Fundamental Science and EngineeringCreative Science and EngineeringAdvanced Science and EngineeringⅠ FeaturesⅡ History and ProfileⅢ RequirementsCONTENTSThe Department of Applied Mechanics and Aerospace Engineering is designed for education and research on mechanical systems for thermodynamics, mechanics, systems, and materials and design based on physics and mathematics, with natural science and mechanical engineering at its core forming the field of application. The mission of this department is to provide training to students in scientific thinking and to nurture their aptitude for engineering as well as to enhance “research” that can contribute to the relevant academic and industrial world. The department not only aims to substantiate highly credible fundamental fields in the conventional academic and industrial worlds but also intends to further research in the field of aeronautics, while venturing into new fields that pave the way for the untouched domains of the 21st century.There are numerous opportunities for handling unsteady flow phenomena involving thermal changes in the mechanical and aeronautical fields. This division promotes basic research on high-speed and unsteady flow dynamics as well as on combustion and reaction flow based on hydraulic engineering and thermodynamics, while experimentally and mathematically explaining thermofluid behavior inside aviation engine elements and various turbo machines as application examples in the mechanical and aeronautical fields.◆Applied Mathematics DivisionThe division explores research in the use of numerical methods on various dynamic phenomena as well as on prediction and evaluation of nonlinear behaviors that manifest in engineering systems to establish methods for their application in analytical designs of engineering methods. More specifically, the division explores research in methods of experimentation and measurement, theoretical analysis, numerical calculation, and optimization in non-holonomic systems of flexible space structures, space robots, and vehicles, which are examples of dynamic systems; It also is involved in the study of dirac structures and Lagrangian systems that appear in multibody systems as well as of fluid transient phenomena, fluid related vibrations, and ultrahigh-speed liquid jets as examples of fluid systems.◆ Systems and Environmental Energy DivisionEducational research in this division aims to contribute to resolving environmental issues by explaining the dynamic behaviors of systems, targeting various systems such as energy power systems. The knowledge gained from research in this department is to establish methodologies for optimized design of systems and make optimization controls possible, besides implementing efficient energy use in practical energy systems. Characteristic evaluations of the components of practical systems as well as experimental research on improving the efficiency of systems are Summary of Each Research Area◆Thermofluid Science Division49Department of Applied Mechanics and Aerospace Engineering
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