Reinventing the Power Grid Renewable Energy, Storage, and Grid Modernization

1. The Power Grid: Evolution, Limitations and with Snapshot of the Current Status and Future

2. Photovoltaic Solar Energy

3. Wind Energy Systems

4. Power Electronics and Control of Power System Components

5. Batteries and Fuel Cells in Energy Storage

6. Microgrids with Distributed Energy Resources: Design, Operation and Case Studies

7. Comprehensive Results and Analysis of an Autonomous Microgrid with BSS

Biography

Nesimi Ertugrul is an Associate Professor in the School of Electrical and Electronic Engineering at the University of Adelaide. He earned a BSc and MSc at Istanbul Technical University and a PhD in electrical engineering at Newcastle University, UK, in 1993. He is a senior member of IEEE.

This is a critical resource that navigates the challenges and opportunities lying ahead of us as we transition to a more sustainable and resilient energy future.

Mark Z. Jacobson,

Professor, Stanford University, USA

Provides a good introduction to the wide range of technologies that are transforming the power system. Offers a comprehensive overview of the disruptive technologies that are driving the energy transition.

Babu Chalamala,

Senior Scientist, Grid Modernization and Energy Storage, Sandia National Laboratories, USA

Dr. Ertugrul has achieved an exceptional result in this textbook. The book covers some of the most essential verities associated with the current modernization of electric power grids around the world. It will surely serve as an essential text for both students and practicing engineers in the power and energy sector. The book provides excellent coverage of both the physical concepts associated with energy conversion for modern inverter based resources (IBRs) and the opportunities and challenge ahead in the continued global push for greater deployment of IBR technologies.

Pouyan Pourbeik,

President, Power and Energy, Analysis, Consulting and Education, Texas, USA

As renewable energy, especially solar and wind energy, becomes cheaper and more widely deployed, it has become urgent to shift in the basic paradigm that has governed electricity planning for close to a century to integrate these variable sources of electricity. This detailed examination of the technical elements of an evolving power grid will help with transitioning to a new paradigm.

M. V. Ramana,

Professor and Simons Chair, School of Public Policy and Global Affairs, University of British Columbia, Vancouver, Canada

This great book focusses the inner core of the ongoing energy transition with the power grid and its most essential components, the supply of solar and wind electricity, the role of batteries and how power electronics enable the system combined with the practical investigation of microgrids.

Christian Breyer,

Professor for Solar Economy, LUT University, Finland

Dr. Ertugrul’s book is required reading for anyone interested in the decarbonisation of the power industry. At last, there is a readable, comprehensive engineering explanation on how the power system works today and how it will need to work when fossil plants are retired and the grid is more distributed through the introduction of electrification and distributed energy.

Audrey Zibelman,

Former CEO, Australian Energy Market Operator (AEMO)

A comprehensive book about the future modern power grid with renewable sources - gives a lot of insight in the challenges and possibilities.

Frede Blaabjerg,

Professor in Power Electronics, Aalborg University, Denmark