Course title
7D736000
Fluid Power Systems

 kawakami yukio
Course content
Among the devices which control the transfer of mechanical energy, there are many systems which apply fluid power. Hydraulic power systems, many devices which make up automobiles (suspension, power steering, 4WS, ABS), construction machines, industrial robots, seismic equipments in high-rise buildings etc. are representative fluid power systems. This course will describe the flow dynamics of working fluids as a basis for fluid power system design, dynamic properties analysis (simulation) of fluid devices, and various control methods which are important when actually configuring a fluid power system. The course will also address smart fluid power devices which utilize new fluid materials.
Purpose of class
Understand the roles of fluid power systems widely used in various industrial fields and learn about various control methods which are important when constructing and using this system.
Goals and objectives
  1. Understand flow dynamics of working fluids.
  2. Understand the dynamic analysis on characteristics of fluid devices.
  3. Understand the various control methods applied to fluid power systems.
Language
Japanese
Class schedule

 Class schedule HW assignments (Including preparation and review of the class.) Amount of Time Required
1. Dynamics of flow in fluid power system Investigation of related academic papers 190minutes
2. Analysis of characteristic in pneumatic devices Investigation of related academic papers 190minutes
3. Analysis of air flow with friction tube Investigation of related academic papers 190minutes
4. Pneumatic driving system Investigation of related academic papers 190minutes
5. New applications of pneumatic system Investigation of related academic papers 190minutes
6. Analysis of characteristic in hydraulic devices Investigation of related academic papers 190minutes
7. Characteristics of hydraulic control valve Investigation of related academic papers 190minutes
8. Hydraulic servo system Investigation of related academic papers 190minutes
9. Simulation method of fluid power system Investigation of related academic papers 190minutes
10. Various control methods applied to fluid power system Investigation of related academic papers 190minutes
11. Fundamentals of ER (electrorheological) fluid Investigation of related academic papers 190minutes
12. Application of ER (electrorheological) fluid Investigation of related academic papers 190minutes
13. Fundamentals of MR (magneto-rheological) fluid Investigation of related academic papers 190minutes
14. Application of MR (magneto-rheological) fluid Investigation of related academic papers 190minutes
Total. - - 2660minutes
Relationship between 'Goals and Objectives' and 'Course Outcomes'

 Report Total.
1. 33% 33%
2. 33% 33%
3. 34% 34%
Total. 100% -
Evaluation method and criteria
Reports
Textbooks and reference materials
Related academic papers
Prerequisites
Office hours and How to contact professors for questions
  • 10:30-11:10 on Monsday in 5313 room of Omiya campus
Relation to the environment
Environment-related course (10%)
Regionally-oriented
Non-regionally-oriented course
Development of social and professional independence
  • Course that cultivates an ability for utilizing knowledge
Active-learning course
More than one class is interactive
Last modified : Wed Oct 17 08:23:38 JST 2018