×

img Accessibility Controls

Research Projects Banner

Research Projects

Understanding the role entrainment on warm clouds over South Asia using Lagrangian Cloud Model

Implementing Organization

Newman College Thodupuzha, Kerala
Principal Investigator
Dr. Subin Jose
Newman College Thodupuzha, Kerala

About

Clouds, which are dilute and disperse suspensions of droplets in moist air, significantly influence Earth's energy budget and hydrological cycle. Warm clouds, which constitute about 30% of Earth's surface area, can counteract warming induced by greenhouse gases. Marine stratocumulus clouds can offset warming if their albedo increases by ~6%. The fundamental physics of warm cloud microphysics are well established, but uncertainties propagate as scale increases, causing the largest uncertainties in predicting future climate. Key physical processes controlling the radiative properties of clouds include radiative driving, turbulence, surface fluxes, latent heat release, and entrainment. Entrainment, which involves the mixing of moist air with dry air in the free troposphere, is the most uncertain. Quantifying the type of homogenization is crucial as it significantly influences the radiative properties and evolution of clouds to precipitation embryos. To overcome limitations in remote sensing techniques, large eddy simulations (LES) models are the best solution. Currently, most LES models use the Eulerian bulk and bin approach for parametrizing cloud microphysics and thermodynamic variables. However, recent studies suggest that cloud modelling based on the Lagrangian particle-based approach can overcome these disadvantages and simulate the interaction between aerosol and cloud particles. The proposed study aims to unravel the effect of mixing in polluted warm clouds using a Lagrangian cloud model.

Source

Source
Science and Engineering Research Board (SERB), DST 2022-23
Funding Organization
Funding Organization
Science and Engineering Research Board (SERB), New Delhi
Quick Information
Area of Research
Earth, Atmosphere & Environment Sciences
Start Date
2022
End Date
2024
Status
Completed
Contact
subinjose22@gmail.com
Output
No. of Research Paper
00
Technologies (If Any)
00
No. of PhD Produced
00
Publications
00
No. of Patents
Filed : 00
Grant : 00
Disclaimer: Information available on this portal is sourced from various organizations and is provided for informational purposes only. Users are advised to verify details from the respective official sources.
arrowtop
Latest Updates
Loading…