India’s Solar Power Growth to Generate 600 Kilotonnes of Waste by 2030: Implications and Solutions

Key Takeaways:


  • Solar power capacities in India are set to produce a significant amount of waste by 2030.
  • This waste is estimated to reach 600 kilotonnes as a result of existing and upcoming solar projects.
  • The problem of managing this waste poses a challenge for the country’s renewable energy sector.

India’s transition towards renewable energy, particularly solar power, is expected to bring about a significant challenge in managing the resulting waste. As per a report, the existing and upcoming solar power capacities in the country are anticipated to generate around 600 kilotonnes of waste by the year 2030. This raises concerns about the need for effective waste management strategies to mitigate the environmental impact and ensure sustainability in the renewable energy sector.

While the expansion of solar power is a positive step towards reducing carbon emissions and promoting clean energy, the issue of waste generated from solar panels and other equipment cannot be overlooked. The report highlights the necessity for cohesive policies and mechanisms to address this waste management challenge.

The magnitude of waste expected to be produced underscores the urgency for stakeholders, including government bodies, industries, and waste management authorities, to collaborate in developing efficient recycling and disposal methods. It is vital to implement sustainable practices that minimize the environmental footprint of solar power projects and support the circular economy principles.

Educating the public and raising awareness about proper disposal methods for solar waste is also crucial to ensure responsible and eco-friendly practices within the renewable energy sector. By proactively addressing the waste management issue associated with solar power capacities, India can uphold its commitment to sustainable development and environmental preservation.

Read the full story by: The Hindu Business LineLink to Article

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