Overview
Electrical power grids of the future will differ significantly from the power systems of the twentieth century. Current applications of smart grids around the world already solve some issues related to energy transmission.
These include the small capacity and intermittent nature of renewable resources; the constraints of existing lines operated close to their thermal and stability limits; and uni-directional transmission from production to user. In addition, new ‘intelligent’ demand of products and devices such as electric vehicles and heat pumps demand changes in the way electricity is transmitted.
Why are smart grids the answer? Being robust and flexible, intelligent electrical power grids effectively coordinate energy supply and demand in a dynamic way. This enables the electricity from solar cells or wind farms, for example, to be incorporated within the distribution network.
Biogas could be introduced locally within the gas network. Last but not least, smart grids also provide the flexibility needed to stimulate change in the energy market such as product innovation, privatization and internationalization.
Understanding smart grids is a must for advancing your career in the energy sector, particularly in the fields of renewable energies, governmental policy, or consultancy.
In the first course, you will be introduced to the layout of a smart grid, its components, its dynamics and the challenges in modeling and studying it.
In the second course, you will put this knowledge into practice and develop your own models and scenarios to study and analyze the outcomes of some common smart grid disturbances. Learn more at Smart Grids Integration and Modeling Professional Certificate in collaboration with Delft University of Technology (TU Delft) - DelftX.
Job Outlook
- Renewable energy introduction in existing electrical power systems is growing at a fast rate and increasingly impacts the stability of the existing electrical power systems.
- Implementing renewable energy in an existing electrical power system requires simulation and evaluation of the impact of variable renewable energy sources on the system.
- Job opportunities include engineering and consultancy roles at renewable energy companies, in particular solar and wind engineering companies, leading consultancy firms.
- Smart grid engineers are involved with designing systems that can regulate smart grids and make them operate effectively. Work involves analyzing and solving (simulated or foreseen) grid disturbances in electrical power systems.
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Visit programme websiteProgramme Structure
Courses included:
- Smart Grids: The Basics
- Smart Grids: Modeling
Check out the full curriculum
Visit programme websiteKey information
Duration
- Part-time
- 3 months
- 4 hrs/week
Start dates & application deadlines
Language
Delivered
Disciplines
Electronics & Embedded Technology View 40 other Short Courses in Electronics & Embedded Technology in United StatesExplore more key information
Visit programme websiteWhat students do after studying
Academic requirements
We are not aware of any specific GRE, GMAT or GPA grading score requirements for this programme.
English requirements
We are not aware of any English requirements for this programme.
Make sure you meet all requirements
Visit programme websiteTuition Fee
-
International
228 USD/fullTuition FeeBased on the tuition of 228 USD for the full programme during 3 months. -
National
228 USD/fullTuition FeeBased on the tuition of 228 USD for the full programme during 3 months.