Modelling & Analysis
Modelling Studies
Dispersion modelling: Dispersion modelling is essential to forecast and estimate the impact of policies on air quality. Researchers typically use existing models such as the Weather Research and Forecasting (WRF) model and CAMx for this purpose. These models consider variations in weather patterns and local emission loads to estimate particle dispersion across a given geography. These models are well-accepted and used in various parts of the world. CAPS will build capacity in the use of these computation tools.
Policy Engagement
Clean Air Action Plan (CAAP)
CAPS is preparing Clean Air Action Plans for the cities of Patna, Gaya, and Muzaffarpur in Bihar.
What we do
Air quality in most Indian cities is worsening due to the haphazard growth in transportation, construction, industrial activity, and power generation. How can we follow a developmental path that leads to better air quality, without necessarily compromising on economic growth? This is the central question facing policymakers and citizens today. The onus of bringing change is not the responsibility of the government alone. Active involvement from different stakeholders in the society is necessary to make collective and informed decisions and implement them.
Air pollution
India is facing an environmental crisis from anthropogenic pollution. While India has adopted policies (such as the National Clean Air Action Programme) to mitigate air pollution, the lack of scientific evidence is hindering the implementation and effectiveness of these policies. CSTEP established the Centre for Air Pollution Studies (CAPS) envisioning a combination of science-based knowledge, techno-economic assessment of mitigation options, as well as policy assessment and advocacy on various aspects of air pollution to reduce its impact on human health and the environment.
Enter Solar Industry : Error 404, recycling not found!
An efficient recycling ecosystem will greatly help in reducing the loss of critical materials. It will promulgate our collective efforts in climate change mitigation, in a more holistic manner. We must embark on this aspirational journey, keeping in mind these three tenets of waste management. Our endeavours must stay put on sustainability in the age of neo-energy transformation.
Zero energy buildings: Decarbonising India by tapping the sun
Net Zero Energy Buildings (NZEBs) - 100% energy-efficient, sustainable buildings - can be a game changer, not only for India’s building sector, but also for the energy sector. NZEBs have lower energy demand than that of conventional buildings and produce at least as much energy as they consume in a year, through onsite renewable energy technologies. NZEBs are commonly grid-connected to save battery costs. This allows them to draw electricity at night and during cloudy days, and return an equivalent amount of electricity to the local grid on sunny days.
India could save nearly 50 percent of its electricity using LEDs and smart lighting
LEDs consume 80-85 percent less electricity than conventional lighting sources and have much higher operating lifetimes (more than 50,000 hours). Unlike the preceding generation of lights – Compact Fluorescent Lamps (CFLs) – LEDs release zero mercury toxicity into the environment.
A new water policy: let’s get it right
Competing priorities of multiple stakeholders concerning water need to be managed while working towards a common vision of a water-secure future. Integrating the IWRM approach to the new state water policy will help achieve this objective and ensure that water management is efficient and sustainable.
International Institute of Information Technology Bangalore (IIIT-B)
International Institute of Information Technology Bangalore (IIIT-B)
Urban Emissions
Urban Emissions