Renewable Energy Grid Integration
Learn to manage and integrate variable renewable energy sources into electricity grids for reliable, sustainable power systems.
Learn to manage and integrate variable renewable energy sources into electricity grids for reliable, sustainable power systems.
This comprehensive course explores the integration of renewable energy sources into electricity grids. Led by Imperial College London experts with input from the National Energy Renewable Lab, it addresses the challenges and solutions for incorporating variable renewable energy sources like wind and solar into power systems. The course covers traditional electricity system operations, characteristics of various generation technologies, and strategies for managing high penetrations of renewables. Students learn about emerging technologies, changing demand patterns, and real-world case studies from different countries. The curriculum emphasizes practical approaches to achieving reliable, stable electricity systems with significant renewable energy components.
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What you'll learn
Understand traditional electricity system operations and generation technologies
Analyze impacts of variable renewable energy on power systems
Evaluate technologies for managing high renewable energy penetrations
Assess future trends in electricity demand and emerging technologies
Implement strategies for reliable renewable energy integration
Examine international case studies of successful renewable integration
Skills you'll gain
This course includes:
PreRecorded video
Graded assignments, exams
Access on Mobile, Tablet, Desktop
Limited Access access
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There are 6 modules in this course
This course provides a comprehensive overview of renewable energy integration into electricity grids. It covers fundamental aspects of traditional power systems, renewable energy technologies, and the challenges of variable power generation. Students learn about various technologies and measures for managing high renewable energy penetrations, including system operations, grid stability, and future trends. The course emphasizes practical solutions and real-world examples from different countries, making it valuable for professionals in the energy sector.
How do electricity systems work? An introduction
Module 1
How do different types of electricity generation technology work?
Module 2
How are electricity systems affected by increased penetrations of variable renewables?
Module 3
Options for managing increased penetrations of variable renewables
Module 4
What might the future hold?
Module 5
Policies and incentives to overcome barriers
Module 6
Fee Structure
Instructor
4 Courses
A Leading Climate Change Scholar Advancing Low-Carbon Economic Transitions
Dr. Ajay Gambhir currently serves as Director of Systemic Risk Assessment at the Accelerator for Systemic Risk Assessment (ASRA), following his role as Senior Research Fellow at Imperial College London's Grantham Institute for Climate Change and the Environment from 2010 to 2023. His distinguished career spans academia and government service, including positions as Team Leader for EU and International Climate Change Economics at the UK Government's Department of Energy and Climate Change and contributions to the UK's Climate Change Act 2008. After earning his PhD in Energy Economics from Imperial College London, MEng in Chemical Engineering from Cambridge University, and MSc in Development Economics from SOAS University of London, he has established himself as a leading expert in low-carbon transitions and climate change mitigation. His research portfolio includes leading scientific studies for the UK government's AVOIDing dangerous climate change programme, ESRC and EPSRC studies on manufacturing innovation for low-cost solar PV modules, energy storage innovation, and rural electrification. His recent work focuses on the political economy of low-carbon pathways, equitable transition policies, and emerging technologies for climate change mitigation, with significant contributions to understanding the economics and deployment of carbon dioxide removal technologies. Through his extensive publications in prestigious journals and his role in shaping climate policy, he continues to influence global discussions on transitioning to a low-carbon economy while ensuring social equity in climate action.
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4.6 course rating
39 ratings
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