India is now the eighth-largest lithium reserve country thanks to discovery in Jammu & Kashmir.
To meet its global commitments, India is planning to reduce fossil-fuel-based power generation by targeting 500 GW of non-fossil fuel capacity by 2030.
The growth of the Indian petrochemical industry can be made sustainable only by mitigating the emissions from it.
The National Green Hydrogen Mission envisions India to be a leading manufacturer and a major hub for green hydrogen in the world.
As a rapidly developing nation, India is currently the world’s fourth-largest emitter of greenhouse gases.
India is committed to its net-zero goals by 2070, and the decarbonisation of the transport sector through vehicular electrification is a major cornerstone.
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.
The electric vehicle (EV) segment in India has witnessed a phenomenal growth in the last few years.
India is among the top five leading countries in solar power installed capacity.
India generates an enormous amount of waste, including municipal solid waste (MSW), industrial waste, hazardous waste, and biological waste.
India’s wind capacity target for 2030 is 140 GW, and the current wind installation achieved until April 2023 is 42.
In 2021, Hanson — a subsidiary of Heidelberg Cement in the United Kingdom — substituted 100% of thermal energy with energy from alternative fuels in one of its cement kilns by using a mixture of hydrogen (39%), glycerine (49%), and meat and bone meal (MBM; 12%) instead of coal.
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.