Shubha Verma
Principal Investigator, Aerosols Air Pollution Climate Research Group (ACRG), a facility of the Civil Engineering Department at IIT-Kharagpur
My group work mainly involves mathematical applications to solve Environmental pollution
problems, specifically due to aerosols and air pollution. We execute aerosol simulations of physical, chemical, optical, and radiative properties and their transport and distribution to examine the complex unresolved issues related to aerosols-air pollution climate health interactions. These simulations are targeted to leading towards designing sustainable climate change mitigation
measures. Simulations are done in regional-to-global scale chemical transport models
... executed in the computing facility of this Laboratory. We also learn through collaborative
research tasks of mutual interest with various national/international organisations, and in
particular with Institut Pierre-Simon Laplace (IPSL), Climate Modelling Centre (IPSL-
CMC), Paris, France. To improve the representation of aerosol characteristics in the
models, examine the dynamics of aerosol processes in the vicinity of changing seasonal,
coastal, and diurnal meteorology, and monitor aerosols and air quality over the Indian
region, we also execute field campaigns and ground-based observations.
My research work started with atmospheric modelling of aerosols and I think it
corresponded to a few salient contributions in terms of modelling the aerosol distribution
over the Indian subcontinent for the Indian Ocean Experiment (INDOEX), including the
origin of their sources (region and source-sectors). This work involved implementing the
tagged regions, (conceptualising a new technique of tagging regions by their distinct
emission flux composition) in the general circulation model (GCM), and so-called design of
“region-tagged simulations”. The mechanism of the lofted feature of aerosol transport and
sources of their origin, the regional and intercontinental transport of aerosols, and further,
the distribution of radiative forcing of aerosols by their emission sources were examined.
In recent past, this research group finished conducting a two-year campaign which involved simultaneous measurements of aerosol optical and chemical properties over eastern India in an urban atmosphere (at Kolkata) and a semi-urban atmosphere (Kharagpur). To the best of our information, these measurements provide first of a detailed study towards the understanding of aerosols in eastern India. Salient research questions which have been targeted to answer include, such as: why aerosols are in general high over the Indo-Gangetic plain? Why aerosol loading typically peaks to a large value over eastern India (see our manuscripts for details)? How do aerosols vary under inter-seasonal and sea-breeze influenced transport processes over eastern India? What leads to the temporal and vertical distribution of aerosol pollutants vary during winter and summer months? How do chemical characteristics of fine atmospheric particles over eastern India differ during winter and summer? There are many other unanswered questions which are further being explored and is under progress of manuscripts preparation.
This research group has recently
♦Designed and fabricated an Aerosol Sampler called as “Submicron Aerosol
Sampler (SAS)” for a simultaneous but discrete collection of water-soluble
inorganic ions and carbonaceous aerosols (discretely sampled for a better
characterization) alongwith online flowrate measurements. This SAS has successfully been implemented for ambient
aerosol measurements (refer to Priyadharshini et al., 2019).
♦Developed an algorithm which uses fuzzy C-mean clustering method to cluster the
back trajectory data and emission flux mapping to locate sources of pollution and its
chemical composition. This developed tool is useful for aerosols and air quality
management strategies and mitigation measures (refer to Kumar and Verma, 2016).
There has been a strong urge to improve the prediction of aerosols in models over the
Indian subcontinent. The inadequate performance of the aerosol model with respect to
observations has been leading to limiting its application to pollution control sustainable
measures. Our measurements data led to provide useful insights on aerosols, air
pollutants, meteorological processes and emission sources. A constrained simulation
approach has been designed for integrating measurements and modelling methods in a
GCM. This approach has delivered an adequate prediction of aerosol species, both
prognostically and diagnostically.
Further, the development of an aero-opt (Matlab package) useful to estimate concentration
and optical properties of aerosol components from the limited available aerosol
observations is under progress. This new aerosol model which is user-friendly and
computationally less expensive will soon be delivered as free access for public usage.
Visit our published manuscripts and webpage to get a glimpse of our research contributions and collaborations!
We also participate in social activities related to Environmental pollution mitigation
measures through public awareness, including delivering lectures at various social or
academic platforms, and educating masses for the required individual-based self actions
to mitigate pollution.
Acknowledgements: To My Mentors, Collaborators, and all Students, and Research staff of this group
Sauvik Santra, Ph.D. student
Sauvik Santra completed his Master of Technology in Water Resources Engineering from Indian Institution of Engineering Science and Technology (IIEST), Shibpur. After completing his Masters, he developed an interest in modeling the impact of Air pollution on the hydrological cycle. He is currently working as a Research Scholar at Indian Institute of Technology (IIT), Kharagpur, where his primary objective is to evaluate the direct and indirect effect of anthropogenic aerosols on the climate change.
Kanishtha Dubey, Ph.D. student
Area of Research: Source of aerosol pollutants and mitigation strategy
I am a Ph.D. student working with a focus on source apportionment of aerosols and their mitigation strategies. I am also looking into the chemical characterization of fine atmospheric aerosols. I earned a Master's degree in Environmental Engineering from SRM Institute of science and technology and a Bachelor's degree in Civil Engineering from Bhilai Institute of Technology. My M.Tech. research work includes measurement and source apportionment of Organochlorine Pesticides in the atmosphere of Tamil Nadu.
Valasani Srilekha, Ph.D. student
Area of research: Atmospheric Pollution: Mitigation
I am a Research Scholar having more interest to work on Sustainable materials that can help in reduction of atmospheric pollution. My current research work focuses mainly on Developing a reduction technology for aerosol pollutants. I earned my Master’s degree in Environmental engineering from National Institute of technology Warangal in 2020 and my Bachelor’s degree in Civil Engineering from Visvesvaraya National Institute of Technology, Nagpur in 2018. My Master’s research work was on Utilisation of Biomedical waste Incinerator Bottom Ash as a Construction material and that of B.tech was on Development of Management plan for eco-safe Idol Immersion in Nagpur Lakes.
Shubham Patel, Ph.D. student
Vyasnavi kk, Ph.D. student
My research focuses on the air pollution and chemical composition forecast over India using Machine Learning/Artificial Intelligence models. I am also working on developing a model to determine the aerosol optical properties and mass concentration of aerosol species over different Indian cities with limited input data (Aerosol optical depth, Angstrom exponent, total aerosol mass, mass of soot, height profile, relative humidity).
Rhitamvar Ray, Project Engineer
Numerical Modelling: Stable Installation, Simulations, Data Extractions, Data Management, Plotting.
Webpage: Creation
System Administrator: Linux and Windows. HPC & WS
Shubha Verma's Group main page
Dr. Shubha Verma , Civil Engg. Dept. IIT KGP
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