Academics

Faculty Interview

Mayumi TakeyamaProfessor

◎Profile/Graduated from the Department of Electronic Engineering, Faculty of Engineering, Kitami Institute of Technology, before obtaining a doctoral degree in engineering from Hokkaido University. Engaged in a wide range of research areas such as three-dimensional integrated circuits, next-generation supercomputers, a project to visualize specialty goods of the Okhotsk region and a plant factory in space.

Continue taking on challenges
despite setbacks.
Doing so will surely
lead to new discoveries and
forge a new future for you.

The Applied Energy Course has no equal in Japan, allowing students to comprehensively learn about electric, mechanical and chemical aspects of energy. In addition to essential subjects necessary for learning about electricity, including electric circuits, electromagnetism and electronic devices, this course includes basic lectures on machinery such as those involving heat and fluids. In addition, subjects dealing comprehensively with energy such as bioethanol, methane hydrate serve as a pillar of the curriculum. Along with expanded experiments and hands-on learning, students are encouraged to learn and think on their own. Human resources with electricity, machinery and chemistry know-how are in high demand by companies in various fields, including power, automobile, semiconductor, communications, civil engineering and construction. We support students taking on various challenges committed to accomplishing their goals.

Curriculum

  • Basic Thermodynamics
  • Basic Fluid Mechanics
  • Basic Chemical Energy
  • Electromagnetics
  • Fundamentals of Power Circuit
  • Mechanics of Materials I
  • Dynamics of Machine Systems I
  • Computer Programming I
  • Fourier Analysis
  • Design and Drawing
  • Experiments of Energy Engineering I
  • Integrated Engineering for Applied Energy I
  • Applied Thermodynamics
  • Applied Fluid Mechanics
  • Applied Chemical Energy
  • Electrical Energy Application
  • Applied Power Circuit
  • Fundamentals of Energy Conversion
  • Transfer of Thermal Energy
  • Electronic Devices
  • Power Electronics
  • Energy and Environmental Engineering
  • Experiments of Energy Engineering II
  • Integrated Engineering for Applied Energy II
  • Applied Energy Conversion
  • Control Engineering
  • High Speed Thermal Fluid
  • Bio-measurement Engineering
  • Electric Power System Engineering
  • Basic Electronics
  • Electrical and Electronics Material Engineering
  • Aeronautical Fluid Dynamics
  • Engineering of Automobile Engine
  • Robotics
  • Practical English
  • Bachelor’s Thesis
  • System Control Theory
  • Biochemical Engineering
  • Introduction to Gas Hydrate Research
  • Electricity Related Laws and Facility Maintenance
  • Laboratory on Electrical Energy
  • Design of Electric Machinery

*The description refers to the 2020 academic year curriculum and is thus subject to change.

Lecture

  • Basic Thermodynamics

    Students will learn about thermal energy conversion based on thermodynamics. This technology is applied to power generation and heat supply systems.

  • Basic Chemical Energy

    Study of chemical energy conversion, based on chemical thermodynamics and electrochemistry, which is appliable to fuel cells and power storage systems.