Graduate School of Science and Engineering Science of Environment and Mathematical Modeling
- Course Outline
- Earth System Science / Environmental Magnetism Laboratory
- Geo-environmental Science Laboratory
- Wild Life Preservation Laboratory
- Advanced Materials Science and Process Systems Laboratory
- New Energy System Laboratory
- Environmental Systems Engineering Laboratory
- Regional Environment Laboratory
- Geometry Laboratory
- Functional Equations Laboratory
- Statistical Finance Laboratory
- Computational Mathematics Laboratory
- Laboratory of Mathematics for Information
- Discrete Mathematics Laboratory
- Algebra Laboratory
- Analysis Laboratory
Regional Environment Laboratory
Staff
YAMANE Shozo
[Associate Professor]
| Acceptable course | |
|---|---|
| Master's degree course | ✓ |
| Doctoral degree course | |
Telephone : +81-774-65-6435
syamane@mail.doshisha.ac.jp
Office : KE-410
Database of Researchers
Research Topics
Clarifying the dynamical processes and characteristics of regional atmospheric phenomena, weather, and climate by means of data analysis and numerical modeling
Research Contents
Regional Environment Laboratory has focused on the regional atmospheric environment.
Air temperature, wind, humidity, precipitation, minor constituents of air are the essential components which make up
the atmospheric environment.
The spatial distributions and temporal variations of these components characterize an atmospheric environment in a
town-scale region, which people live in.
These spatial and temporal variations are brought about through the influences of various atmospheric phenomena,
such as monsoon, extra-tropical cyclones, fronts, sea-land breeze, cumulus convection, turbulence, and so on.
There also exist influences of the global warming and urban heat island circulation caused by human activities.
In this laboratory, atmospheric circulations and transports of energy, momentum, and mass accompanied with regional
and local weather and climate are examined through statistical data analysis of various meteorological observations
for the last one hundred years and numerical modeling and simulations.
Atmospheric radiative transfer, turbulent mixing, and air-sea or air-land exchange of heat, momentum, and moisture,
are also examined, which are important processes in the formation and evolution of local atmospheric circulations.
Keywords
- Atmospheric dynamics
- Numerical modeling
- Statistical Analysis