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- India added a record 10 Gigawatt (GW) of solar energy to its cumulative installed capacity in 2021. This has been the highest 12-month capacity addition, recording nearly a 200% year-on-year growth.
- India has now surpassed 50 GW of cumulative installed solar capacity, as on 28 February 2022.
- This is a milestone in India’s journey towards generating 500 GW from renewable energy by 2030, of which 300 GW is expected to come from solar power.
- India’s capacity additions rank the country fifth in solar power deployment, contributing nearly 6.5% to the global cumulative capacity of 709.68 GW.
Areas of concern to highlight.
- First, of the 50 GW installed solar capacity, an overwhelming 42 GW comes from ground-mounted solar photovoltaic (PV) systems, and only 48 GW comes from roof top solar (RTS); and 1.48 GW from off-grid solar PV.
Solar photovoltaic (PV) systems,
- The large-scale solar PV focus fails to exploit the many benefits of decentralised renewable energy (DRE) options, including reduction in transmission and distribution (T&D) losses.
- One of the primary benefits of solar PV technology is that it can be installed at the point of consumption, significantly reducing the need for large capital-intensive transmission
- This is not an either/or situation; India needs to deploy both large and smaller-scale solar PV, and particularly needs to expand RTS efforts.
Why is India falling short in roof-top solar installations?
- RTS deployment stands at 6.48 GW in 2021, far short on the Union Government’s target of 40 GW of RTS by end 2022.
- There is limited financing for residential consumers and Small and Medium Enterprises (SMEs) who want to install RTS.
- Coupled with lukewarm responses from electricity distribution companies (DISCOMS) to supporting net metering, RTS continues to see low uptake across the country.
Challenges to India’s solar power capacity addition
- Despite significant growth in the installed solar capacity, the contribution of solar energy to the country’s power generation has not grown at the same pace.
- In 2019-20, for instance, solar power contributed only 3.6% (50 billion units) of India’s total power generation of 1390 BU.
- The utility-scale solar PV sector continues to face challenges like land costs, high T&D losses and other inefficiencies, and grid integration challenges.
- There have also been conflicts with local communities and biodiversity protection norms.
- Also, while India has achieved record low tariffs for solar power generation in the utility-scale segment, this has not translated into cheaper power for end-consumers.
What’s the state of India’s domestic solar module manufacturing capacity?
- Crisil’s report on the subject highlights that as on March 31, 2021, India had 3 GW capacity for solar cell production and 8 GW for solar panel production capacity.
- In 2021-22, India imported nearly $76.62 billion worth solar cells and modules from China alone, accounting for 78.6% of India’s total imports that year.
- Low manufacturing capacities, coupled with cheaper imports from China have rendered Indian products uncompetitive in the domestic market.
- This situation can, however, be corrected if India embraces a circular economy model for solar systems. This would allow solar PV waste to be recycled and reused in the solar PV supply chain.
- By the end of 2030, India will likely produce nearly 34,600 metric tonnes of solar PV waste.
- The International Renewable Energy Agency (IRENA) estimates that the global value of recoverable materials from solar PV waste could exceed $15 billion.
- Currently, only the European Union has taken decisive steps in managing solar PV waste.
key takeaways from India’s solar story
- India has grown from strength to strength in overcoming barriers to achieve the 50 GW milestone in Feb 2022.
- In addition to an impressive domestic track record, through the International Solar Alliance (ISA) established by India and France at COP-21 in 2015, there is a global platform to bring countries together to facilitate collaboration on issues such as mobilising investments, capacity building, program support and advocacy and analytics on solar energy.
Way Forward
- Governments, utilities, and banks will need to explore innovative financial mechanisms that bring down the cost of loans and reduce the risk of investment for lenders.
- Increased awareness, and affordable finance for RTS projects could potentially ensure the spread of RTS across the scores of SMEs and homes around the country.
- Aggregating roof spaces could also help reduce overall costs of RTS installations and enable developing economies of scale.
Question:
Absorption of Solar radiations at earth’s surface occur due to presence of
- Ozone
- Water vapours
- Carbon di-oxide
- All of the above
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