Energy Systems Engineering Courses

Course Title Duration Details Register
Energy Systems Engineering 36 h (6 weeks) Details
Sustainable Energy Systems 30 h (4 weeks) Details
Power Plant Engineering and Design 24 h (2 weeks) Details
Energy Analysis 36 h (6 weeks) Details

Details

Energy Systems Engineering

Course Content Who will benefit Schedule
  • System tools for energy systems
  • Fossil Fuel resources and production technology
  • Nuclear energy systems resources and production technology
  • The solar resources and production technology
  • Wind energy resources and production technology Bioenergy resources and production technology

The course covers the important topics in strength and mechanics of materials and its applications and is designed for all engineering disciplines, including mechanical, chemical, civil and aerospace engineering students, graduates and professionals.
Course offers:
1) Theory/common practice
2) plant tour (if applicable)
3) Software
3) hands-on industrial project
4) prevalent codes/standards (if applicable)
5) final project evaluation by a panel of experts
6) providing reference letter

Date Feb. 28 Apr. 11 May. 23 July 4
Days Tues. (05:00 pm – 8:00 pm)
Thu. (05:00 pm – 8:00 pm)
36 Hours (6 weeks)

Sustainable Energy Systems

Course Content Who will benefit Schedule
  • Energy basics
  • Past, Present, and Future World Energy use
  • Environmental consequences of fossil fuel use
  • Use of solar energy
  • Electricity from solar energy
  • Wind energy
  • Hydroelectricity energy
  • Wave energy
  • Tidal energy
  • Ocean energy
  • Geothermal energy
  • Biomass energy
  • Energy storage and conservation and transportation

The course covers the important topics in strength and mechanics of materials and its applications and is designed for all engineering disciplines, including mechanical, chemical, civil and aerospace engineering students, graduates and professionals.
Course offers:
1) Theory/common practice
2) plant tour (if applicable)
3) Software
3) hands-on industrial project
4) prevalent codes/standards (if applicable)
5) final project evaluation by a panel of experts
6) providing reference letter

Date Feb. 27 Apr. 10 May. 22 July. 3
Days Mon. (05:50 pm – 9:30 pm)
Wed. (05:50 pm – 9:00 pm)
30 Hours (4 weeks)

Power Plant Engineering and Design

Course Content Who will benefit Schedule
  • Steam and its importance
  • Boil
  • Combustion of fuels
  • Design and construction of boilers
  • Steam turbine
  • Gas turbine
  • Condensers, and cooling tower
  • Environmental control systems
  • Waste-to-energy plants
  • Start-up and shut-down

The course covers the important topics in strength and mechanics of materials and its applications and is designed for all engineering disciplines, including mechanical, chemical, civil and aerospace engineering students, graduates and professionals.
Course offers:
1) Theory/common practice
2) plant tour (if applicable)
3) Software
3) hands-on industrial project
4) prevalent codes/standards (if applicable)
5) final project evaluation by a panel of experts
6) providing reference letter

Date Feb. 28 Apr. 11 May. 23 July. 4
Days Tue. (5:30 pm – 9:30 pm)
Thu. (5:30 pm – 9:00 pm)
30 Hours (4 weeks)

Energy Analysis

Course Content Who will benefit Schedule
  • Exergy and energy analyses
  • Chemical exergy
  • Application of exergy in industry
  • Energy analysis of heat pump system
  • Energy analysis of absorption cooling systems
  • Energy analysis of thermal energy storage systems
  • Energy analysis of drying processes
  • Energy analysis of renewable systems
  • Energy analysis of steam power plants

The course covers the important topics in strength and mechanics of materials and its applications and is designed for all engineering disciplines, including mechanical, chemical, civil and aerospace engineering students, graduates and professionals.
Course offers:
1) Theory/common practice
2) plant tour (if applicable)
3) Software
3) hands-on industrial project
4) prevalent codes/standards (if applicable)
5) final project evaluation by a panel of experts
6) providing reference letter

Date Feb. 27 Apr. 10 May. 22 July. 3
Days Mon. (05:50 pm – 9:30 pm)
Thu. (05:50 pm – 9:00 pm)
30 Hours (4 weeks)