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Zhang, who joined UND's faculty in 2007, has a master's in computer science and a doctorate in atmospheric science from the University of Alabama in Huntsville in 2004. He then worked as a visiting scientist at a U.S. Navy research lab in Montgomery, Ala., for three years. His research interests include satellite remote sensing, radiation and data assimilation. He also is a certified diver.
Dr. Zhang's research interests include satellite remote sensing, data assimilation, atmospheric radiation, climate change, cloud physics, and aerosol and visibility prediction. His recent research has focused on satellite remote sensing of atmospheric aerosols and assimilating the data in near-real-time into weather forecast models. Current research projects include the development of a global near-real-time aerosol optical depth analysis for use in aerosol transport models and the development of an operational global aerosol assimilation package through ingesting satellite aerosol products into aerosol transport models. The goal of this research effort is to improve aerosol and visibility forecasting capability using near-real-time observations.
Zhang's main field of research is with aerosols, a term encompassing all kinds of particles suspended in the atmosphere from dust to pollutants from the burning of fossil fuels.
A native of Xining on the eastern edge of the Tibetan Plateau, he said he has always been excited by weather. The winters there can be very cold and dry, not unlike North Dakota, he said.
He's particularly interested in aerosols because it's a relatively new field, he said. "You want to always study the most current research areas because it's full of unknowns and full of challenges and, therefore, full of excitement."
Dr. Zhang's research interests include satellite remote sensing, data assimilation, atmospheric radiation, climate change, cloud physics, and aerosol and visibility prediction. His recent research has focused on satellite remote sensing of atmospheric aerosols and assimilating the data in near-real-time into weather forecast models. Current research projects include the development of a global near-real-time aerosol optical depth analysis for use in aerosol transport models and the development of an operational global aerosol assimilation package through ingesting satellite aerosol products into aerosol transport models. The goal of this research effort is to improve aerosol and visibility forecasting capability using near-real-time observations.
Zhang's main field of research is with aerosols, a term encompassing all kinds of particles suspended in the atmosphere from dust to pollutants from the burning of fossil fuels.
A native of Xining on the eastern edge of the Tibetan Plateau, he said he has always been excited by weather. The winters there can be very cold and dry, not unlike North Dakota, he said.
He's particularly interested in aerosols because it's a relatively new field, he said. "You want to always study the most current research areas because it's full of unknowns and full of challenges and, therefore, full of excitement."
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