2025Year

Second Semester

Advanced Thermal Fluid Dynamics

Lecture

Advanced Thermal Fluid Dynamics

Z1400013 Advanced Thermal Fluid Dynamics

HIRATSUKA Masaki

2.0Credits

Mon.3Period

Hachioji Remote

A) A high degree of specialized expertise　100%
B) The skills to use science and technology　0%
C) The ability to conduct research independently, knowledge pertaining to society and occupations, and sense of ethics required of engineers and researchers　0%
D) Creative skills in specific areas of specialization　0%

In the design of machinery and electronic circuits for automobiles, aircraft, etc., it is necessary to consider the flow and heat transport around the object, which requires a deep understanding of both the flow and heat fields. In this lecture, we will introduce the basic theories, experiments, and analytical methods of thermal fluid dynamics, while showing the progress of recent research and applications of thermal fluid phenomena. This course covers a wide range of fields, from macroscopic heat exchange, such as convection and condensation, to micro- and nano-scale thermal fluid transport in biological and micro-structures, which has recently been studied in the mechanical field. Students will acquire knowledge of basic theories and experimental analysis methods related to thermo-fluids, as well as the ability to investigate and apply them to interdisciplinary fields.

Basic knowledge of fluid mechanics and thermodynamics is recommended.

Presentation

1. Overview of thermal fluid dynamics
2. Basic equations of thermal fluid (continuity equation, equation of motion, energy equation)
3. Basic equations of thermal fluid dynamics (heat and mass transfer, etc.)
4. Measurement and visualization techniques of thermal fluid
5. Thermal fluid analysis methods: difference method, turbulence model
6. Thermal fluid analysis methods: heat transport, interface, multiphase flow
7. Micro- and nano-scale thermal fluid
8. Connection of macroscopic and microscopic phenomena, overview of thermo-statistical mechanics
9. Molecular thermal fluid, thermophysical properties
10. Molecular thermal fluid, thermophysical properties
11. Machine Learning and Thermal Fluids
12. Soft matter, wetting, interface, friction phenomena
13. English presentation on applications and research of thermal fluid mechanics
14. English presentation on applications and research of thermal fluid mechanics
15. Review of the class

Grades are based on the report.

Upload the overall critique to KU-LMS.

None.

「Fluid Mechanics」Frank M. White, McGraw-Hill Science Engineering
「Modern statistical mechanics」David Chandler, Oxford Univ. Pr.
「大学演習 熱学・統計力学」久保亮五，裳華房

Tuesday 15:00-16:00 (Hachioji 8 Building 201)
at13533@ns.kogakuin.ac.jp

Although the consideration of fluid flow and heat is critical and sometimes a headache in various designs, there are many interesting phenomena and challenges that arise by combining both. Please master the theories and techniques in both fields and acquire the ability to challenge various complex problems.

Not applicable

Mechanical Engineering Program