Meteorology, Climatology, Eye, Atmospheric sciences and Mesoscale meteorology are his primary areas of study. His Meteorology study frequently draws connections to other fields, such as Computer simulation. His Climatology study frequently involves adjacent topics like Urban heat island.
Da-Lin Zhang combines subjects such as Pressure-gradient force, Mechanics and Outflow with his study of Eye. The study incorporates disciplines such as Numerical weather prediction and Advection in addition to Atmospheric sciences. The Mesoscale meteorology study combines topics in areas such as Polygon mesh, Streak and Computational science.
Da-Lin Zhang focuses on Climatology, Meteorology, Mesoscale meteorology, Tropical cyclone and Atmospheric sciences. His Climatology research incorporates themes from Storm, Tropical cyclogenesis, Cyclogenesis and Precipitation. His research combines Computer simulation and Meteorology.
The concepts of his Mesoscale meteorology study are interwoven with issues in Baroclinity, Mesovortices and Boundary layer. His research integrates issues of Typhoon, Wind shear and Sea surface temperature in his study of Tropical cyclone. Atmospheric sciences is closely attributed to Vorticity in his work.
Da-Lin Zhang mostly deals with Climatology, Meteorology, Tropical cyclone, Storm and Precipitation. His research on Climatology often connects related topics like Urban heat island. Much of his study explores Meteorology relationship to Planetary boundary layer.
His Tropical cyclone research is multidisciplinary, incorporating elements of Typhoon, Sea surface temperature, Intensity and Weather and climate. His work carried out in the field of Storm brings together such families of science as Lightning, Thunderstorm, Convective available potential energy and Mesoscale meteorology. His research in Mesoscale meteorology intersects with topics in Severe weather and Boundary layer.
His scientific interests lie mostly in Climatology, Beijing, Lightning, Short duration and Meteorology. The Tropical cyclone research Da-Lin Zhang does as part of his general Climatology study is frequently linked to other disciplines of science, such as South china, therefore creating a link between diverse domains of science. His work on Cloud to ground as part of general Lightning research is frequently linked to North china, thereby connecting diverse disciplines of science.
His work on Ensemble prediction, Monsoon rainfall and Quantitative precipitation forecast as part of general Meteorology study is frequently linked to Wet season, bridging the gap between disciplines. His studies examine the connections between Dropsonde and genetics, as well as such issues in Outflow, with regards to Convection. While the research belongs to areas of Convection, he spends his time largely on the problem of Mesoscale meteorology, intersecting his research to questions surrounding Atmospheric sciences.
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A High-Resolution Model of the Planetary Boundary Layer—Sensitivity Tests and Comparisons with SESAME-79 Data
Dalin Zhang;Richard A. Anthes.
Journal of Applied Meteorology (1982)
A Multiscale Numerical Study of Hurricane Andrew (1992). Part I: Explicit Simulation and Verification
Yubao Liu;Da-Lin Zhang;M. K. Yau.
Monthly Weather Review (1997)
The Footprint of Urban Areas on Global Climate as Characterized by MODIS
Menglin Jin;Robert Earl Dickinson;Da Lin Zhang.
Journal of Climate (2005)
Diurnal cycles of surface winds and temperatures as simulated by five boundary layer parameterizations
Da-Lin Zhang;Wei-Zhong Zheng.
Journal of Applied Meteorology (2004)
A Multiscale Numerical Study of Hurricane Andrew (1992). Part II: Kinematics and Inner-Core Structures
Yubao Liu;Da-Lin Zhang;M. K. Yau.
Monthly Weather Review (1999)
Roles of Urban Tree Canopy and Buildings in Urban Heat Island Effects: Parameterization and Preliminary Results
Christopher P. Loughner;Dale J. Allen;Da-Lin Zhang;Kenneth E. Pickering.
Journal of Applied Meteorology and Climatology (2012)
A two-way interactive nesting procedure with variable terrain resolution
Da-Lin Zhang;Hai-Ru Chang;Nelson L. Seaman;Thomas T. Warner.
Monthly Weather Review (1986)
On the Rapid Intensification of Hurricane Wilma (2005). Part II: Convective Bursts and the Upper-Level Warm Core
Hua Chen;Da-Lin Zhang.
Journal of the Atmospheric Sciences (2013)
Numerical Simulation of Hurricane Bonnie (1998). Part II: Sensitivity to Varying Cloud Microphysical Processes
Tong Zhu;Da-Lin Zhang.
Journal of the Atmospheric Sciences (2006)
Numerical Simulation of the Meso-β Scale Structure and Evolution of the 1977 Johnstown Flood. Part I: Model Description and Verification
Da-Lin Zhang;J. Michael Fritsch.
Journal of the Atmospheric Sciences (1986)
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