Syllabus data
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Teacher name : KONNO Akihisa
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Academic year
2025Year
Term
Second Semester
Course title
Advanced Fluid Engineering
Class type
Lecture
Course title (ENG)
Advanced Fluid Engineering
Class code・Class name・Teaching forms
Z1800006 Advanced Fluid Engineering
Instructor
KONNO Akihisa
Credits
2.0Credits
Day and Time
Wed.1Period
Campus
Hachioji Remote
Location
Relationship between diploma policies and this course
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% Goals and objectives
In this lecture, we will study the basic elements of fluid machinery, such as two-dimensional wings and propellers, and deepen our fundamental understanding of fluid mechanics through practical exercises in computational fluid dynamics analysis. The goal is to enable students to conduct analyses that apply this understanding.
Prerequisites
Students are expected to have acquired the knowledge and skills equivalent to an undergraduate level course in fluid mechanics.
Method Using AL・ICT
Project Based Learning/Interactive classes using ICT/Support for self-learning using ICT
Class schedule
1. Guidance, Review of Fluid Mechanics
2. Motion Analysis of Objects Moving Through Resistance from Flow 3. Representation and Analysis Methods of Two-Dimensional Wing Performance (1) 4. Representation and Analysis Methods of Two-Dimensional Wing Performance (2) 5. Representation and Analysis Methods of Two-Dimensional Wing Performance (3) 6. Propellers, Momentum Theory, and Conservation Laws (1) 7. Propellers, Momentum Theory, and Conservation Laws (2) 8. Propellers, Momentum Theory, and Conservation Laws (3) 9. Introduction to Computational Fluid Dynamics (1) 10. Introduction to Computational Fluid Dynamics (2) 11. Introduction to Computational Fluid Dynamics (3) 12. Introduction to Computational Fluid Dynamics (4) 13. Introduction to Computational Fluid Dynamics (5) 14. Introduction to Computational Fluid Dynamics (6) 15. Review of Learning Content Please note that the order of classes may be adjusted considering the difficulty of exercises. Evaluation
The overall evaluation of the assignments given during the course will be used to determine whether a student receives credit, with a minimum grade of D required to pass.
Feedback for students
Feedback will be provided during the return of the assignments.
Textbooks
There is no designated textbook for this course.
Reference materials
Please refer to the textbook used in the undergraduate fluid mechanics course.
Office hours and How to contact teachers for questions
Tuesdays during the fifth period, in room 306 of Hachioji Building No. 8.
Additionally, questions can be registered on KU-LMS at any time. Message for students
Numerous tasks have been prepared that emphasize hands-on analysis and calculations conducted directly by the students. Through these tasks, the goal is to solidify an understanding of the fundamental principles of fluid mechanics and to cultivate problem-solving skills for engineering challenges. It is encouraged that students engage seriously with these tasks.
Course by professor with work experience
Not applicable
Work experience and relevance to the course content if applicable
Teaching profession course
Mechanical Engineering Program
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