Energy is a key factor in combating climate change, one of the biggest challenges the world is facing today. India has committed to cutting emissions to net zero by 2070 and set ambitious targets for adopting renewable energy. Achieving these targets requires careful planning and an overhaul of our current energy system.
Our work aims at enabling policies that encourage the adoption of rooftop solar, facilitate the development of technology for energy storage, strengthen the grid and transmission infrastructure, advance hydrogen technologies, and promote green mobility. CSTEP's research looks at the various aspects of mainstreaming renewable energy for a cleaner, greener energy sector.
Sunny Side: Floating and Canal-top Photovoltaic Technologies Key To Achieve Solar Target
Over the last few years, the use of solar energy has increased considerably in India. While the overall installed solar capacity has increased by 17 times in the last seven years and stood at 47.7 GW as of October 2021, its share in the energy mix is just about 12 per cent, according to Central Energy Authority (CEA) data. This share is likely to increase in the future, considering the steady efforts from the Ministry of New and Renewable Energy (MNRE) towards promoting clean energy technologies.
Strengthened Grids: A Case of Electric Vehicles in Bengaluru
India, the world’s third-largest GHGs emitter, has its transport sector contributing 10% of total national GHG emissions, with road transportation contributing about 87% of the sector’s total emissions. The adoption of electric vehicles (EVs) is one way to bring down emissions. While the Indian Government has issued various policy measures, successful EV uptake lies in policy implementation at the State level.
Costing Analysis of Scalable Carbon-Based Perovskite Modules Using Bottom Up Technique
In recent years, perovskite solar cells (PSCs) have achieved a remarkable power conversion efficiency of 25.5%, indicating that they are a promising alternative to dominant Si photovoltaic (PV) technology. This technology is expected to solve the world's energy demand with minimal investment and very low CO2 emissions. The market has shown a lot of interest in PSCs technology. A technoeconomic analysis is a useful tool for tracking manufacturing costs and forecasting whether technology will eventually achieve market-driven prices.
Press Release - Solar Energy–Based EV Charging: A Pilot and Techno-Economic Study
India has 21 of the 30 cities with the worst air quality in the world. Every year, we keep exploring options to curb air pollution. The transport sector is a significant contributor to air pollution in the cities. The electric vehicle (EV) segment could play a key role in decarbonising the sector. However, to realise green mobility in its truest sense, electric vehicles (EVs) need to run on clean energy. India’s power grid is predominantly coal-based at the moment.
Solar Energy–Based EV Charging: A Pilot and Techno-Economic Study
India has 21 of the 30 cities with the worst air quality in the world. The transport sector is a major contributor (40%–80%) to air pollution in the cities. Hence, decarbonising the transport sector with the deployment of electric vehicles (EVs)is a crucial step in mitigating air pollution. Running an electric vehicle in the USA leads to a greater reduction in CO2 emissions than running it in India since the grid energy (used by the EV) in India is predominantly generated using coal.
Press Release - Study Recommends Differential Pricing for Pumped-hydro Energy Storage in India to Boost RE
A differential pricing mechanism that calculates different pumping and generation prices for pumped-hydro energy storage (PHES) should be employed for its growth in India, recommends a recent study by the Center for Study of Science, Technology and Policy (CSTEP).
On 29 November 2021, the Ministry of New and Renewable Energy (MNRE) announced that the country’s total installed renewable energy (RE) capacity (including hydro) had crossed 150 gigawatts (GW), while also setting a new target of reaching 175 GW capacity of RE by 2022.