With India’s commitment to achieving net zero by 2070, one of the milestones is attaining 500 GW capacity from non-fossil fuel-based sources by 2030.
Rooftop solar is expected to play a major role in India’s 280 GW solar target for 2030.
Novel and viable alternatives are warranted to achieve the 500 GW renewable energy target for 2030.
With an increasing number of countries setting strong net-zero targets, there is a global push for the gradual discontinuation of fossil-fuel usage and the large-scale adoption of renewable energy (RE).
With India’s ambitious 2030 clean energy targets and the 2070 net-zero goal, more was expected from the Union Budget 2023-24 to increase the uptake of electric vehicles (EVs) and solar photovoltaics (PVs).
There has in the last few years been a concerted push from policymakers and thought leaders in India to transition to a circular economy to, among other things, enable effective waste management.
Greenhouse gas (GHG) emissions are a direct cause of human-induced climate change.
The on-road vehicle stock in Bengaluru is expected to grow by 1.
The solar photovoltaic industry is witnessing a remarkable expansion worldwide.
India, a country highly vulnerable to the effects of climate change, has witnessed the devastating impact of cyclones in recent years.
India is among the top five leading countries in solar power installed capacity.
India’s solar photovoltaics (PV) market is rapidly growing.
In the previous article, we discussed the gaps in key areas that hamper the sustained growth of India’s solar PV market.
So far in this series, we discussed different aspects of India’s solar PV sector, including taxation, policies, and the journey towards sustainability.
As India dons the role of a solar superpower, a crucial hurdle in the country’s journey to self-reliance in this sector is the availability of the key raw material—polysilicon.
In an era of escalating environmental concerns and the pursuit of sustainable development, the circular economy emerges as a transformative solution.