NECON Expands Manufacturing Capacity to Accelerate Clean Energy Development in India

As India cements its place as the world’s third-largest renewable energy market, one Ahmedabad-based manufacturer is scaling up to meet the moment. Necon Renewable Energy has commissioned a new state-of-the-art manufacturing facility, a move the company says is central to its long-term strategy of leading India’s transition to clean, future-ready power infrastructure.

The announcement comes at a pivotal time. India added a record 55.3 GW of non-fossil fuel capacity in FY 2025-26, the highest annual increase in the country’s history, bringing total renewable installed capacity to 275 GW. Wind energy alone crossed 56 GW of installed capacity, with roughly 6 GW added in a single fiscal year, a 44 percent jump over the previous year. Against that backdrop, the case for expanding domestic renewable energy manufacturing has never been stronger.

Scaling Capacity for a Surging Market

Necon’s new facility is designed with precisely that demand in mind. Equipped with high-throughput production lines, advanced automation, and tightly controlled quality assurance systems, the plant is built to accelerate the manufacture of wind energy equipment and components at a scale suited to both large project pipelines and the fast-moving requirements of utility developers.

The company, which offers a portfolio spanning vertical axis wind turbines,
solar power parks, and hybrid power systems, has positioned itself at the intersection of technologies that India’s grid increasingly depends on. Its hybrid approach, combining wind and solar generation to deliver round-the-clock clean power, addresses one of the sector’s most persistent challenges: intermittency.

The facility’s commissioning is expected to shorten project delivery timelines, strengthen supply chain resilience across Necon’s customer base, and improve cost competitiveness at a time when developers are under pressure to bring projects online faster.

A Strategic Move Aligned with National Priorities

India’s renewable energy manufacturing ecosystem has undergone a fundamental transformation in recent years. Wind turbine manufacturing capacity has grown from roughly 10 GW in 2014 to approximately 24 GW today, even as the government introduced a suite of measures, from reduced GST on renewable components to the launch of the Renewable Energy Equipment Import Monitoring System (REEIMS), to deepen domestic supply chains and reduce import dependence.

For companies like Necon, that policy environment creates both obligation and opportunity. The 500 GW non-fossil fuel target by 2030 is not simply a national ambition; it is a procurement signal, and manufacturers that can deliver quality at scale are well positioned to capture a meaningful share of the investment pipeline. Industrial analysts tracking the sector estimate over $725 billion in renewable projects currently active or in development across India.

This expansion isn’t just about adding square footage. We’ve been deliberate about building infrastructure that can grow with the market, capacity that serves our customers today and positions us to lead as India accelerates toward its 2030 goals. Expanding our manufacturing footprint reflects who we intend to be in this industry: a long-term partner in India’s clean energy transition, not just a supplier.

Clean Energy Manufacturing, Built Responsibly

Wind Energy Is Finally Moving in the Right Direction in India

Better planning, stronger grids, and quicker approvals are helping India unlock its massive wind power potential.

India just had its best year ever in wind energy. In 2025-26, the country added 6.05 GW of new wind power, the highest ever in a single year. Total installed capacity has now crossed 56 GW, making India the world’s 4th largest wind energy market.”

So, what changed? Three things: India is now focusing on the best wind zones, fixing its power grid, and cutting down approval delays. Here is a simple breakdown.

1. Focusing on the Right Zones

India has enormous wind potential, over 1,163 GW according to the National Institute of Wind Energy. But not every part of the country is equally windy. The smart move is to build where the wind is strongest.

Top wind states right now:

  • Gujarat: A clean energy leader with 40 GW of total renewable capacity
  • Tamil Nadu: India’s wind pioneer with over 10 GW already installed
  • Karnataka and Maharashtra: Major contributors to the 2025-26 record
  • Rajasthan: Massive, untapped potential of 284 GW waiting to be used

 

2. Fixing the Power Grid

For years, many wind projects were built and ready but the power had nowhere to go. The electricity grid was not connected properly to carry that energy to homes and businesses. Over 50 GW of clean energy was sitting idle across India as recently as mid-2025.

Now, new transmission lines in Rajasthan, Gujarat, and Karnataka have come online. Stranded projects are finally delivering power. The government has also planned to expand grid capacity to 111 GW by 2030 through programs like the Green Energy Corridor.

There cannot be any energy transition without transmission. (CERC Official, Windergy India 2025)

3. Faster Approvals

Getting permission to build a wind project in India used to take years. Multiple departments, lots of paperwork, and slow processes made developers nervous about investing.

That is improving. States like Kerala are testing single-window approval systems, which means one place to get all clearances. The central government has also introduced clearer rules for project bidding and equipment standards, making it easier and faster to start and finance new wind farms. Key Numbers at a Glance

  • 56 GW: India’s total installed wind power capacity as of March 2026
  • 6.05 GW: Wind power added in FY 2025-26, a new national record
  • 1,163 GW: India’s total wind energy potential, only 5% tapped so far
  • 140 GW: India’s wind energy target by 2030
  • 500 GW: India’s total clean energy goal by 2030

 

The Big Picture

India has barely used 5% of its wind energy potential. The wind has always been there. The country is finally building the infrastructure to catch it. With better zone planning, stronger grids, and simpler approvals, the next few years could be a big turning point for clean energy in India.

The record 2025-26 numbers are encouraging. But reaching the 2030 target of 140 GW will need this momentum to continue and accelerate. Keep following NECON for the latest updates on India’s clean energy journey.

Top 10 Benefits of Switching to Green Energy

Green energy is no longer just a buzzword, it’s becoming a smart, practical choice for homes, businesses, and entire nations. With rising concerns about climate change, pollution, and the long-term costs of traditional energy sources like coal and oil, many people and companies are choosing cleaner, safer alternatives. Necon has been at the forefront of promoting innovative renewable energy solutions, helping communities and industries transition toward sustainable power.

10 Benefits of Switching to Green Energy

Green energy comes from natural sources like sunlight, wind, and water that are continuously replenished. Unlike fossil fuels, these resources won’t run out, making them a long-term solution for global energy needs.

1. Reduces Carbon Emissions

Switching to green energy significantly lowers greenhouse gas emissions, helping combat climate change and reduce your carbon footprint.

2. Environmentally Friendly

Green energy produces little to no pollution, which means cleaner air, water, and soil benefiting both people and ecosystems.

3. Cost Savings Over Time

Although initial installation may be higher, renewable energy systems reduce electricity bills in the long run and offer strong returns on investment.

4. Energy Independence

By generating your own power, you reduce reliance on imported fuels and protect yourself from fluctuating energy prices.

5. Job Creation

The renewable energy sector is rapidly growing, creating jobs in manufacturing, installation, maintenance, and innovation.

6. Sustainable Development

Green energy supports long-term economic and environmental sustainability without depleting natural resources.

7. Low Maintenance Costs

Most renewable systems, especially solar panels, require minimal maintenance and have long operational lifespans.

8. Increases Property Value

Homes and businesses powered by green energy often have higher market value and attract environmentally conscious buyers.

9. Improves Public Health

Reducing pollution leads to fewer respiratory and cardiovascular diseases, improving overall community health.

10. Future-Proof Energy Solution

As the world shifts toward sustainability, adopting green energy ensures you stay ahead with a future-ready, responsible energy choice.

How Does Green Energy Help the Environment?

One of the biggest reasons people switch to green energy is to protect the environment. Energy generated from the sun, wind, and other natural sources doesn’t produce pollution like coal or oil. This means:

  • Lower carbon emissions — helps slow down climate change by cutting down the release of carbon dioxide.
  • Cleaner air and water — since harmful pollutants aren’t released into the atmosphere or waterways.
  • Biodiversity protection — renewable energy systems tend to be less disruptive to animal and plant life than fossil fuel extraction.

By embracing green energy, we create a healthier world for ourselves, our children, and future generations.

Can Switching to Green Energy Save You Money?

Yes, in many ways!

Green energy options like solar panels and wind systems may require an upfront investment, but over time they have major financial advantages:

  • Lower energy bills: Once installed, solar and wind systems generate power at little to no ongoing cost.
  • Stable energy costs: Unlike fossil fuels that can go up or down in price due to market conditions, renewable energy prices tend to stay predictable.
  • Long-term savings: Over the years, savings on utility bills often outweigh the original installation cost, making green energy a smart economic choice.

Whether for homes or businesses, this financial predictability makes green energy very appealing.

Does Green Energy Help Combat Climate Change?

Finally, perhaps the most important benefit: switching to green energy plays a major role in fighting climate change. Greenhouse gas emissions from burning fossil fuels are the leading cause of global warming. By choosing renewable energy, we dramatically reduce the amount of carbon released into the atmosphere, helping stabilise global temperatures and protect ecosystems.

Everyone, from individuals to governments, benefits when we embrace cleaner, more sustainable forms of power.

Conclusion

Switching to green energy isn’t just something for environmental activists, it’s a practical, economical, and forward-thinking choice with benefits that touch every part of our lives. Whether you care about cleaner air, lower energy bills, stronger energy independence, or a healthier future for the next generation, green energy delivers powerful advantages. And organizations like Necon Group of Companies are helping make this transition easier, offering modern renewable solutions that support both today’s needs and tomorrow’s goals.

Making the switch isn’t just good for the planet, it’s good for people too. The future is green, and it starts with the choices we make today.

Role of Renewable Energy in Achieving Net Zero Emissions

The world is moving toward a cleaner and more sustainable future, and renewable energy is at the center of this transformation. Achieving net zero emissions means balancing the amount of greenhouse gases released with the amount removed from the atmosphere. Renewable energy sources like solar and wind play a crucial role in reducing carbon emissions and helping industries, businesses, and countries meet their sustainability goals.

Necon are actively contributing to this transition by offering advanced renewable energy solutions that support clean power generation and carbon reduction.

What Is the Role of Renewable Energy in Achieving Net Zero Emissions?

Renewable energy is one of the most effective ways to reduce dependence on fossil fuels, which are the primary source of carbon emissions. Unlike coal, oil, and gas, renewable sources such as solar and wind energy produce little to no greenhouse gases.

Here’s how renewable energy contributes to net zero:

1. Reduces Carbon Emissions

Traditional energy sources release large amounts of carbon dioxide. Renewable energy systems generate electricity without burning fuel, significantly lowering emissions.

2. Supports Clean Power Generation

Solar panels and wind turbines convert natural resources into energy without polluting the environment. This helps industries shift toward cleaner operations.

3. Promotes Energy Efficiency

Modern renewable technologies are designed to maximise efficiency. Advanced systems help reduce energy wastage while delivering consistent performance.

4. Enables Sustainable Growth

Renewable energy allows businesses to grow without increasing their carbon footprint. This is essential for long-term environmental sustainability.

Necon, with its focus on wind and solar technologies, helps businesses adopt clean energy solutions that are reliable and future ready.

How Do Renewable Energy Solutions Help Industries Achieve Net Zero?

Industries are among the largest contributors to global emissions. Transitioning to renewable energy is a key step in reducing their environmental impact.

1. Integration with Existing Systems

Renewable energy solutions can be integrated into existing infrastructure. This allows industries to gradually reduce their dependence on fossil fuels.

2. Energy Storage and Stability

One of the challenges of renewable energy is variability. Advanced systems, including battery storage, ensure a consistent power supply even when sunlight or wind is not available.

3. Cost Efficiency Over Time

Although initial investment may be high, renewable energy systems reduce operational costs in the long run by lowering electricity bills and maintenance expenses.

4. Compliance with Environmental Regulations

Governments worldwide are introducing strict regulations to reduce emissions. Using renewable energy helps industries meet these requirements and avoid penalties.

5. Smart Energy Management

Modern energy solutions include monitoring and optimisation tools. These systems help industries track energy usage and improve efficiency.

Why Is Renewable Energy Essential for a Sustainable Future?

Achieving net zero emissions is not just about reducing pollution, it is about building a sustainable future for generations to come. Renewable energy plays a critical role in this mission.

1. Reduces Environmental Impact

Renewable energy reduces air pollution, water usage, and environmental degradation compared to traditional energy sources.

2. Climate Change Mitigation

By lowering greenhouse gas emissions, renewable energy helps slow down global warming and its effects.

3. Encourages Innovation

The renewable energy sector drives innovation in technology, infrastructure, and energy management systems.

4. Enhances Energy Security

Renewable sources are abundant and locally available. This reduces dependence on imported fuels and improves energy security.

5. Creates Economic Opportunities

The growth of renewable energy creates jobs, supports local industries, and boosts economic development.

Challenges in Achieving Net Zero with Renewable Energy

While renewable energy offers many benefits, some challenges need to be addressed:

  • Intermittency Issues: Solar and wind energy depend on weather conditions
  • High Initial Costs: Installation and infrastructure investments can be significant
  • Grid Integration: Managing renewable energy within existing power grids requires advanced systems
  • Storage Limitations: Efficient energy storage solutions are still evolving

However, continuous advancements in technology and innovation are helping overcome these challenges. Companies like Necon are working on efficient solutions to improve performance, reliability, and energy management.

The Future of Renewable Energy and Net Zero Goals

The future of renewable energy looks promising. Governments, industries, and organisations are investing heavily in clean energy projects to meet net-zero targets.

Key trends shaping the future include:

  • Increased adoption of solar and wind energy
  • Growth in energy storage technologies
  • Development of smart grids and digital energy systems
  • Expansion of electric vehicles powered by renewable energy
  • Stronger policies supporting clean energy adoption

Renewable energy will continue to play a central role in reducing emissions and achieving sustainability goals worldwide.

Conclusion

Renewable energy is essential for achieving net-zero emissions and building a sustainable future. With innovative solutions and a strong commitment to sustainability, Necon Group of Companie is helping businesses transition to cleaner energy systems. By adopting renewable energy today, industries and communities can take a significant step toward a greener, healthier, and more sustainable tomorrow.

How Renewable Energy Reduces Carbon Footprint

As the world moves deeper into the digital age, energy demand is rising rapidly. However, traditional energy sources primarily fossil fuels are major contributors to carbon emissions and climate change. This is where renewable energy steps in as a transformative solution. By harnessing natural resources like sunlight, wind, and water, renewable energy plays a crucial role in reducing our carbon footprint and building a more sustainable future.

NECON Group are at the forefront of this movement, offering renewable energy solutions that make our power cleaner, more sustainable, and better for Earth’s future.

What is a Carbon Footprint?

A carbon footprint refers to the total amount of greenhouse gases, mainly carbon dioxide (CO₂), released into the atmosphere due to human activities. These emissions come from electricity generation, transportation, industrial processes, and more. The higher the reliance on fossil fuels, the larger the carbon footprint.

How Exactly Does Renewable Energy Help Reduce Carbon Emissions?

1. Clean and Almost Zero Operational Emissions

Solar panels and wind turbines generate electricity without burning fuel. This means they don’t emit carbon dioxide during operations. Once these systems are installed, they produce clean power day after day without releasing greenhouse gases into the air.

For example, when a solar panel generates 1 kilowatthour (kWh) of electricity from sunlight instead of from coal, it prevents approximately 0.8 kg of CO₂ emissions that would have occurred from coalbased power. Over the life of the system, 25+ years this, adds up to a huge reduction in carbon emissions.

2. Lower Dependence on Fossil Fuels

Renewable energy reduces our reliance on fossil fuels, the largest source of humanmade carbon emissions. By adding more wind and solar capacity to the grid, countries can reduce how much coal and gas they burn. When renewable energy grows in scale, it displaces fossil fuel power and cuts emissions across the entire electricity sector.

Large renewable projects like solar power parks and wind farms contribute not just to cleaner energy but also to better air quality and reduced environmental harm, which benefits both public health and ecosystems.

3. Clean Energy Around the Clock with Hybrid Systems

Renewable technologies are becoming smarter and more efficient. NECON Group are developing hybrid renewable energy systems that combine solar and wind power. These systems take advantage of both the sun and wind, offering a more consistent, 24/7 clean power supply. This steady flow of renewable energy further reduces the need for fossil fuel backup generation, which often emits more carbon.

Moreover, integrating renewable energy with battery storage means excess power generated during the day can be stored and used later, cutting down even more on carbon emissions.

Can Renewable Energy Really Make a Big Impact?

Yes, and the impact is already widespread:

  • Reduces Carbon Emissions – Renewable energy technologies like solar and wind emit little to no greenhouse gases once installed, making them powerful tools for fighting climate change.
  • Improves Air Quality – Cleaner energy means fewer pollutants like sulfur dioxide and nitrogen oxides are released, resulting in better air quality and fewer health problems like asthma and heart disease.
  • Supports Sustainable Growth – As renewable capacity increases, countries can support economic growth without the added burden of pollution and climate impact.
  • Conserves Natural Resources – Renewable sources like sunlight and wind are abundant and infinite, unlike fossil fuels that are limited and environmentally damaging to extract.

Why is this So Important for Our Future?

Climate scientists warn that if global emissions continue at the current pace, we could see increasingly severe consequences from climate change from, droughts and heat waves to floods and rising sea levels. Reducing our carbon footprint isn’t just a technical goal; it’s a necessity for protecting ecosystems, agriculture, coastal communities, and even global economies.

Reducing carbon footprint is essential for combating global warming, improving air quality, and protecting ecosystems. Transitioning to renewable energy not only helps the environment but also supports economic growth, energy security, and technological innovation.

Conclusion

Renewable energy is one of the most powerful tools we have to reduce our carbon footprint and protect the planet for future generations. By producing electricity without burning fossil fuels, technologies like solar and wind cut greenhouse gas emissions, improve air quality, and conserve natural resources. Companies such as NECON Group of Companies are helping make this transition possible by building and innovating clean energy solutions that are reliable, efficient and scalable.

The Rise of Community Wind Projects Around the World

1. Renewable Energy Allocation Gets a Major Boost

One of the standout features of Budget 2026 is the significant increase in funding for renewable energy. The Ministry of New and Renewable Energy (MNRE) received one of its largest ever allocations, signaling a strong policy push toward clean power expansion.

Key Budgetary Numbers

  • Overall renewable energy allocation has been raised to roughly ₹32,914.7 crore, a substantial increase from previous years.
  • The PM Surya Ghar: Muft Bijli Yojana India’s flagship rooftop solar program received ₹22,000 crore, up nearly 29% from the previous budget estimate.
  • Solar energy outlay across the sector is reported at ₹30,539 crore, representing a jump of over 30%.

What this means: These budgetary enhancements reflect the government’s intent to expand both large-scale and distributed solar power across India, making solar a central plank in India’s clean energy roadmap.

2. Strong Emphasis on Solar Manufacturing and Value Chains

Beyond expanding rooftop installations and overall spending, Budget 2026 places a strong emphasis on developing solar manufacturing within India, a crucial step toward reducing import dependence and creating jobs.

Customs Duty Exemptions

  • Capital goods for lithium-ion cell manufacturing used in energy storage systems will now attract nil basic customs duty (BCD).
  • Sodium antimonate, a key input for manufacturing solar glass, also enjoys duty exemptions, significantly reducing production costs.

This duty relief is designed to strengthen domestic solar panel and battery manufacturing capabilities, promote local supply chains, and make India more competitive on the global stage. Manufacturers and industry stakeholders have responded positively, highlighting that these steps will reduce costs and enhance India’s global competitiveness.

3. Battery Storage, The Cornerstone of a Stable Solar Grid

Solar energy is inherently variable, producing power only when the sun shines. To ensure grid stability and effective consumption, energy storage is paramount.

Budget 2026 recognises this and includes policy incentives for battery manufacturing, especially battery energy storage systems (BESS). Exempting lithium-ion battery manufacturing equipment from customs duties will:

  • Strengthen domestic BESS production.
  • Lower costs for grid-scale storage solutions.
  • Support smoother integration of solar power into India’s energy mix.

Industry experts say that stronger storage capacity will enable India to better manage solar intermittency, reduce dependence on fossil fuel plants for peak support, and uphold grid reliability.

4. Carbon Capture Utilization and Storage (CCUS): A New Focus

In a major first for India’s energy budgets, Budget 2026 earmarked ₹20,000 crore over five years for Carbon Capture, Utilization and Storage (CCUS).

Why CCUS Matters

CCUS technology helps industries capture carbon emissions from hard-to-decarbonise sectors such as steel, cement, and refining industries that are difficult to clean entirely using renewable energy alone. By investing in CCUS, India:

  • Signals a serious commitment to deep decarbonisation.
  • Creates a pathway for heavy industries to reduce emissions.
  • Builds credibility with global partners and investors targeting net-zero value chains.

Industry reactions indicate that this CCUS investment bridges technology innovation with climate action, positioning India as a key player in the global decarbonisation narrative.

5. PM Surya Ghar & Rooftop Solar: Power to Households

The PM Surya Ghar: Muft Bijli Yojana continues to be flagship programs for distributed solar adoption. Under this scheme:

  • The government provides financial support for rooftop solar installations on homes.
  • Homeowners benefit via lower electricity bills, greater energy independence, and a share in India’s net-zero mission.

With an almost ₹22,000 crore budgetary commitment, this program aims to take solar power into millions of households, directly empowering citizens and decentralising solar generation.

6. PM-KUSUM: Solar for Rural India and Agriculture

The Pradhan Mantri Kisan Urja Suraksha Evam Utthan Mahabhiyan Yojana (PM-KUSUM) program, which encourages solar pumps and decentralised solar grids for farmers, also saw a significant enhancement in its budget.

This aligns with the government’s rural electrification goals, helping farmers:

  • Gain affordable and reliable energy sources.
  • Reduce dependency on diesel and grid power.

By linking solar energy with agricultural productivity, India is strengthening energy inclusion and rural growth.

7. Industry Reactions: Broad Support and Expectations

The renewable energy sector has largely reacted positively to Budget 2026, highlighting several key themes:

  • Clear Policy Signals: Industry leaders say the budget provides much-needed policy clarity, especially on customs duty exemptions, domestic manufacturing incentives, and storage prioritisation.
  • Manufacturing & Self-Reliance: Executives emphasised that supporting local production, especially for solar panels, components, and batteries, aligns with India’s larger goal of becoming a clean energy manufacturing hub.
  • Financial and Market Confidence: Greater capital expenditure, stronger budget allocations, and supportive tax policies are expected to boost investor confidence and stimulate private sector engagement.

While responses are generally upbeat, industry experts also stress the need for timely implementation and demand certainty to realise the full benefits of these budgetary measures.

8. Broader Economic and Infrastructure Context

Budget 2026 isn’t just about energy; it reinforces infrastructure and manufacturing growth across sectors:

  • India’s capital expenditure was increased to ₹12.2 lakh crore, supporting infrastructure that indirectly benefits renewable deployment.
  • Strategic initiatives such as rare earth corridors and semiconductor missions also support critical energy technologies needed for solar and storage equipment.

This comprehensive growth framework complements the solar and renewable agenda, anchoring India’s energy transition within a broader economic strategy.

9. What This Budget Means for India’s Energy Future

The Solar Budget 2026 signals several important strategic shifts:

  • Solar and renewables remain a top government priority.
  • Domestic manufacturing will be incentivised and supported on a scale.
  • Grid stability and energy storage are acknowledged as essential enablers.
  • Climate technology and decarbonisation initiatives are embedded in fiscal planning.

Collectively, these measures:

  • Strengthen India’s clean energy ecosystem.
  • Reduce fossil fuel dependency and energy imports.
  • Enable technological innovation and job creation.
  • Propel India toward its 500 GW non-fossil energy target by 2030 and Net-Zero by 2070 goals.