Energy Association (AWEA) or CleanPower. They give you access to research, job boards, and training programs.
Attend Renewable Energy Seminers, Conferences and Webniars — It’s a great way to meet possible bosses, see new gear, and learn what’s going on with policies around the world.
Follow International Journal and Publications — like Windpower Monthly or Wind News Today. That way, you’ll know about projects and policy changes.
Get involved on LinkedIn and online energy forums—Join groups, share what you know, and link up with recruiters and engineers at companies you’d love to work for.
Pro Tip: Networking isn’t just about finding a job; it’s about staying visible and knowing what’s up. Often, jobs get filledby people the company already knowsorthrough someone’s recommendationbefore they even get posted.
5 Major Challenges of a Wind Energy Career
Wind energy is rewarding. You’re helping the planet, cutting pollution, and powering homes with clean energy. Still, it has its difficulties, so let’s get into it.
1. Physical Demands and Safety Risks
Wind turbines can be super tall, and wind turbine engineer often work high up and in bad weather. The Truth: Not everyone climbs turbines, but you might have to visit sites or work outside.
How to Handle It: Stay in shape, follow safety rules, and wear the right gear. If you don’t like heights, try focusing on design or simulation.
2.Long Projects Timeline
Usually Wind farms can take 5–7 years from start to finish. They can get delayed by money issues or approvals. The Truth: It can feel slow, but every step counts.
How to Handle It: Learn at each stage and celebrate small wins. Your patience will pay off when the turbines finally turn.
3. Weather and Travel Challenges
Wind farms are often far away in places with crazy weather. The Truth: It’s not for everyone, but some love it.
How to Handle It: Be ready to adapt. If you don’t want to travel much, think about analytical or research positions.
4. Rules and Policies Uncertainty
Government policies and incentives can change fast, which affects projects and jobs. The Truth: The wind industry has had ups and downs because of politics.
How to Handle It: Stay updated on policy changes and have skills that work in any green energy job.
5. Tech Changes Fast
It’s reality that Wind energy tech is getting better fast with new sensors and AI. The Truth: What you learn today might be old news in a few years.
How to Handle It: Always be ready to learn. Go to workshops, get new certificates, and stay curious. Never stop learning.
The Big picture: Why It’s Worth It
Wind energy is blowing up as one of the quickest-growing parts of the energy biz. Stats show the world market for wind energy keeps getting bigger, so there’s a serious need for good engineers. Jobs are safe, pay is good (think $55,000 to $70,000 to start, and way over $100,000 as you get better), and you get to help the environment.
Final Thoughts—Your careers in Wind Energy Starts Now
Becoming a wind energy engineer is more than just getting a diploma—it’s about helping the future of clean energy. This job path is more like a marathon, not a quick race. From getting good at STEM subjects in high school to getting your degree, getting real-world experience, and meeting people in the industry, each thing you do gets you closer to creating a greener planet. The wind energy business is growing super-fast, thanks to goals for the climate worldwide, money from the government, and new tech.
Engineers who are good at what they do, can change when needed, and care about the environment are really wanted—and what they do truly helps. Keep in mind: the best wind engineers are the ones who are always wondering, always learning, and always getting better. Doesn’t matter if you’re making turbines work better, planning systems out at sea, or taking the lead on green projects, what you do can truly power lots of houses and help the earth move to sustainable energy.
What You Can Do Now: Begin today. Look at school programs, get involved in energy groups, and try to get internships with big companies . Every skill you learn helps you get closer to a great career and get renewable energy jobs USA 2025 that will have a big impact and last.
The wind industry is set for the next group of thinkers. Are you prepared to join?
Google 27 Years Journey is more than the story of a search engine—it is the extraordinary rise of a company that has become both a technological powerhouse and a renewable energy investments leader. What began in a California garage in 1998 has grown into a global empire shaping how the world communicates, navigates, and works every single day.
Even in an age dominated by artificial intelligence rivals like ChatGPT and Bing AI, Google remains unmatched in its influence. As of September 4, 2025, the company controls a staggering 90.4% of the global search market, cementing its status as the backbone of the internet. But Google’s evolution isn’t limited to algorithms and digital dominance. Over the past 27 years, it has steadily built a parallel legacy—one rooted in clean energy, sustainability, and a bold ambition to achieve 24/7 carbon-free operations by 2030.
What makes Google’s journey truly remarkable is not only its ability to adapt to technological shifts but also its willingness to lead on the most urgent challenge of our time: the climate crisis. Today, Google is no longer just a consumer of energy—it is a pioneer, investor, and global advocate for renewable power, shaping markets from Taiwan to the Netherlands.
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What Sparked Google 27 Years Journey Toward Sustainability?
When Larry Page and Sergey Brin founded Google in a Menlo Park garage in 1998, their mission was simple yet ambitious: to organize the world’s information and make it universally accessible and useful. What they could not have fully imagined back then was how the company’s trajectory would eventually reshape not just the digital landscape but also the global clean energy movement.
Over the past 27 years, Google has grown into one of the world’s most powerful technology companies, processing billions of searches daily, running massive cloud data centers, and driving advancements in artificial intelligence. Yet, behind this technological growth lies another equally ambitious mission—to achieve 24/7 carbon-free energy across all its global operations by 2030.
The question of sustainability emerged as Google’s data needs skyrocketed. Power-hungry servers required enormous electricity, which, if sourced from fossil fuels, would lock the company into a high-emission future. To solve this, Google decided to lead rather than follow, reshaping its corporate DNA around clean energy innovation.
How Did Google Move From Early Carbon Commitments to Global Leadership?
Google was one of the first major corporations to declare itself carbon neutral in 2007. At that time, the tech industry was only beginning to acknowledge its environmental footprint, but Google had already set the tone. The company balanced its energy consumption with investments in renewable energy credits (RECs), offsetting emissions while beginning to build real renewable projects.
By 2017, Google became the first major company to match 100% of its global electricity consumption with renewable energy purchases. That milestone positioned Google as both a climate-conscious innovator and a market shaper, forcing utilities and policymakers to pay attention.
But Google didn’t stop there. Rather than being satisfied with annual matching, it announced in 2020 its most ambitious energy goal yet: to power its entire business on 24/7 carbon-free energy (CFE) by 2030. Unlike traditional renewable commitments, this means ensuring that at every hour, in every region, Google’s operations are fueled by clean sources—solar, wind, geothermal, and emerging technologies like advanced energy storage.
This commitment pushed Google beyond offsets into deeper partnerships with developers, utilities, and governments. Its approach became an energy model for industries worldwide.
From Big Tech to Big Green: The Sustainability Race
The world’s biggest technology companies are no longer just competing on products and AI — they are also racing to decarbonize. Google, Apple, and Microsoft have each set ambitious climate targets that go far beyond their own operations, reshaping supply chains, energy use, and global sustainability standards.
By mandating renewable energy adoption among suppliers, investing in low-carbon materials, and funding carbon removal projects, these companies are rewriting the rulebook on how technology is made—and pushing the entire industry toward net-zero with ambitious AI and clean energy goals.
Apple: Full Carbon-Neutral Supply Chain 2030
Apple has achieved carbon neutrality for its global operations and is striving to make its entire supply chain and products fully carbon neutral. Image: Apple
Apple has committed to achieving a fully carbon-neutral supply chain by 2030, covering offices, retail, manufacturing, logistics, and the entire product life cycle—responsible for over 75% of its emissions. To reach this goal, Apple is pushing suppliers to adopt renewable energy, prioritizing recycled materials, and shifting to 100% renewable electricity across operations. Apple introduced Clean Energy Charging in the U.S. via iOS 16, optimizing iPhone charging for times when cleaner power sources, like solar or wind, are on the grid.
Through its scale and influence, Apple is not just cutting emissions in its own operations but reshaping global supply chains and supporting climate resilience in vulnerable communities.
Beyond its operations, Apple is driving community-based climate solutions worldwide:
Africa (Namibia & Zimbabwe): Partnering with WWF’s Climate Crowd to promote climate-smart agriculture, clean cookstoves, beekeeping, and rainwater harvesting.
China: Working with the China Green Carbon Foundation to expand nature-based carbon sinks in Sichuan and pilot carbon removal in urban Chengdu.
Kenya (Chyulu Hills): Partnering with Conservation International to restore rangelands, store carbon, and train Maasai communities in sustainable grazing.
Europe, Middle East & North Africa: Launching with ChangemakerXchange to empower 100 youth-led climate innovators with skills, networks, and funding, beginning at COP27 in Egypt.
“Fighting climate change remains one of Apple’s most urgent priorities, and moments like this put action to those words,” said Tim Cook, Apple’s CEO.
“We look forward to continuing our partnership with suppliers to achieve a carbon-neutral supply chain by 2030. Climate action at Apple doesn’t stop at our doors—through this work, we aim to be a ripple in the pond that drives broader change.”
Microsoft: Carbon-Negative by 2030
Microsoft has committed to becoming carbon negative by 2030, removing more carbon from the atmosphere than it emits. Its plan includes using 100% renewable energy by 2025, halving supply chain emissions (Scope 3), and investing in large-scale carbon removal technologies.
Microsoft aims to become carbon negative by 2030 and remove all historic emissions by 2050 through renewable energy, supply chain reductions, and carbon removal technologies. image: Microsoft
By 2050, Microsoft aims to remove all carbon it has emitted since 1975. The strategy involves cutting direct and value chain emissions by more than half by 2030, supported by an expanded internal carbon fee covering both direct and supply chain emissions.
Google: AI-Powered 24/7 Carbon-Free Data Centers 2030
Google stands out with perhaps the boldest vision: to run all data centers and offices on 24/7 carbon-free energy by 2030. Unlike traditional offsets, this means every search, every YouTube stream, and every AI model it powers will come from clean energy around the clock.
Google is using AI to optimize energy efficiency and has invested heavily in solar and wind projects worldwide. Its data centers are already 50% more efficient than the industry average, yet still consume massive amounts of electricity to process trillions of searches and power billions of user services.
The company now operates 20 renewable energy projects across the globe—from Oklahoma and North Carolina to Chile’s Atacama Region and municipalities in Sweden. These projects represent more than $3.5 billion in infrastructure investments, with two-thirds located in the United States.
Adding to this, Google recently announced a $20 billion renewable energy initiative in partnership with Intersect Power and TPG Rise Climate. Covering wind, solar, and battery storage, this plan is set to roll out its first phase within just two years.
Google Accelerates $20 Billion Renewable Energy Investments
Google has launched a strategic partnership to accelerate $20 billion in renewable energy investments aimed at powering its AI-driven carbon-free data centers. The company is reimagining data center development with a “power-first” approach, prioritizing clean energy at every stage of operations.
Windmills at the Norther Offshore Wind Projects in Belgium, Image: Google
It has teamed up with Intersect Power and TPG’s climate investment unit to provide renewable energy and storage solutions specifically designed for new data centers. According to Google’s Global Head of Data Center Energy, AI’s growth presents a unique opportunity to rethink how power and data centers interact.
Offshore Wind Projects & Global Expansion
In addition to onshore renewable energy, Google is expanding into offshore wind projects to meet its 2030 carbon-free energy goal:
Google’s First Offshore Wind Projects: Taiwan’s Fengmiao I
In 2025, Google announced its first offshore wind power purchase agreement (PPA) in the Asia Pacific region, marking a pivotal moment in its clean energy journey. The deal centered on the Fengmiao I Offshore Wind Project in Taiwan, developed by Copenhagen Infrastructure Partners.
As the first project from Taiwan’s Round 3.1 auction to achieve financial close, Fengmiao I is not only an energy milestone but also a policy catalyst. When it comes online in 2027, it will power Google’s data centers, cloud regions, and offices in Taiwan, providing the backbone for digital growth in one of Asia’s key innovation hubs.
Google’s investment builds on its earlier mix of solar and geothermal projects in Taiwan. These clean technologies already supply reliable and cost-effective energy to meet the country’s growing electricity demand. The offshore wind projects, however, elevates Google’s role in Asia to a new level—from energy consumer to transformative energy investor.
Extending the Lifespan of the Netherlands’ First Offshore Wind Farm
Also in 2025, Google took an unprecedented step in Europe with Shell by entering into a PPA that extended the lifespan of the Netherlands’ first offshore wind projects, NoordzeeWind.
Wind turbines spin Eemshaven, Netherlands, data center. Image: Google
For the first time in history, a corporate PPA didn’t just finance new capacity—it kept existing clean energy resources online. Google purchased 100% of the farm’s 108-megawatt output, which enabled Shell to secure permit extensions and fund critical upgrades. This agreement will extend the wind farm’s life by at least four years beyond its original retirement date.
The initiative underscores Google’s strategic approach: not only to build new offshore wind projects but also to safeguard existing infrastructure from premature shutdown. In a grid struggling with fossil dependency, every megawatt of carbon-free energy matters.
This project added to Google’s clean energy portfolio in the Netherlands, where the company has already supported over 1 gigawatt of renewable generation capacity.
These moves solidify Google’s role as a renewable energy giant, driving global sustainability.
When Will Google Achieve Its Carbon-Free Energy Goals?
In 2025, Google made notable sustainability strides—reducing data center energy emissions by 12%, replenishing 4.5 billion gallons of water, procuring over 8 GW of clean energy, improving TPU power efficiency by 30x, enabling 26 million tCO2e in emissions reductions, and signing the world’s first corporate agreement for small modular nuclear reactors.
These achievements are key milestones on Google’s path toward its ultimate carbon-free energy goal by 2030, a symbolic year aligned with the Paris Agreement and the UN Sustainable Development Goals. Google aims to run entirely on clean energy every hour of every day, across all locations, setting a global precedent for large-scale carbon neutrality.
Google’s ambition is not merely a corporate checkbox but a test case: can a trillion-dollar tech company run entirely on clean energy, every hour of every day, across every location?
If achieved, Google would set a precedent for global industries, showing that carbon neutrality and even real-time carbon-free operations are possible at scale. The journey, however, is complex. It requires massive infrastructure, new market designs, partnerships with regulators, and a steady flow of capital investment.
Already, Google has taken major steps in this direction. The company operates more than 20 renewable energy projects across the globe, representing over $3.5 billion in infrastructure investment. Two-thirds of these projects are in the United States, creating jobs and tax revenue, while others span Chile, Sweden, and Asia.
Notably, Google has signed a groundbreaking offshore wind power purchase agreement in Taiwan with the Fengmiao I project, set to power data centers and offices by 2027. In the Netherlands, Google partnered with Shell to extend the life of the country’s first offshore wind farm, purchasing 100% of its 108 MW capacity to ensure valuable renewable assets remain online.
These renewable energy investments show that Google is not only consuming renewable energy but also protecting, creating and built carbon-free data centers — driving systemic change across industries and regions.
How Does Google’s 27 Years Journey Inspire the Future?
Google’s trajectory from a garage startup in 1998 to a renewable energy giant in 2025 tells a story of evolution — not only in technology but also in responsibility.
This journey proves that innovation and sustainability can coexist. By integrating clean energy into its business model, Google has redefined what corporate leadership looks like in the climate era.
It has shifted from being a consumer of energy to a producer, protector, and innovator in the clean energy landscape. Every wind turbine supported, every solar project financed, and every data center optimized by AI demonstrates a blueprint for the future
Conclusion: What Does Google’s 27 Years Journey Mean for the World?
The Google 27 Years Journey is not just a corporate timeline — it is a roadmap for industries navigating the climate crisis. From the Fengmiao I project in Taiwan to the NoordzeeWind farm in the Netherlands, Google’s renewable energy investments show how companies can push beyond carbon offsets and deliver real systemic change.
If Google achieves its 24/7 carbon-free energy goal by 2030, it will mark one of the most transformative sustainability milestones in corporate history. It will prove that the largest corporations in the world can align profitability, technological growth, and environmental responsibility.
And as energy transitions accelerate worldwide, Google’s story sends a clear message: the future of technology must also be the future of clean energy. The journey from a garage startup to a renewable energy leader shows that bold visions, backed by innovation and investment, can reshape industries and societies.
The time to act is now — and Google is showing the world how.
As AI and data centres surge, offshore wind Ireland becomes crucial for Ireland’s energy security and renewable energy future.
DUBLIN/NEW YORK, Sept 27 – Offshore wind Ireland is now at the heart of Ireland’s energy strategy, Taoiseach Micheál Martin has said. Speaking in New York this week, Martin warned that surging AI energy demand in Ireland and the explosive growth of data centres could trigger a full-blown Ireland energy crisis unless large-scale offshore wind projects are accelerated.
“We just have to get those offshore wind farms over the line, because that is the key for our self-reliance and independence in terms of energy,” Martin said.
“And also then it would enable us to have some future in terms of AI, because AI will use an enormous amount of energy, and we’re currently in difficulty on that front.”
Martin emphasized that offshore wind is not just a climate measure—it is essential for maintaining grid stability and supporting Ireland’s growing digital economy.
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Ireland’s Data Centres: A Surge in Energy Demand
Ireland has emerged as the data centre capital of the world, hosting 89 operational centres with over 40 more in the pipeline. Many are clustered near Dublin, forming energy-intensive hubs.
These facilities alone now consume around 22% of Ireland’s electricity, up from 21% in 2023 and just 5% in 2015—a staggering 531% increase over nine years.
“AI, cloud computing, and digital services will use an enormous amount of energy. That is the gap we must close with offshore wind,” the Taoiseach said.
The rapid growth of AI-driven workloads is adding further pressure, creating a potential Ireland energy crisis if offshore wind deployment lags.
Offshore Wind Ireland: Scaling Up for 2030 and Beyond
The Taoiseach said Ireland’s next decade will depend on delivering offshore wind Ireland at scale. Current capacity is modest—just 25 MW at the Arklow Bank Wind Park—but targets are ambitious:
5 GW by 2030
20 GW by 2040
37 GW by 2050
“In Ireland, the big issue for us will be offshore wind. We have already proven the impact of renewables in terms of our onshore wind performance over the last 20 years,” Martin said.
“It represents a very substantive part of our energy now. I think the offshore wind is the next big one for us.”
Ireland’s expansive Exclusive Economic Zone (EEZ)—seven times the size of its landmass—combined with powerful Atlantic winds, gives it a competitive edge in offshore renewable energy. Scaling these projects positions Ireland to supply both domestic demand and potentially export clean energy to Europe.
Policy and Investment Challenges
Despite these targets, development faces multiple hurdles:
Planning and environmental delays can stretch projects over a decade
Grid capacity is insufficient in some regions to handle large offshore flows
Financing requires strong government support to attract private investors
The government’s Offshore Wind Action Plan aims to streamline approvals, upgrade transmission connections, and encourage foreign investment. Industry leaders warn that without faster execution, Ireland risks falling behind European peers like Denmark, the UK, and Germany.
AI, Climate, and Health Implications
Martin’s warnings coincided with former US President Donald Trump’s UN address, in which he criticized Europe for backing green energy, claiming it would “go to hell.”
The Taoiseach countered firmly:
“We would disagree with the US administration on this. We believe in the science, and also we believe that there are economic opportunities as well,” he said.
“From a public health perspective, which rarely gets mentioned, there are huge gains. If you take fossil fuels out of the equation, ultimately we’re all living healthier lives.”
He stressed that Ireland’s renewable energy future is a pathway to both sustainability and economic growth, creating opportunities in energy-intensive industries and technology.
Ireland at the Crossroads: Technology Meets Sustainability
The intersection of AI growth, data centre expansion, and climate commitments places Ireland at a pivotal moment. Scaling offshore wind Ireland is the most viable solution to:
Meet AI energy demand in Ireland
Prevent an Ireland energy crisis
Achieve a net-zero and sustainable Ireland renewable energy future
Attract and maintain international investment in high-tech and industrial sectors
Failure to act could leave the country dependent on imports, vulnerable to price shocks, and unable to support the digital economy.
Conclusion: Offshore Wind Ireland Is the Nation’s Last Defense
The Taoiseach’s message is unequivocal: offshore wind Ireland is Ireland’s last line of defense against an energy crisis fueled by AI and data center growth. Delivering on these ambitious targets will secure Ireland’s renewable energy future, stabilize the grid, and allow Ireland to lead Europe in clean power generation.
“Offshore wind is not optional—it is essential to Ireland’s energy security and future prosperity,” Martin said.
Why is Trump shutting down Biden-approved offshore wind projects—and what does it mean for US clean energy goals?
After shutting down two other large offshore wind projects, New York’s Empire 1Wind Project and Lava Ridge, it is moving to shut down Rhode Island’s Revolution Wind. Trump’s offshore wind ban policy will destroy Ørsted’s multi-billion dollar offshore project. Approved during the Biden administration, the projects were celebrated as the backbone of America’s clean energy transition. Now, with Trump’s shutdown looming, critics are warning that the United States is backing away from its climate commitments at the very moment the world is moving toward a low-carbon future.
The Trump administration argues the opposite: these projects represent expensive, unreliable, and risky ventures that harm national security and American taxpayers. But we all know that renewable energy comes entirely from nature. All of Trump’s decisions are raising one of the most divisive energy debates in modern American history.
Ørsted’s $1.5 billion project: 80% Complete, Now in Limbo
On Friday, August 22, 2025, the Trump administration issued a surprise order: all work on Orsted’s $1.5 billion Revolution Wind project must cease.
The Bureau of Ocean Energy Management (BOEM) wrote to Orsted that the moratorium was necessary to protect “the national security interests of the United States” and “prevent interference with the reasonable use of the exclusive economic zone, high seas, and territorial waters.”
“You may not resume operations until BOEM notifies you that BOEM has completed its required review,” the agency clearly told Orsted.
The order halted a project that was 80% complete, already employs hundreds of union workers, and was scheduled to be completed by 2026. If it works, Revolution Wind will provide 704 megawatts of clean electricity—enough to power more than 350,000 USA homes across Rhode Island and Connecticut.
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A Decade of Progress
Ørsted has been operating in the US for a long time and is considered a leader in offshore wind. It has completed and is operating each project with great efficiency and success.
Revolution Wind is no speculative venture. It has spent nearly a decade undergoing environmental, technical, and regulatory reviews and then received every federal and state permit, including approval of the construction and operating plan in November 2023.
In essence, it has signed 20-year power purchase agreements (PPAs) to deliver 400 megawatts of electricity to Rhode Island and 304 megawatts to Connecticut, which the states plan to rely on as part of a strategy to reduce emissions and stabilize electricity prices.
Ørsted stressed that the project is fully permitted and contractually binding—an issue that could become the focus of an upcoming legal battle.
Ørsted’s investment in the US
Since the suspension, Oersted’s statements have been both defiant and defensive. The company has emphasized its role in building US energy infrastructure:
Investing billions in offshore wind, ports and grid upgrades
Building shipbuilding and manufacturing supply chains in more than 40 states
More than 4 million union workers are working hours on US offshore wind projects.
2 million hours at Revolution Wind alone.
After Trump’s ban, it said, “Revolution Wind is employing local union workers who support both onshore and offshore construction operations.”
The company is also assessing its financial situation, including legal action. Investors were warned that the suspension could affect its rights issue, due in August 2025, which could potentially put further financial pressure on Ørsted’s US operations.
Empire 1 wind project and Lava Ridge: Casualties
Revolution Wind is not one. The Rhode Island project is the third major renewable project to be shut down by the Trump administration this year:
Empire 1 Wind Project (New York): First, in April, Interior officials revoked approval for the offshore project off Long Island, which was scheduled to power millions of New York homes.
Lava Ridge Wind Project (Idaho): Second, in August, the administration revoked Biden’s approval for this land-based wind farm that would have powered 500,000 homes.
Revolution Wind (Rhode Island): Third, now on hold despite being near completion.
These projects, together representing more than 1.5 gigawatts of renewable capacity, represent significant progress toward Biden’s clean energy goals—progress that is now almost certain.
Empire 1 Wind Project:
The Empire 1 Wind Project, an offshore anchor in New York off the coast of Long Island, was designed to be one of the largest offshore wind farms in New York. With the potential to generate more than 816 megawatts of clean electricity, it is said to be capable of providing clean power to millions of homes, and the project has been a major contributor to America’s ambitious climate goals.
In terms of economic opportunity, various industry reports say that Empire 1 wind project, if fully operational, would create thousands of construction jobs, long-term maintenance positions, and billions in local investment. In many ways, it is the cornerstone of New York’s renewables strategy, and its success or failure could build investor confidence in the entire US offshore sector.
Empire 1, in essence, could make New York the epicenter of renewable energy in America. But with other mega-projects like Revolution Wind under Trump’s leadership, the administration has expressed doubts that Empire 1 will survive political interference.
For clean energy advocates, this makes Empire 1 a test case: The question is can state-level ambitions outpace federal rollbacks?
Lava Ridge Wind Project
Trump’s executive order initially halted Lava Ridge Wind Project. The Lava Ridge Wind Project, a proposed 1,000 megawatt (MW) wind farm in Magic Valley, Idaho, was designed to provide clean electricity to California. Initially approved by the Bureau of Land Management (BLM) in 2024, the project was abruptly halted in January 2025 by an executive order from former President Donald Trump.
Trump’s executive order halted Lava Ridge Wind Project Image: US Department of Energy
The project was located on 104,000 acres northeast of Twin Falls and planned for more than 200 turbines, each up to 660 feet tall.
Trump declared the project “unconscionable to the public interest and subject to legal error” in his order, which effectively terminated Magic Valley Energy’s right to proceed. And on his first day in office, Trump fulfilled a campaign promise by halting the project. In a press release, he citied:
“I promised the people of Idaho that I would not rest until the Lava Ridge Wind Project was shut down. On the first day, I kept that promise.”
South Fork Wind
South Fork Wind: A small project with a large symbol Compared to Empire 1—about 132 megawatts—Orsted project — its significance is enormous. As one of the first offshore wind projects approved in U.S. federal waters, South Fork was built to prove that offshore turbines are technically feasible and can be accepted by the public. Located near the South Fork of Long Island, the project is already generating enough electricity to power 70,000 homes.
Image: South Fork Wind website
It also suggests that offshore wind is not just about large industrial projects; smaller, regionally concentrated wind farms can play an important role in diversifying America’s energy mix. South Fork also has symbolic significance: If the Trump administration continues to target larger projects for cancellation, small but viable farms like South Fork could become the backbone of early offshore deployment in the United States.
Opportunity amidst controversy Despite the political turmoil, both Empire 1 and South Fork demonstrate that offshore wind is one of the biggest opportunities for US clean energy goals.
Together, they represent: Job creation: Thousands of direct and indirect jobs in construction, manufacturing, shipping, and long-term operations. Energy security: Reducing reliance on fossil fuel imports through reliable, domestic power generation.
Climate progress: A solid step toward New York’s mandate to generate 70% of its electricity from renewable sources by 2030. Global investment appeal: An opportunity to keep the United States competitive with Europe and Asia, where offshore wind is already growing rapidly. Still, the controversy is hard to ignore. Biden approved several projects early in his term, but Trump’s recent shutdowns have eroded investor confidence and shaken local economies.
Image; South Fork Wind website
New York officials argue that canceling or delaying projects like Empire 1 could jeopardize billions of dollars in clean energy promises, while fossil fuel allies argue that offshore wind is still too expensive and disruptive. The big question is, ultimately, that Empire 1 and the South Fork are the realization of the crossroads that America now faces.
Will political agendas derail projects that promise jobs, clean air, and long-term savings—or will these wind farms stand as proof that the United States is serious about leading the renewable energy revolution?
For now, both projects are alive and well, but the future of America’s offshore wind sector could depend on whether Empire 1 and the South Fork can weather the political turmoil and deliver on their clean energy promises.
Trump’s offshore wind ban: Energy dominance
The US has taken a stand against the shutdown as part of a broader strategy to protect energy interests.
Interior Secretary Doug Burgum has dismissed large offshore wind farms as “massive, unreliable, non-stop energy projects” that are holding America back. He argues that they put a heavy burden on taxpayers and threaten the US “energy dominance” that Trump has been borrowing from his first term.
Beyond the rhetoric, the Trump administration launched a national security investigation into wind turbine imports, focusing on potential foreign subsidies and supply chain vulnerabilities. It has invited public comment, but unfortunately, critics say the process is opaque and politically motivated.
Then, in the next blow, Congress recently passed theOne Big Beautiful Bill, which further strengthens the strict regime by removing clean energy incentives from Biden’s inflation reduction law. For renewable developers, this is a sign of an increasingly hostile investment environment.
The government has repeatedly implemented various laws and policies that have cornered wind energy, especially offshore wind projects, causing companies to suffer huge losses and forcing them to shut down projects.
Biden’s view versus Trump’s opposite
The stark divide between the two administrations is clear:
Biden’s plan: to approve projects like Empire 1, Revolution Wind, and South Fork to deliver 30 gigawatts of offshore wind by 2030, bringing clean electricity to more than half of homes. These projects were designed not only to provide clean electricity but also to help the United States reduce emissions, compete with countries such as China and Europe, and create massive jobs in clean energy.
Trump’s opposite: Trump has repeatedly called for canceling, delaying, or severely reviewing these projects, citing national security risks, cost burdens, and energy insecurity. All of the arguments Trump made have since been proven wrong.
Biden saw offshore wind as a path to climate leadership; Trump sees it as a liability.
AI generated
State pushback and legal action
The response from states has been swift. In May, Connecticut Attorney General William Tong joined 17 other AGs in suing the Trump administration over its offshore wind regulation efforts.
With Rhode Island and Connecticut directly affected by Revolution Wind, further legal challenges are likely. Given its contractual obligations under the PPA and the billions of dollars already spent, Ørsted could end up in court, as could others.
The court could now decide whether the federal government can unilaterally halt projects that have been fully approved and are already under construction.
US Clean Energy Goals at Risk
If these project closures become permanent, the impact would be huge:
First, 1.5 GW+ of offshore wind capacity would be completely lost
Nearly a million homes would be without clean power
Billions in investments by developers like Oersted would be frozen
Thousands of union jobs would be lost
State climate goals in New York, Rhode Island, and Connecticut would be thwarted
Finally, Biden’s 30 GW by 2030 goal would be weakened
image: AI genertaed
The U.S. would lose credibility in the global race for renewable energy leadership, not just in terms of targets. While Europe and China are aggressively expanding offshore wind; the U.S. would lag behind.
Orsted’s future in the US
The crisis raises questions about whether Oersted and other developers will continue to invest in the US market. Ørsted has already built the South Fork Wind project, which is supplying power to New York at a 53% power factor—compared to baseload sources.
For the company, South Fork proves that offshore wind can be both reliable and efficient. But with Revolution Wind stalled and Empire 1 canceled, Ørsted faces increasing uncertainty. If political risks become too high, developers could redirect capital to friendlier markets in Europe or Asia.
A Nation at a Crossroads
The changing political landscape has brought about a major shift in US energy policy. The United States is currently at a crossroads. On the one hand, the country could accelerate its deployment of renewable energy, reduce its reliance on fossil fuels, and secure a place as a global leader in clean energy.
On the other hand, it could expand its fossil fuel dominance, questioning its leadership position with foreign competitors. The fight against Oersted’s Revolution Wind will be emblematic of this struggle. Will America commit to a clean energy future, or will politics derail decades of progress?
In the Bottom
In the last words, the Trump administration’s shutdown of Ørsted’s Revolution Wind would be more than a bureaucratic delay—it would be a symbolic and practical blow to US clean energy goals. Biden’s approval of projects like Empire 1 and Revolution Wind promised to transform the U.S. energy landscape, but Trump’s shutdown is shattering that vision, throwing states, companies, and workers into turmoil.
As the lawsuits pile up and political divisions deepen, the future of U.S. offshore wind—and with it, America’s clean energy goals—hangs in the balance. For Ørsted, the fight is about rescuing a $1.5 billion investment. For America, it’s about deciding whether to lead the global race to renewable energy or fall behind. The question is which way America will go!
With US clean energy goals under threat! it remains to be seen whether the U.S. will lead the global renewable energy race—or fall behind? Stay tuned to https://windnewstoday.com/ for the latest on offshore wind, clean energy policy.
Europe aims to increase its offshore wind capacity to 84 GW by 2030, but one of the most important challenges is the lack of investment in shipbuilding and port infrastructure
Brussels, August 2025— Europe is facing a shortfall in offshore wind investment, according to a new report by IndEurope News. With just five years to go to meet its 2030 energy targets, Europe offshore wind investment needs an additional €2.4 billion in funding to ensure its offshore wind infrastructure can grow in time. Without this investment, Europe will fall behind in its clean energy transition.
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Europe needs urgent action to meet offshore wind targets
Europe currently has 36.6 gigawatts (GW) of installed offshore wind capacity. To meet climate targets and energy security commitments, this figure needs to rise to 84 GW by 2030. Achieving this target depends on the continent installing at least 10 GW of offshore wind capacity annually, which is expected to increase to 15 GW per year after 2030.
While the installation rate is currently on track, supporting infrastructure, including ports and ships, is not developing fast enough. It is understood that significant capacity shortfalls could hinder the deployment of offshore wind projects in the future.
Marine infrastructure plays a central role
The offshore wind supply chain is heavily dependent on Europe’s maritime infrastructure. In the last three years, €6.7 billion has been invested in port upgrades and ship procurement. Analysts warn an additional €6.4 billion is needed, and €2.4 billion in the short term to meet the 2030 target.
This infrastructure is needed for building, installing, and maintaining wind turbines, so without immediate investment in this area, the supply chain may not be able to handle the volume of installations needed to stay on track.
EU ports strategy aims to fill infrastructure gaps
The European Commission is developing a new EU-wide ports strategy aimed at supporting the offshore wind sector. Ports are crucial for the industry. They act as logistical hubs for transporting turbines and components, act as maintenance bases and provide the space needed to assemble large structures—especially for floating offshore wind.
Strategic importance of ports for offshore wind
Over the past three years, €4.4 billion has been invested in port infrastructure across Europe, yet the report finds that an additional €2.4 billion is urgently needed to upgrade facilities and expand port capacity, as ports play a key role in supporting local wind energy supply chains and delivering efficient projects across the continent.
Policy measures proposed in the EU Ports Strategy
The Ports Strategy is expected to recommend three key actions. Firstly, the European Investment Bank could be involved in increasing funding allocations through programs such as the EU Connecting Europe Facility and supporting strategic projects. Secondly, the Commission is likely to simplify permitting procedures, as it can currently take up to 10 years to approve port expansions. Finally, the strategy could include an EU-wide map of port capacity and plans to match them with the demand for offshore wind deployment in member states.
Shipbuilding and ship investment are barriers.
In the case of offshore wind, there was talk of ports but in addition to ports, Europe needs to make significant investments in its offshore wind fleet. Why ports? Because currently, around 80 ships are used across Europe to install turbines and transport workers. The emergence of larger turbines over 15 MW requires a new generation of ships with more advanced capabilities.
Technological innovation of ships is needed
In the last three years, Europe has already invested around €2.3 billion in offshore wind ships. Despite this progress, an additional €4 billion is needed to install larger and more technologically advanced turbines, many of which are not capable of handling the weight and complexity of the new models.
Reducing emissions from marine activities
Marine activities currently contribute up to 20% of the total life cycle emissions of an offshore wind project. Decarbonizing this sector is crucial. The EU Maritime Industrial Strategy is expected to promote clean fuels such as hydrogen, ammonia, and electricity while supporting the refitting of older ships or the construction of new zero-emission ships.
How Europe’s Offshore Wind Future Hinges on Strategic Europe Offshore Wind Investment
Europe’s offshore wind future largely depends on timely investment. Its ability to meet its offshore wind targets depends on swift and coordinated action. A well-funded port strategy and a forward-looking maritime industry strategy can ensure that infrastructure, permitting, and innovation are developed in line with demand.
Without investment, the European Union could fail to achieve its 2030 offshore wind goals. It clearly said that it risks losing its global leadership in renewable energy. Though the window for action narrows, decisions taken in the coming months will fix the future of Europe’s clean energy landscape.
Key points:
More than €4.4 billion has been invested in ports.
Ports supply, store, assemble, and maintain wind equipment.
Floating offshore wind infrastructure to be integrated into port areas
Europe to generate 10 GW of electricity per year by 2030 and 15 GW later
A €2.4 billion shortfall needs to be urgently filled.
Ports and ships are out of the question for offshore wind to succeed.
The strategic move will determine Europe’s energy security and competitiveness for decades to come.
In the Bottom
If the EU is serious about leading the way in offshore wind, it needs to match ambition with investment. The proposed EU Port Strategy and Maritime Industry Strategy offer a golden opportunity to close the Europe offshore wind investment of €2.4 billion and strengthen Europe’s journey towards a cleaner, more resilient energy system.
From WindNewsToday Staff | Source: Public Statements, New York post
Offshore wind transmission New York City halted amid Trump legacy — while nation’s largest offshore wind Farm is gaining momentum!
A tipping Point In The Wind
offshore wind is a stunning blow to the clean energy economy, the New York State Public Service Commission (PSC) is stopping the process for approving vital offshore wind transmission New York lines that is intended to deliver renewable electricity to the downstate region of New York City. The commission’s action, industry advocates say, is the single most severe blow so far to New York clean energy policy and climate goals — and they are placing the blame squarely on former President Donald Trump offshore wind opposition.
The PSC attributed the decision to federal uncertainty and Trump administration hostility toward offshore wind as the reasons for putting construction approvals on ice. The ruling, delivered with little fanfare but resonating mightily throughout the state’s energy sector, punctures New York’s signature climate law — the Climate Leadership and Community Protection Act — which requires a power sector free of carbon by 2040 and a mix that includes 70 percent renewable energy by 2030.
“Offshore wind transmission New York Halted is significant,” said John B. Howard, a former PSC chairman. “The Climate Act is not operational. “We’re obviously going to be way past the emission deadlines.
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The Trump Shadow Still Looms
New York clean energy policy once made the state a national leader in clean energy innovation. But the P.S.C.’s stepping on the brakes of transmission lines essential for offshore wind integration shows a structural weakness one that would have become clear if it became impossible to get the wind-generated electricity to where it is most needed, New York City and left those targets a pipe dream.
Offshore wind projects in the United States, which have long been stymied along the East Coast, are facing a critical, make-or-break moment as a flurry of developers push to bring the turbines to American waters. The United States was rushing toward its 2030 clean energy goals, even New York clean energy goals — delivering clean electricity to trillion NYC homes and creating thousands of renewable energy jobs — but several new federal policy reversals under the former president, Donald Trump, are progressing the opposite.
Just yesterday, California’s clean energy companies were warning of this. They urged Gov. Gavin Newsom and state lawmakers to act quickly in response to drastic changes to federal tax policy under Trump. Industry leaders said the revisions endanger billions of dollars in investments in renewable energy and could upend California’s ambitious clean energy goals.
And all of this anxiety comes hot on the heels of another huge blow — the U.S. Department of the Interior last Friday said it would stop fast-tracking approval for solar and wind projects on federal land. And now, the effects have landed in New York.
In a surprise move today, the New York State Public Service Commission, PSC halts wind transmission lines that would carry offshore wind power to New York City and downstate. Without this crucial infrastructure in place, the most ambitious offshore wind projects will be unable to deliver electricity to homes and businesses—and their promise will remain unrealized.
“For now, offshore wind remains a promise deferred in New York.”
New York offshore Wind Projects already in the queue or under contract will likely move forward, but without the necessary transmission assets, it’s unlikely that much more development or full scale expansion will take place. State officials say the decision to pause is calculated and temporary, a safeguard to protect ratepayers at a time of political and economic volatility. But with the flawed and shifting landscape of federal support, the long-term roadmap now seems even more nebulous.
About offshore wind transmission New York — South Fork Wind — a great example of New York offshore Wind Projects, just completed in spring 2024 with creating nearly 1000 green jobs in 5 states — would connect offshore wind farms in the Atlantic Ocean to substations in the New York City metropolitan area, are now in legal limbo. Without these projects, there would be no practical way to transport the energy even if offshore wind farms were built.
Energy sources say the decision has the state’s green energy law “in shambles,” and throws into question the future of offshore wind as a significant power source for downstate New York.
Ratepayer Risk Amid Federal Paralysis
Beneath the PSC’s order looms the fear that New Yorkers, stuck with higher utility rates to pay for infrastructure that may never be used, could be left holding the bag. Customers of gas and electric utilities would have covered the costs of the transmission lines — a long-term investment that was financially viable only if the offshore wind projects went forward.
But it’s the refusal of the Trump administration to grant new offshore wind leases and permits in its term that has paralyzed certain pivotal developments. The Biden administration has since resumed permitting, but the PSC remains leery, warning that future federal elections might return more opponents to power, threatening long-term projects.
“There is no time to wait. The lowest-cost energy future for New York will feature a significant complement of offshore wind,” Alliance for Clean Energy New York and New York Offshore Wind Alliance (NYOWA) said in a joint statement. “We need our state to invest in transmission infrastructure and bolster a grid that will be able to accommodate the increasing demand for energy and at the same time save ratepayers money over the long term.”
The two groups maintain that if nothing is done New York risks being left lagging in the national race toward clean energy supremacy.
Politics and Permits: Trump’s Lasting Influence
Ørsted aims to create an ecosystem in which offshore wind and fishing can both thrive image: South Fork Wind Farm
The Trump administration’s wariness of offshore wind left a mark. Crucial permit freezes, regulatory barriers, and public resistance made for hostile local conditions for developers and financiers. And in the friendlier federal climate ushered in by President Biden, the scars remain, especially as at the state level, where projects take years to build and often require the support of many consecutive political administrations to finish.
New York Offshore wind projects can take more than a decade to develop — and that span frequently overlaps with tumultuous political cycles. Even small uncertainties can cause investment to freeze and execution to be postponed.
The PSC’s hesitation reflects that reality, and is not entirely unexpected given the political winds.
Hochul’s Balancing Act
Gov. Kathy Hochul, a longtime proponent of New York’s transition to renewable energy, had the PSC’s careful approach to the issue. And while saying she remained committed to clean energy and looking to shield ratepayers from financial risks associated with an uncertain federal support, an American Recovery Plan advocated the need for pocketbook protections.
“Governor Hochul has fiercely supported and remains committed to renewable energy projects, including offshore wind, but there is no doubt that, in this era of federal uncertainty, New York ratepayers need to be protected,” said Ken Lovett, her senior advisor for energy and the environment.
“In light of the political hostility to New York offshore wind projects from the federal government, and the consequent economic uncertainties surrounding such projects, we believe the PSC is correct that it would be unfair to burden ratepayers with the costs of a project that is not likely to produce any real benefits,” Lovett said. “When conditions are more favorable, we will be ready to proceed quickly.”
Offshore Wind Transmission New York Halted, Advocates React
The decision — PSC halts wind transmission lines, has been criticized by the clean energy industry as short-sighted. Advocates say that halting the development of new long-distance transportation now simply worsens the longer-term climate crisis, and that it lets fossil fuel infrastructure reign in the meantime.
“We appreciate concerns about cost — but inaction is even costlier: the cost of an increasingly damaged climate,” said Anne Reynolds, Executive Director of the Alliance for Clean Energy New York. “Delaying transmission is delaying progress.”
Trump offshore wind opposition decision by New York could cast a chill on the rest of the offshore wind industry in the Northeast at a time when states such as New Jersey, Massachusetts and Rhode Island are moving forward with their own transmission and wind deployment plans.
What’s Next?
For the moment, offshore wind lies as a promise deferred in New York. New York offshore Wind Projects that are already under contract can go forward, but there is little chance of further expansion to reach full scale without the “wires” to move the power. State officials emphasize that the pause is temporary and the result of strategy — the road ahead is hazier without more significant federal support, however.
The latest comes amid mounting frustration in the renewable energy industry. Now, offshore wind — long an iconic symbol of forward-looking climate ambition — is ensnared in a battle between state ambition and federal skepticism. Now, projects that require at least a decade of work to develop and build face a crucial question: Can they survive politics that are in a constant state of flux?
As climate deadlines loom and the demand for clean energy grows, the question is no longer whether the United States can lead the world in renewable energy — it’s whether it can regain lost momentum in time.
Can New York Catch the wind once again before it blows past?
Source — New York Post — https://nypost.com/2025/07/17/us-news/new-york-halts-offshore-wind-power-lines-citing-trump-opposition/
📌 For the latest on U.S. renewable energy policy, visit:
CaliforniaClean energy companies across the state are calling on Governor Gavin Newsom and state lawmakers to act swiftly in response to sweeping federal tax policy changes under President Donald Trump that risk billions of dollars in renewable energy investments and prompt challenges to California’s clean energy goals.
In a letter that went out earlier this week, five major clean energy trade groups, including the California Wind Energy Association and Solar Energy Industries Association, recently warned that Trump’s newly passed Republican-backed tax and spending law is creating significant roadblocks for continuing and forthcoming solar energy investments and wind energy projects in the Golden State. These organizations allege that California’s standing as a global leader on climate is at risk without state-level action.
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Federal Tax Credits for Renewables Risk Being Rolled Back
At the center of the anxiety is a provision in the new federal law that phases out important renewable energy tax credits, beginning after 2026, for projects that have not yet started construction. Projects that start after the deadline will need to be on-line by the end of 2027 to receive any remaining incentives.
Complicating the matter, Trump has ordered the U.S. Treasury Department to issue rules that would limit who can still qualify for these tax credits by which energy developers. This extra uncertainty makes it likely that dozens of utility-scale solar, wind and energy storage projects will now be delayed.
“These modifications introduce a new and grave risk of delay or outright cancellation for dozens of clean power projects,” the letter asserts. “We are pulling ahead and we are happy with the progress,” he said, “but without immediate reform at the state level, California’s clean energy investments — and the jobs that come with them — are at risk.”
California’s Clean Energy Goals
California has established some of the most ambitious climate and renewable energy targets in the world. The state recently said that more than two-thirds of its 2023 retail electricity sales qualified as coming from renewable and zero carbon-emitting sources, and all across onlookers struggle to cope with the speed at which it is leading the global energy transition.
Reversing federal support for California clean energy is in stark contrast to the state’s climate vision and clean energy policy agenda, including the mandate for 100% clean electricity by 2045. Many of those developers have already invested heavily in California’s energy infrastructure, from solar farms to wind energy projects to battery storage.
Trade Groups Urge California to Put It in a Higher Gear
In their letter, the five trade groups, which are the Large-scale Solar Association, California Energy Storage Alliance and American Clean Power Association (California chapter) called on the state to do four things:
Speed up approval for environmental permits and harmonies regulation for renewable energy schemes.
Expand clean energy purchasing, especially from utility-scale wind and solar developers.
Permit clean energy projects on farmland, which is underutilized for utility scale energy development.
Strengthen investment in grid infrastructure for managing higher levels of renewable energy tax credits and maintaining energy reliability.
If California can expedite these reforms, the groups say, the state can insulate itself from the consequences of federal rollbacks and maintain renewable energy momentum.
Wind Power in Texas Is Another Story entirely
While California is in limbo, in a tale of stark contrast, here’s what is happening in Texas wind energy projects policy. We have even seen Republican-majority states, such as Texas, achieve success developing the nations largest wind energy industry, not by government mandate but by offering market-based incentives and less onerous permitting processes that attract investment in renewable infrastructure.
Wind power’s growth in Texas is an example of how bipartisan support — or, at least, pragmatic policy — can help speed up the growth of clean energy. With federal support declining, California may soon have to turn to the Texas model of wind energy if the state wants to maintain its energy transition goals.
Jobs, Reliability and Clean Power Are at Stake
Not only does the rollback represent a major threat to renewable energy developers, but it threatens thousands of the clean energy jobs that exist. If projects get put on hold or canceled, the economic effect could reverberate across jobs in construction, operations, engineering and maintenance.
And the uncertainty threatens grid reliability, particularly as California confronts increasing power demands and the need to replace retiring fossil fuel plants with clean options. The rollback would imperil jobs, stability and progress toward California’s clean energy goals, according to the letter.
The state especially benefits from the clean energy sector. In 2023 alone, solar and wind projects led to the creation of thousands of high-wage jobs and investment in rural towns. This loss of momentum could have far-reaching consequences for both climate goals and long-term economic resilience.
California Clean Energy Developers Raise Alarms as Federal Support Fades
This is a pivotal moment in the energy transition in the United States. The Biden administration had sought to reduce the shift toward clean energy by broadening tax breaks in the Inflation Reduction Act (IRA) but the rollback by Trump would negate much of the push.
The decision to trump clean energy rollback the federal energy tax credit is viewed by many in the industry as a big step in the wrong direction. Developers worry the uncertainty of future regulatory environments could scare off investment, particularly in long-lead-time projects such as offshore wind or grid-scale storage.
Clean energy backers are imploring more Democratic states to draw up backup plans akin to what California wants to do in order to shield renewable energy development from swinging federal policy.
Conclusion: It Takes State Action to Protect Clean Energy Gains
As California goes forward, the decision is unmistakable: without urgent state action, the rollbacks in federal support for clean energy could stall crucial projects, shake investor confidence in the market and set back the state’s progress toward an energy future free from carbon.
The industry leaders’ letter sends a strong signal: Federal energy policy may be on its back foot, but states like California still have the tools in hand to protect and advance their visions of a clean power future — if they use them boldly.
The office of Gov. Newsom has not responded publicly. Yet the pressure to answer that question is getting louder, with billions of dollars in California clean energy investments on the line and California’s climate leadership in the balance.
One wind turbine can generate enough electricity to power nearly 1,000 homes. But because of the so-called “Big Beautiful Bill,” hundreds of those turbines might not rise — and America’s clean-energy momentum may fizzle.
Advertised as a patriotic remake of America’s energy policy, the proposal includes the passage of a Senate amendment that would slap punitive tariffs on the backbone the wind power industry in the US. While a proposed tax on wind and solar was dropped from the, the final bill still des the phase-out of clean energy tax credits, essentially swifter projects only have two years — until 2027 — to be up and running, or lose critical financial assistance.
That may seem like a small tweak. It isn’t. Wind projects, particularly large farms, take years of planning, permitting and investment. If the bill reduces the timeline, it is throwing sand in the gears of an industry that is creating jobs, cutting emissions and giving new life to rural communities across the country.
These aren’t theoretical losses. Up to 72 percent of planned clean energy installations are at risk of being delayed or canceled, analysts say. That means lost work for turbine technicians and manufacturers. Lost Income for Farmers Leasing Land. And higher energy costs for families that could have benefited from cheap, homegrown power.
Wind power is not a dreamer’s dream. It’s a tried and true engine of economic and environmental progress. Just ask Texas, the country’s wind leader, where conservative farmers and green advocates alike now re
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America Stands at a Crossroads on Energy
For years, the United States has sought to be a world leader in wind power, putting millions of homes within easy reach of high plains and coastal breezes that can carry the electricity generated by wind turbines. But a bill now being readied in Congress — named in the tradition of energy nationalism, or more specifically, the “Big Beautiful Bill” — is poised to bring that progress to a grinding halt, or worse.
Hailed by former President Donald Trump as a major victory for “traditional American energy,” the Big Beautiful Bill is coming under fire from renewable energy experts, economists, labor unions, and business leaders for doing too much harm to the wind and solar industries. Critics say that the bill would overturn decades of bipartisan policy to promote clean energy and leave thousands of renewable projects hanging in the wind.
With far-reaching implications for clean energy tax credits, wind turbine manufacturing, energy prices and climate policy, it is on track to become one of the most significant — and contentious — energy fights of recent American history.
What Is the “Big Beautiful Bill”?
That bill, the “Big Beautiful Bill,” is a sweeping energy and tax reform package backed by Donald Trump, the former president, and some conservative lawmakers. Billed as a pro-American, pro–energy independence proposal, the bill is larded with clauses that:
Advance the sunset on clean energy tax credits, including the popular Production Tax Credit (PTC) for wind.
Limit wind and solar development that relies on imported components, particularly those from China.
Ramp up fossil fuel development, promising to lease out more federal territory for oil and gas drilling on public lands.
Diminish financial aid for new renewable energy initiatives that begin after 2027.
For good, the bill does not contain a proposed tax on wind and solar projects that was part of the negotiations a few weeks ago, although it still cuts by a relatively significant amount the time frame for the development of wind and solar power, which critics point out is no small thing.
How Wind Energy Works —Why Policy Matters
Wind power has become one of the cheapest and most readily scaleable forms of energy generation in the US. Today, one wind turbine can produce enough power for close to 1,000 homes year-round, and entire regions — looking at you, Texas and Iowa — now get a large fraction of their electricity from wind.
But wind projects — particularly utility-scale wind farms — are multi-year affairs that require planning and permitting, financing and construction. That’s what makes politically stable, long-term support so essential. And it’s true that programs like the Production Tax Credit (PTC), whose origins date back to the 1990s, have played a role in helping to make wind energy cost-competitive with fossil fuels.
The PTC generally extends a per-kilowatt-hour tax credit to developers over a period of 10 years for electricity produced from new wind facilities. Without these credits, many projects are dead on arrival — particularly through early-stage investment.
What Big Beautiful Bill Impact On Wind
Under the Big Beautiful Bill, only wind and solar projects that were fully operational by the end of 2027 would continue to be eligible for these federal clean energy tax credits. This small window is a serious challenge to the clean energy pipeline, as most wind projects have a 3–5 year timeline from conception to completion.
What’s at Stake?
From several clean energy analytics firms:
As much as 28 gigawatts (GW) of wind and solar projects in the works may no longer qualify for tax credits.
At least 72% of them are at risk of being delayed or dropped because of financing difficulties and political unpredictability.
Over 1.7 million jobsin construction, operations and manufacturing could be lost.
Hundred billions of dollars of investment in clean energy industries could leave for countries with more predictable energy policy.
In practice, that could translate to fewer turbines in the ground, less clean energy on the grid and higher electricity bills for American consumers.
Wind Energy Jobs: A growing Sector Under Threat
Wind power has been among the fastest growing renewable energy job sectors in the United States. Wind turbine technicians have been in the top five fastest growing jobs for years now, and the industry has brought:
Construction teams and engineers working on wind farms.
Technicians maintaining the turbines.
Turbine blade, tower and nacelle factory workers.
Truck drivers and cranemen hauling equipment.
Landowners, especially those in rural America, who rent land for wind projects.
All of those economic dividends are endangered by Big Beautiful Bill. And the thousands of renewable energy jobs that might disappear if project development in states such as Texas, Oklahoma, Kansas and Iowa stalls. All this clean power brought suddenly home to a place many Americans have never seen.
Elon Musk, and Industry Leaders Slam the Legislation
Among the most outspoken opponents of the Big Beautiful Bill is Tesla and SpaceX CEO Elon Musk, who characterized it as “utterly insane and destructive legislation.”
“It’s just madness,” Musk took to X (formerly known as Twitter) to write. “This bill is an exercise in handouts to the industries of the past that punishes the industries of the future. It would obliterate the American worker.”
Musk’s denunciation echoes growing recrimination in the tech and clean energy sectors that the bill is more about short-term political gain than about the U.S. leading in energy over the long term.
In a statement released to the media, the American Clean Power Association (ACPA) decried the legislation as “a step backward for American energy policy” and said it would drive up electricity costs, kill jobs for Americans and set current climate goals in the country back.
States Most Affected
Republican lawmakers on both the left and the right have thrown their weight behind the bill, but its impacts may fall hardest on Republican-led states. Consider the following:
Texas is the wind energy capital of the country, with thousands of wind jobs.
Iowa and Oklahoma produce more than 40 percent of their electricity from wind.
With strong wind resources, Wyoming, Kansas and North Dakota are adding projects to their portfolio of wind projects.
South Dakota and Nebraska are growing wind powerhouses that are dependent on federal help.
In these rural states, wind power was not simply a partisan issue; it was one of revenue, job creation and pride. And the Big Beautiful Bill, for all its patriotic trappings, could undermine these local triumphs.
Energy Security and Climate Consequences
The bill comes at a time when global energy security is particularly salient, given the conflicts and supply shocks that have underlined the need for diversified, domestic energy sources.
Wind power provides:
Energy independence — It does not depend on unpredictable fossil-fuel markets.
Cheap power — The price of wind energy has declined more than 70% during the past decade.
Zero emissions —Wind is one of the most environmentally friendly sources of power on the planet.
The proposed “Big Beautiful Bill” comes at a time of extreme global energy policy peril — when energy security has never been more important, and the dangers of ceding ourselves to dependency on fossil fuels have never been more stark. Ongoing geopolitical tensions, disruptions to supply chains, and fluctuating prices of oil and gas have all made it clear that investing in a diversified set of domestically based energy resources, especially those that are invulnerable to foreign shock, is critically important. In that way, wind is one of America’s smartest energy sources and provides a trifecta: energy independence, low cost and no emissions. While fossil fuels are tied to wild global marketplace fluctuations and ripe for inflation, wind power is grown here in America, impervious to the foreign fix we face with oil. Wind energy costs have fallen more than 70% over the last 10 years, now making wind one of the cleanest and also cheapest electricity options on the market.
Across the Great Plains and along the coasts, wind turbines have become as familiar a part of the American landscape as fast food outlets and big box stores, silently turning in the breeze, and now they are powering millions of American homes, and stabilizing local energy grids, saving working families money along the way. Perhaps more important, wind is a driving force behind America’s climate action—emitting no greenhouse gases, no air pollution, and no hazardous waste.
Photo: nyt
Taking about Big Beautiful Bill impact on wind industry 2025, having policies that support wind power is more important than ever as the world continues to race toward carbon-free energy, and as world leaders from over 150 countries commit to climate goals and to protect future generations. But the Big Beautiful Bill risks reversing this progress, if it undoes hard-won clean energy tax credits and introduces policy uncertainty at exactly the wrong moment. Cutting support for wind projects not only delays the deployment of clean energy but also delivers a catastrophic signal to investors, developers and international partners — that the United States is not longer serious about being a global leader in clean energy. Just as Europe and China scale up investments in renewables and build secure energy supply, any retreat by the U.S. would be a step back from the front lines of climate and energy innovation.
This uncertainty is a huge financial risk for investors and less motivation to invest in long-term infrastructure. For domestic producers, it could portend canceled orders, closed plants and lost chances to take the lead in a fast-evolving sector. And for the world, it calls into question whether America can be trusted to honor its environmental commitments. With the climate crisis getting worse by the day — with record-breaking wildfires, hurricanes and droughts becoming annual events — the urgency to support proven technologies like wind energy has never been higher. Rather than retrenching, the U.S. should double down on renewables investments that enhance national security, create good-paying jobs and lower emissions.
Wind turbine-driven energy independence is not some fantastical vision of the future; it’s a real-time reality built through decades of bipartisan putting our money where our mouths are and private sector elbow grease. Sabotaging such progress with short-sighted legislation could have devastating implications, not only for the environment, but for America’s competitiveness in the global energy economy of the future. By pursuing the policies that enhance the stability and growth of renewables – like extending the Production clean energy Tax Credits, supporting grid modernization and providing investors confidence – the United States can help prevent wind being a key part of national resilience. Instead, enacting a bill that leads us backward and undermines the very foundation of our clean energy structure will only continue the cycle of dependence upon fossil fuels, raise consumer costs, and cede the United States away from its leadership position in this century’s global race to dominate climate and energy policy.
The decision facing lawmakers isn’t just one of subsidies versus tax schedules — it’s about whether the United States will be at the front of or at the back of the 21st-century clean energy race.
Farmers, Landowners and Local Economies Suffer
Not only will big developers lose — local communities will be the losers as well.
Farmers who rent land to wind developers receive steady, long-term income.
Rural counties earn tax revenue from wind projects.
Wind energy taxes provide direct funding to local schools, fire departments, and hospitals.
And if the Big Beautiful Bill stalls new wind energy industry in the US, these lifelines to rural America would dry up — while, ironically, hurting the same communities the bill purports to aid.
Clean Energy vs. Fossil Fuel: A False Dilemma?
The Big Beautiful Bill Fossil Fuelvs. Clean Energy incentives, supporters of the bill, they argue, need to return to their livestock, energy realism and “support American oil and gas.” But some critics say that is a false choice.
“We don’t have to choose between jobs at home and clean energy,” said a spokesman for the ACPA. “We can have both — and we must if we are to compete in the world.”
The U.S. can and should help all energy workers — but not by hollowing out the sectors creating jobs and energizing investment.
Policy Recommendations — What Needs to Change
Now that the Big Beautiful Bill is now making its way over to the House of Representatives, clean energy advocates are lobbying for key amendments, including that the:
The Pass the PTC Act would extend the production tax credit (PTC) for wind through at least 2032.
Save loan guarantees and investment tax credits for renewable energy developers.
Opposing export penalties targeted at the renewable component supply chain.
Preventing trade provisions that penalize American energy consumers.
Such policy changes would revive confidence among investors, stabilize the development pipeline and allow the wind industry to continue to play a part in the economy.
A Crossroads for the Future of U.S. Wind Power
The Big Beautiful Bill (as it’s called) may sound patriotic on paper — but it’s about the furthest thing from that the American wind industry can imagine.
With over 1.7 million jobs at stake, billions of dollars of investment in jeopardy, and long-term climate and energy security objectives at risk, this bill is a critical moment in the life of our country.
America faces a choice to lead the global clean energy transition, or lag in a world increasingly fueled by wind, sun and innovation.
As members of the House debate, one thing is certain: decisions they make in the coming weeks are likely to influence the U.S. energy landscape for decades to come.
The “Big Beautiful Bill” is a landmark for the wind energy industry in the US– one that has driven economic development, revitalized rural America, and provided clean energy to millions of Americans. Although couched in terms of a patriotic energy plan, the bill imposes a faster phase-out of the Big Beautiful Bill wind eenrgy tax credits expiration and restrictive policies that will block or delay the completion of hundreds of wind projects, including the loss of over 1.7 million American jobs in clean wind energy.
In the midst of a global momentum for clean power, America needs to carefully consider the long-term implications of this law. Keeping the wind at our backs is not only an environmental imperative — it is an economic imperative, and a major component of America’s energy security.
As the legislation travels through Congress, lawmakers will decide through a series of forks in the road whether the U.S. remains at the forefront of renewable energy innovation or lags behind in the clean energy race across the world. The fate of millions of workers, communities and the climate demands it.
❓ Frequently Asked Questions (FAQ)
What is the Big Beautiful Bill Impact On wind energy?
The Big Beautiful Bill is a proposed legislative package supported by former President Donald Trump that hastens the sunset of clean energy tax credits, which also extend to wind power. Only wind projects that are in service by the end of 2027 would be eligible for the Production Tax Credit (PTC), essentially setting back or even killing dozens of projects and threatening U.S. strides in renewable energy.
When would the wind energy tax credit expire under the Big Beautiful Bill?
Under the bill, wind energy tax credits would end in 2027. Any project that wasn’t up and running by Dec. 31, 2027, would lose eligibility for the federal Production Tax Credit, making it more difficult to secure financing and finish large wind farms on schedule.
How much clean-energy capacity is at risk from the new legislation?
As many as 28 gigawatts of planned wind or solar capacity could be put at risk, according to energy analysts, under the Big Beautiful Bill. Those projects may lose the critical tax credits and federal loan backing that helped launch them, halting the growth of clean energy in the United States.
What will the bill mean for renewable energy jobs?
The American Clean Power Association and labor unions project that if the wind tax credits lapse, over 1.7 million construction and manufacturing jobs could be lost. These losses would hit rural communities particularly hard, and states that have sunk billions of dollars in wind infrastructure, such as Texas, Iowa and Oklahoma.
What does the bill do for U.S. energy independence and climate goals?
The bill would damage U.S. energy independence by slashing incentives for domestic, clean sources of energy such as wind. It also puts the brakes on progress toward zero-emissions energy goals, sending a signal to global investors and allies that the United States might be pulling back at a time when other nations are accelerating investments in clean energy.
Can Congress overrule or alter the Big Beautiful Bill’s features?
Yes. The measure still needs to pass the House as well, and there’s a chance lawmakers could revive long-term tax credits for clean energy, extend eligibility timelines or add new givebacks to shore up renewable energy. Industry advocates are calling on Congress to act before long-lasting damage is inflicted on the wind energy business.
Why are permanent tax credits so critical for a wind project?
The process of planning, permitting, and constructing a wind energy project typically requires 3 to 5 years. Long-term, predictable tax credits such as the PTC provide developers and investors with the certainty to finance these multidecade projects. Abrupt changes in policy upset the entire development pipeline and sometimes lead to delays or cancellations.
China renewable energy news is great, with wind power boom in January-May enough to power entire countries like Indonesia or Turkey
BEIJING — June 2025
A charming example is set by china renewable energy record, China added 46 gigawatts (GW) of wind power and 198 gigawatts of solar power between January and May 2025, breaking China’s previous records and cementing its leadership in the global clean energy race. The Guardian says, the added capacity of wind and solar power during the five-month period in 2025 is enough to produce as much electricity as Indonesia or Turkey, according to Lori Mylivirta analysis, a senior fellow at the Asia Society Policy Institute.
In May alone, China solar power growth 93 gigawatts of installation, the equivalent China solar panels installed per second about 100, and wind power capacity added 26 gigawatts, the size of about 5,300 turbines. These installations could power countries like Poland, Sweden, and the United Arab Emirates, depending on operating conditions and efficiency.
“We thought China’s rush to install solar and wind power was going to be absurd, but wow,” Mylivirta commented on social media.
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China renewable energy record amid global climate tensions
The latest development comes amid ongoing informal climate talks between Chinese officials and former US negotiators in Beijing. Diplomatic relations over climate action have been strained since former President Donald Trump withdrew the United States from the Paris climate accord, accusing China of rampant pollution while protecting domestic industry.
Despite being the world’s largest greenhouse gas emitter, China is also by far the largest producer, installer and exporter of clean energy technology. China suppresses 1000 GW solar capacity, half of the total global production, according to government data and third-party trackers.
China green energy leadership was happen by Xi Jinping climate strategy. Chinese President Xi Jinping renewable energy speech has increasingly tied the country’s climate goals to national industrial policy, framing clean energy expansion as essential to rejuvenating the economy.
China’s role in the global climate talks now is not just about how much wind power China adds in 2025, but also about how it is winning the global clean energy race. “In the past five years, China has built the world’s largest and most complete new energy industrial chain,” Xi said at a conference in April.
The term “new energy” refers not only to wind and solar power, but also to battery storage, EV infrastructure and grid-scale technology.
This development has been accompanied by an explosive growth in supply chains and exports. But it has also put the financial squeeze on the whole of China’s solar industry. According to Bloomberg, the five largest Chinese solar companies reported a combined loss of more than8 billion yuan in Q1 of 2025.
Speaking at a recent industry conference, Yang Liyou, general manager of Jinneng Technology, said the existing pricing and production model was a“ death cycle,” suggesting hyper-competitionand wafer-thin margins could endanger the stability of China’s place as the world’s clean energy manufacturing kingpin.
World Impact and Climate Implications
China’s breathtaking build-out of wind and solar installations isn’t just actively reshaping its own energy landscape — it’s sending ripples out across global energy markets, upending international geopolitical strategies and, with it, the future of the clean energy transition.
Economically, sprawling production in China has pushed global prices for solar panels and wind components to historic lows. China solar and wind growth is good for developing countries with demand for affordable, clean energy, but it is also putting pressure on Western manufacturers, some of whom are pushing for trade barriers and subsidies to shield their domestic clean energy industries.
Politically, these numbers give China the ability to leverage climate diplomacy, particularly at a time when the United States and the E.U. are pressing for steeper emissions cuts even as they struggle with their own internal policy divisions. Now that China’s momentum in clean energy has become tightly linked to its economic strategy, the country will have an upper hand in future climate talks — especially since some Western powers are rethinking their dependence on Chinese-made technologies.
China clean energy expansion surge also speaks to a bigger pattern: The global center of gravity for energy innovation is shifting east. If the trajectory holds, China will be not only the largest emitter or the largest builder of clean energy, but it will also become the yardstick by which we measure whether, in the next generation of energy infrastructure, we will have a livable planet or not.
As China continues to pull ahead with the deployment of clean power, the geopolitics and economics of energy transition are changing. The sheer magnitude of the country’s manufacturing and installation has driven down worldwide prices but has also spawned concerns about sustainability, labor practices and market fairness.
Meanwhile, nations like the U.S. and those in the EU are re-evaluating trade and subsidy strategies to safeguard domestic clean energy industries, while attempting to achieve net zero goals.
As new solar and wind capacity is added at record-breaking rates — and political rhetoric is tightly intertwined with industrial strategy — China is, for once, not just competing in the race, Ms. Hsu said. It’s setting the pace.
China solar and wind power growth: Jan–May 2025
🌬️ 46 GW of wind power added
☀️ 198 gigawatts of solar power added
⚡ May only: 93 GW solar, 26 GW wind
🏆 Total installed solar: 1,000+ GW
📈 Enough new capacity to power: Poland, Sweden, Indonesia, Turkey
So that, China renewable energy record in 2025 represent a turning point for how the world uses energy. And with 46 GW of wind and 198 GW of solar deployed in only the first five months of the year, the country isn’t just outpacing its own climate targets, or lucrative wind and solar installation in china but redefining the global clean energy market.
Challenges endure — from economic hardship facing domestic producers to mounting geopolitical suspicion — but China’s sheer scale, speed and strategic linking of clean energy with economic policy have made it an unparallelled force in the field. As the world once again contemplates the urgent need for climate action and for secure energy, China’s market moves are making clear that the race to dominate the renewable energy is no longer some nod to a green future — it’s on.
