기술경영전문대학원

This course provides a comprehensive overview of energy systems, energy economics theories, and energy market analysis to help perform complete analyses of the connection between energy, policy, economy, and environmental effects. It includes the public energy policy process and investment decisions for private energy firms in domestic and global energy markets.

This course aims to provide knowledge on the function of solar cells, solar cell fabrication and characterization, and silicon-based solar cells. Learning areas include: solar energy and function of solar cells; generation, transport and recombination of charge carriers; reflection and absorption of light; theoretical limits on solar cell efficiencies; solar cell modeling; fabrication of silicon for solar cells; fabrication of silicon-based solar cells; solar cell characterization; solar cell design and optimization; other solar cell technologies including high efficiency solar cells, thin film solar cells and electrochemical solar cells, third generation photovoltaic, solar panels, etc.

In this course, students are trained to understand wind energy technologies, wind physics, and assessment of wind potentials. It includes wind resources, physics of wind, aerodynamics, wind measurements, history of wind power, types of wind turbines, nacelle, power train, gear, breaks, electrical systems for wind turbines, control aspects, power and energy yield of wind turbines, planning and operation of wind turbines, and wind project planning.

This course provides essential knowledge for the hydrogen economy and fuel cell technology, including the opportunities for using hydrogen. Topics include hydrogen production, generation, storage and distribution of hydrogen as a fuel, future potential methods for generating hydrogen based on renewable energy or fuels. This course also addresses thermodynamic and kinetic principles of electrochemical power sources and fuel cells, and current fuel cell technologies available.

Students in this course learn about energy and environment, energy efficiency principles and practices in residential sector, industrial sector, transport sector, and production and planning sectors, energy efficiency regulations, and life cycle regulations.

This course focuses on new energy business models and real world application of entrepreneurship to renewable energy and management sectors. Topics include knowledge on business models, business opportunities, challenges, potential solutions, and successful businesses in the renewable energy sectors. Students are also required to participate in business projects where they identify problems to solve with renewable energy products or services, plan for engaging with investors, taking first steps towards launching a new business or corporate initiative.

This course involves novel application of finance theory and techniques to structure, value and finance large-scale projects, including infrastructure and energy projects, in the private sector, for governments and under PPP schemes. It includes a series of case studies to apply project finance principles and valuation methods to real-life projects. Students will learn best practices and be exposed to the opportunities and challenges of infrastructure and project finance.

This course is designed for systematic learning of secondary batteries, covering fundamental principles as well as recent technological trends. It includes battery structure, materials, manufacturing processes, performance evaluation methods, and application technologies, and introduces key emerging technologies for next-generation secondary batteries.