Abbas Ranjbar Saadatabadi | Environmental Science | Best Researcher Award
Dr Abbas Ranjbar Saadatabadi, Atmospheric Science & Meteorological Research, ASMERC, Iran
Dr. Abbas Ranjbar Saadatabadi is an accomplished meteorologist with a B.Sc. in Applied Physics from the University of Shahid Bahonar, an M.Sc. in Meteorology from Geophysics Institute in Tehran, and a Ph.D. in Meteorology from Islamic Azad University. He serves as Director of ASMERC, Tehran, and has held several key roles in atmospheric science research. His expertise spans atmospheric circulations, forecasting, and applied physics. Dr. Ranjbar is an active member of numerous professional associations and has significantly contributed to flood forecasting, extreme weather event analysis, and dust storm research in Iran. π¦οΈππ
Publication profile
Education
π With a solid foundation in Applied Physics from the University of Shahid Bahonar, Kerman, Iran (1988-1993), π followed by a Masterβs in Meteorology from the Geophysics Institute, Tehran, Iran (1994-1997), π¦οΈ the scholar pursued a Ph.D. in Meteorology at the Islamic Azad University, Science and Research Branch, Tehran, Iran (1999-2003). πͺοΈ This extensive educational background has equipped them with in-depth knowledge and expertise in the field of meteorology, contributing significantly to their professional and academic pursuits. πβ¨
Experience
π¦οΈ Since 2015, the Director of the Atmospheric Science and Meteorological Research Center (ASMERC) in Tehran, Iran, has led advancements in meteorological research. Previously, from 2013 to 2015, they served as the Deputy Director of ASMERC, and from 2012 to 2013, as a faculty member. They directed the National Drought Warning and Monitoring Center (NDWMC) from 2011 to 2012 and served as Deputy Director from 2010 to 2011. Between 2005 and 2010, they were the Deputy Director of the National Weather Forecasting Center. Additionally, they headed the Department of Satellite Meteorology and New Technologies at IRIMO from 2004 to 2005 and worked as a forecaster from 1999 to 2004. βοΈπ°οΈ
Membership of Professional Associations
ππ National Commission of UNESCO- National Committee of Man and the Biosphere, Associate Member (2012-current). ποΈπ¬ Research Committee of Yazd, Kerman, and Sistan-o-Balochestan provinces (2013-2015). ππ¬ Committee of Science and Technology Exchange in the Union of Countries bordering the Indian Ocean (2013-current). ποΈπ¦οΈ Editorial Board Member, Journal of Climate Research (2015-current) and Journal of Nivar (IRIMO) (2010-current). πͺοΈπ§οΈ Associate Member, Secondary Professional Work Group of Atmospheric Disasters and Storm (2015). π©οΈπ‘οΈ Associate Member, Research Council of the Atmospheric Science and Meteorological Research Centre (2014-current). ππ Scientific Secretary, 3rd International Conference of the Persian Gulf Oceanography (2015). ππ¬ Vice Chairman, Iranian Marine Science and Technology Association (2019).
Project Involvement
πβοΈ Designed and operated a flood forecasting and warning system in Tehran (2018-2020). π§οΈπ Studied heavy rainfall forecasting in Ilam province (2019). π¦οΈπ» Developed a Meteorological and Hydrology Forecast Software System in Qom (2016-2017). π©οΈπ Evaluated extreme weather events using regional climate models in Iran (2016-2017). π§οΈποΈ Investigated precipitation causes of Qazvin urban floods (2016). π§οΈπ Analyzed atmospheric patterns for heavy rainfalls over Bushehr (2015). π¬οΈπ Developed a wind atlas over Iran using numerical atmospheric models (2015). πͺοΈπ Evaluated the EURAD dust storm forecast model (2016). πͺοΈπ Studied atmospheric patterns for dust storms over Isfahan (2013). πͺοΈπ¨ Designed an integrated system for air pollution and dust forecasting (2013). πͺοΈπ Assessed SWAN and MIKE21 model outputs with buoy data in Bushehr (2015). πͺοΈπ Modeled dust storm trajectories over Kerman with WRF-Chem (2015). πͺοΈβοΈ Studied dust storm mechanisms and trajectories over Lorestan (2015).
Research focus
Dr. Ranjbar Saadatabadi’s research primarily focuses on atmospheric and environmental sciences, particularly in the context of Iran. His work includes studying climatic variations, synoptic and dynamic analysis of extreme weather events, dust transport modeling, and the impacts of ENSO on the Middle East’s climate. He utilizes advanced techniques like remote sensing, machine learning, and numerical models to analyze phenomena such as heavy rainfall, flash floods, and dust storms. His research aims to understand and mitigate the impacts of environmental changes and extreme weather on the region. π¦οΈππππ¨