India’s Solar Capacity: Milestones and Challenges : Daily Current Affairs

Relevance: GS-3 : Infrastructure: Energy, Ports, Roads, Airports, Railways etc

Key Phrases: India’s Solar Capacity Addition, Ground Mounted Solar System, Rooftop Solar System, Off Grid Solar System, On Grid Solar System

Context

  • India added a record 10 Gigawatt (GW) of solar energy to its cumulative installed capacity in 2021.
  • India has now surpassed 50 GW of cumulative installed solar capacity, as on 28 February 2022.

Key Highlights

  • This has been the highest 12-month capacity addition, recording nearly a 200% year-on-year growth.
  • 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.
  • Of the 50 GW installed solar capacity
    • 42 GW comes from ground-mounted solar photovoltaic (PV) systems,
    • 6.48 GW comes from rooftop solar (RTS).
    • 1.48 GW from off-grid solar PV.

Ground-mounted solar panel system

  • Ground-mounted solar panels can be installed any place on your property that has sufficient open space and good sun exposure.
  • The panels can be placed anywhere from a few inches to a few feet off the ground, depending on how the racking system is set up.

Rooftop Solar (RTS)

  • A roof mount is the most common type of installation.
  • This is when the solar racking, which holds the panels in place, is installed directly on the roof.
  • Panels can be attached to flat or sloping roofs consisting of metal, shingle, or rubber materials.

Off-Grid Solar PV

  • An off-grid PV system refers to an installation that is not connected to the electricity grid.
  • This means that all the energy produced is stored and used on site.
  • Essentially, off-grid photovoltaic systems operate from the energy stored in a battery bank.

On Grid Solar PV

  • An on-grid system is tied to your local utility’s grid. In this instance, whether your solar system under or over-produces, your utility providers’ system will act as battery space.

Roof-top Solar (RTS) Installations

  • RTS deployment stands at 6.48 GW in 2021, far short of the Union Government’s target of 40 GW of RTS by end 2022.
  • India needs to deploy both large and smaller-scale solar PV, and particularly needs to expand RTS efforts.
  • Benefits of RTS
    • 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 infrastructure.
    • The large-scale solar PV focus fails to exploit the many benefits of decentralized renewable energy (DRE) options, including reduction in transmission and distribution (T&D) losses.
    • Aggregating roof spaces could also help reduce overall costs of RTS installations and enable developing economies of scale.
  • Reasons for Falling Short in RTS
    • 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

  • Slow Pace of Growth
    • 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.
  • Inefficiencies
    • The utility-scale solar PV sector continues to face challenges like land costs, high T&D losses and other inefficiencies, and grid integration challenges.
  • Environmental Concerns
    • There have also been conflicts with local communities and biodiversity protection norms.
  • Low Manufacturing Capacities
    • Backward integration in the solar value chain is absent as India has no capacity for manufacturing solar wafers and polysilicon.
    • 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.
  • High Cost for Consumers
    • 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.

State of India’s Domestic Solar Module Manufacturing Capacity

  • Domestic manufacturing capacities in the solar sector do not match up to the present potential demand for solar power in the country.
  • 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.
  • 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.
  • India could look at developing appropriate guidelines around Extended Producer Responsibility (EPR).
    • It means holding manufacturers accountable for the entire life cycle of solar PV products and creating standards for waste recycling.
  • This could give domestic manufacturers a competitive edge and go a long way in addressing waste management and supply side constraints.

Way Forwards

  • 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.
  • Through the International Solar Alliance (ISA) there is a global platform to bring countries together to facilitate collaboration on issues such as mobilizing investments, capacity building, program support and advocacy and analytics on solar energy.
  • Technology sharing and finance could also become important aspects of ISA in the future, allowing for meaningful cooperation between countries in the solar energy sector.

Conclusion

  • The steep rise in large, ground-mounted solar energy is indicative of the strong push towards increasing the share of utility-scale solar projects across the country.
  • India has grown from strength to strength in overcoming barriers to achieve the 50 GW milestone in Feb 2022. The destination is clear, and the journey is progressing.
  • As India attempts to deal with some of the shortcomings identified above, India’s solar story will continue to provide important lessons for other developing countries that are looking to transition to clean energy.

Source: The Hindu

Mains Question:

Q. What are the challenges to India’s solar power capacity addition? Discuss the state of India’s domestic solar module manufacturing capacity. 250 Words.