International Bachelor Degree Program on Energy

Organization profile

Organisation profile

Energy and its utilization are the most important issue which humankind must face in the 21st century. Following the trend of international technology development, the teaching aim of this International Bachelor Degree Program is mainly focused on energy science and technology. The curriculum of the IBDP-E (International Bachelor Degree Program on Energy) all in English is well organized by gathering professors with various expertise in the field of energy science and technology, from Department of Mechanical Engineering, Department of Chemical Engineering, Department of Resources Engineering, Department of Materials Science and Engineering, Department of Civil Engineering, Department of Hydraulic and Ocean Engineering, Department of Systems and Naval Mechatronic Engineering, Department of Aeronautics and Astronautics Engineering, and Department of Environmental Engineering in the College of Engineering, also from Department of Electrical Engineering in the College of Electrical Engineering and Computer Science. Therefore, the outstanding research achievements by NCKU can be extended their influences, through teaching and internationalization, to the global activities on energy science and technology. Considering students’ future developments in the field of energy science and technology, the IBDP-E offers fundamental courses and specialized courses, including traditional energy, renewable energy, energy saving technologies, environmental technologies, energy utilization, electricity management, energy economy and strategy, etc. The overall education goal is to provide students with basic knowledge of energy science and technology, then to guide students to identify advantage and disadvantage of various energy technologies, and finally to help students to construct their own thought with multidisciplinary and complementary, green technologies.

Fingerprint The fingerprint is based on mining the text of the scientific documents related to the associated persons. Based on that an index of weighted terms is created, which defines the key subjects of research unit

Heat transfer Engineering & Materials Science
Temperature Engineering & Materials Science
Controllers Engineering & Materials Science
heat transfer Physics & Astronomy
Reynolds number Engineering & Materials Science
Vortex flow Engineering & Materials Science
flames Physics & Astronomy
Boundary element method Engineering & Materials Science

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Projects 1995 2018

光學感測器用高階史特靈冷凍系統開發(1/3)

Cheng, C.

17-11-0118-10-31

Project: Research projectResearch

結合無人機與維運船隊進行離岸風力發電機檢修

Lai, W.

17-11-0118-10-31

Project: Research projectResearch

遙控直昇機模糊控制器之FPGA晶片實現

Yang, C.

05-08-01 → …

Project: Research projectResearch

Research Output 1981 2019

Catalytic effects of potassium on biomass pyrolysis, combustion and torrefaction

Safar, M., Lin, B. J., Chen, W-H., Langauer, D., Chang, J-S., Raclavska, H., Pétrissans, A., Rousset, P. & Pétrissans, M., 2019 Feb 1, In : Applied Energy. p. 346-355 10 p.

Research output: Contribution to journalArticle

pyrolysis
Potassium
Biomass
Pyrolysis
potassium

Evolutionary computation for maximizing CO2 and H2 separation in multiple-tube palladium-membrane systems

Chen, W-H., Kuo, P. C. & Lin, Y. L., 2019 Feb 1, In : Applied Energy. 235, p. 299-310 12 p.

Research output: Contribution to journalArticle

palladium
Evolutionary algorithms
Palladium
membrane
Membranes

Oxidative torrefaction of biomass nutshells: Evaluations of energy efficiency as well as biochar transportation and storage

Zhang, C., Ho, S. H., Chen, W-H., Fu, Y., Chang, J-S. & Bi, X., 2019 Feb 1, In : Applied Energy. p. 428-441 14 p.

Research output: Contribution to journalArticle

energy efficiency
Energy efficiency
Biomass
shell
oxygen