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India made major progress in renewable energy in 2024. With record solar and wind capacity additions, strong government support, and growing domestic manufacturing, the country is moving steadily toward its clean energy goals for 2030.

Notably, India’s Ministry of New & Renewable Energy (MNRE) revealed that the country’s solar energy capacity reached 94.17 GW in 2024.

india solar
Source: Chart taken from SolarPower Europe Report

Solar Power Leads in Renewable Growth

Solar energy remained the main driver of renewable growth, making up 47% of India’s total renewable energy capacity.

2024 Solar Snapshot: 

Exploring further, MNRE data showed that India added 24.5 GW of solar and 3.4 GW of wind energy —the highest ever in a single year.  Solar capacity was more than double from 2023, while wind grew by 21%.

  • Utility-scale solar: India installed 18.5 GW of utility-scale solar projects, which was nearly 2.8 times more than in 2023. Rajasthan, Gujarat, and Tamil Nadu led this growth, together contributing 71% of these installations.
  • Solar Sector: The rooftop solar sector also saw strong momentum, adding 4.59 GW of capacity—an increase of 53% from 2023. A major factor behind this growth was the PM Surya Ghar: Muft Bijli Yojana, which helped 7 lakh homes install rooftop solar systems within ten months.
  • Off-grid solar: Also recorded strong growth. With 1.48 GW added in 2024, this segment grew by 182%, helping bring electricity to more rural areas.

India’s Solar Manufacturing in 2025 and Beyond (2030)

As of January 20, 2025, India’s total non-fossil fuel energy capacity reached 217.62 GW. The country is aiming for 500 GW of non-fossil fuel-based energy capacity 2030 by 2030, and these new additions are a strong step in that direction.

However, it is rapidly emerging as a solar energy powerhouse.

In February 2025, the country surpassed 100 GW of installed solar capacity, becoming the fourth nation worldwide to reach this milestone. More than half of this capacity was installed in just the past three years. It’s a remarkable leap from only 2.8 GW in 2014.

Looking ahead, India plans to expand its solar production capacity significantly. SolarPower Europe highlighted:

  • By 2030, solar module capacity is expected to reach 160 GW, while solar cell capacity is projected to hit 120 GW. This will strengthen India’s position as a renewable energy manufacturing hub.

Notably, with continued government support, the country plans to ramp up its module production capacity to 100 GW by 2030.

  • Modules: 80 GW (2025) → 160 GW (2030)
  • Cells: 15 GW → 120 GW
  • Wafers & Polysilicon: 6 GW → 100 GW each

These figures highlight India’s goal to reduce import dependency and build a fully integrated solar manufacturing ecosystem.

solar India
Source: Chart obtained from SolarPower Europe

Strong Government Support Fuels Solar Growth

With record capacity additions last year and strong support from the government, India is on the right path to becoming a global clean energy leader. The Ministry of New & Renewable Energy (MNRE) played a key role in the sector’s progress. It focused on expanding domestic manufacturing of solar PV and wind turbines, which is essential to reduce import dependence and cut costs.

It also proposed major investments in power grid infrastructure, especially inter-state transmission lines. This will help transfer renewable power from energy-rich states like Rajasthan and Gujarat to other parts of the country.

Jawaharlal Nehru National Solar Mission (JNNSM)

Furthermore, policy interventions like the Jawaharlal Nehru National Solar Mission (JNNSM), launched in 2010, laid the groundwork for these advancements. This mission helped transition India from high solar tariffs of ₹10.95/kWh in 2010 to as low as ₹2.5-2.6/kWh by 2025 through competitive bidding and other reforms.

The Production Linked Incentive (PLI) scheme

The PLI scheme, worth ₹24,000 crore (~$3 billion), is playing a major role here. Policies like import duties on solar modules (40%) and cells (20%), Domestic Content Requirements (DCR), and approved lists for modules and cells (ALMM & ALCM) are all aimed at encouraging domestic production.

Teaming Up with the EU for a Greener Future

Many Indian companies are now preparing to meet rising demand not only from within India but also from other countries.

One of the most important goals is to turn India into a global export hub for solar technology, and solar panels will play a pivotal role here. This will boost both India’s energy independence and its role in the global clean energy shift

In this perspective, India is also teaming up with the European Union (EU) to strengthen solar manufacturing. A new alliance between the two aims to promote cooperation in green technology.

  • By sharing expertise and resources, India and the EU plan to speed up innovation, cut costs, and meet clean energy targets faster.

This partnership is expected to give India access to advanced solar technology and help boost its ability to produce high-quality solar modules and cells. As a result, exports of solar products from India are likely to grow rapidly with rising global demand and competitive prices.

What’s Next for India’s Solar Sector?

By 2030, experts say India’s solar industry could play a major role in helping the world meet climate goals. With plans to produce 160 GW of solar modules and 120 GW of cells, India is well on its way to becoming a key player in the global solar supply chain.

As the world moves toward cleaner energy, India’s leadership in solar technology could serve as a model for others. Its focused and forward-looking approach is positioning the country at the heart of the global energy transition.

The post India Hits 100 GW Solar Milestone, Eyes Global Solar Export Hub with EU Partnership appeared first on Carbon Credits.

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How to improve Scope 3 data accuracy for CSRD

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For most businesses, the emissions that matter most sit outside their own walls. Scope 3 emissions, everything generated across your value chain, from the suppliers who make your inputs to the customers who use your products, typically make up the majority of a company’s total carbon footprint. Under the Corporate Sustainability Reporting Directive (CSRD), those value-chain emissions now have to be measured and disclosed with a rigour that spend-based estimates alone struggle to satisfy. This guide sets out how to improve Scope 3 data accuracy for CSRD: the calculation methods open to you, how to move from estimates to verified supplier data, and how to govern that data so it holds up to audit.

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How community stewardship makes carbon credits durable

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A carbon credit is a commitment that extends well into the future. The tonne of CO₂ compensated for today from a nature-based carbon project must remain out of the atmosphere for good, which means the forest behind the credit has to remain standing long after the transaction is complete. For any buyer, this raises a defining question: What ensures that the forest endures?

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Why Conventional Carbon Offsets Are Losing Boardroom Credibility

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What replaced the cheap REDD credit on the boardroom slide deck, and why procurement is leading the rewrite.

Three years ago, a corporate slide showing a portfolio of cheap REDD+ credits could carry a board meeting. The number was big, the price was low, and the press release wrote itself. Today, that same slide gets sent back with questions. The questions are uncomfortable, the answers are unclear, and your general counsel is suddenly in the room.

Conventional carbon offsets are not dead. The voluntary carbon market retired 202 million tonnes in 2025, and the Morgan Stanley Institute for Sustainable Investing survey published in January 2026 confirmed that interest from corporate buyers remains substantial. What changed is the credibility threshold. The integrity floor has risen, the disclosure scrutiny has tightened, and the buyer profile has shifted. This article tracks what changed, what sophisticated buyers now ask before signing, and what serious corporates are putting on the board slide instead.

What boards used to buy, and why it stopped working

The 2020 to 2022 model was simple: buy a large tranche of avoidance credits at low single-digit prices, retire them against the company footprint, announce the carbon-neutral claim, and move on. Most of those credits came from REDD+ projects, renewable energy installations in countries where the renewable energy was already economic, or methane projects with thin documentation.

Several things broke that model. Academic research published in 2023, including a widely cited Science paper, found that the majority of REDD+ credits issued under the most common methodologies did not represent additional reductions when tested against rigorous counterfactuals. The Voluntary Carbon Markets Integrity Initiative published its Claims Code of Practice, which sets requirements for what companies can credibly claim from credit use. The European Union finalised its Green Claims Directive, restricting how companies can describe products as climate-neutral. France’s Décret 2022-539 already restricts carbon neutrality advertising. California’s AB 1305 imposes disclosure requirements on any company making net-zero or carbon-neutral claims while doing business in the state.

The collective effect: the cheap credit no longer buys the announcement, and the announcement now carries litigation risk.

The integrity reset: ICVCM, VCMI, and what changed

The Integrity Council for the Voluntary Carbon Market published the Core Carbon Principles in 2023 and began assessing methodologies against them in 2024. The first methodologies received the CCP label later that year. The point of the label is to give corporate buyers a defensible quality screen they can cite in disclosure.

The Voluntary Carbon Markets Integrity Initiative complements this on the demand side. Its Claims Code of Practice defines what a buyer can say (Silver, Gold, or Platinum claims, with associated requirements) based on the quality of credits used and the underlying decarbonisation strategy. Together, CCP and VCMI build a quality stack: CCP on the supply, VCMI on the claim, with the science-based target sitting underneath both.

The reset is not a ban on offsets. It is a ratchet. Credits that meet the new bar continue to clear; credits that do not, do not. The Morgan Stanley survey found that 61% of current buyers like the CCP label concept but that supply of labelled credits remains limited. That supply constraint is now visible in pricing.

What sophisticated buyers ask before they sign

The questions on the procurement scorecard have changed. A 2022 buyer might have asked about price, vintage, and project type. A 2026 buyer asks five different questions before any of those.

  • What does the counterfactual look like, and who validated it.
  • What is the permanence regime, and what is the buffer pool exposure.
  • What is the leakage risk, and how is it mitigated.
  • What rating has the project received from the independent ratings agencies (Sylvera, BeZero, Calyx Global), and what was the rationale.
  • What is the documentation discipline that survives an audit four years from now when the procurement team that signed the contract has moved on.

If the vendor cannot answer those five questions on a first call, the conversation ends. Conversely, if the vendor can answer them with documented specificity, the conversation often expands beyond a single transaction toward a multi-year engagement.

Where this leaves your near-term commitments

You probably have near-term commitments that pre-date the integrity reset. Public targets to be carbon neutral by 2025 or 2030. Product-level claims that ran in last year’s marketing. Disclosed reduction trajectories that assumed continued access to cheap credits.

You have three workable paths. The first is to re-baseline your strategy, replacing the most exposed credits with higher-quality alternatives and adjusting the public language to match what you can defend. The second is to shift the underlying spend from offsetting outside your value chain to investing inside your value chain, where reductions count against Scope 3 directly and the audit trail is cleaner. The third is to keep the strategy and absorb the risk, which is increasingly the most expensive option once you price in litigation, restatement, and reputational exposure.

Most serious buyers are choosing the second path. It moves the carbon spend from a compliance cost to a procurement and resilience investment, and it removes the central failure point of the legacy model: the disconnect between where the emissions occurred and where the reductions sat. Nature-based supply chain investments, structured under the GHG Protocol Land Sector and Removals Standard and aligned to the SBTi FLAG Guidance, are the asset class that fits this brief. They generate inventory-grade reductions, they produce audit-grade documentation, and they survive the new claim restrictions because the carbon math sits inside the value chain that the disclosure already covers.

If you are reassessing a carbon strategy under the new integrity bar, or rebuilding a board narrative that has to survive a more skeptical audience, the carbon and sustainability experts at Carbon Credit Capital can help. The Dual-Value Model gives you a defensible alternative to legacy offset purchases, with the documentation and operational integration that survives the procurement scorecard and the audit. Schedule a consultation.

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