India Solar Energy Market Outlook 2022
At the recently concluded 26th session of the Conference of the Parties (COP26) in Glasgow, India announced that it will raise its non-fossil energy capacity to 500 GW by 2030. Solar energy will play a key role in achieving this target.
Global Warming at Doorstep, We Need Planning with Climate Lens
Karnataka experienced floods this year - the fourth consecutive year since 2018. In the past decade, Karnataka has also experienced drought conditions.
Capacity-Building Workshop for Clean Air: Kalaburagi
The Center for Study of Science, Technology and Policy in collaboration with the Karnataka State Pollution Control Board organised a capacity-building workshop on implementing the 'Kalaburagi City Micro Action Plan' at the District Science Centre, Kalaburagi, on 11 March 2022 at 10 a.m..
H2 – The Nuts and Bolts
The Center for Study of Science, Technology and Policy organised a webinar titled ‘H2 – The Nuts and Bolts’ to explore the opportunities and challenges involved in developing a green hydrogen economy in India.
Eminent panellists discussed the nuts and bolts of building a green hydrogen economy in India during the webinar, which was conducted on 16 March 2022 from 3 p.m. to 4:30 p.m.
Satellite-Based Mapping of PM2.5 for Kanpur
Regulatory air pollution monitoring in India is mostly limited to urban areas. Without a dense network of monitors, it is difficult to capture the fine spatial variations of PM2.5, one of the major pollutants with severe implications for human health.
Using satellite-based products to estimate PM2.5 can help generate high-resolution gridded spatial maps at a significantly lower cost. These spatial maps can be useful for policymakers, urban planners and developers, and health researchers. They can also be instrumental in guiding clean air action plan for the city.
Satellite-Based Mapping of PM2.5 for Delhi-NCR
Regulatory air pollution monitoring in India is mostly limited to urban areas. Without a dense network of monitors, it is difficult to capture the fine spatial variations of PM2.5, one of the major pollutants with severe implications for human health.
Using satellite-based products to estimate PM2.5 can help generate high-resolution gridded spatial maps at a significantly lower cost. These spatial maps can be useful for policymakers, urban planners and developers, and health researchers. They can also be instrumental in guiding clean air action plan for the city.