This book deals exclusively with the power flow modelling of HVDC systems alongwith details of different type of HVDC systems, their configuration/connections, adopted control techniques, and gradually builds upto power flow modelling concept. It covers power flow modelling of HVDC systems integrated with renewable energy sources.
This book deals exclusively with the power-flow modelling of HVDC transmission systems. Different types of HVDC transmission systems, their configurations/connections and control techniques are covered in detail. Power-Flow modelling of both LCC- and VSC-based HVDC systems is covered in this book. Both the unified and the sequential power-flow methods are addressed. DC grid power-flow controllers and renewable energy resources like offshore wind farms (OWFs) are also incorporated into the power-flow models of VSC-HVDC systems. The effects of the different power-flow methods and HVDC control strategies on the power-flow convergence are detailed along with their implementation.
Features:
- Introduces the power-flow concept and develops the power-flow models of integrated AC/DC systems.
- Different types of converter control are modelled into the integrated AC/DC power-flow models developed.
- Both unified and the sequential power-flow methods are addressed.
- DC grid power-flow controllers like the IDCPFC and renewable energy resources like offshore wind farms (OWFs) are introduced and subsequently modelled into the power-flow algorithms.
- Integrated AC/DC power-flow models developed are validated by implementation in the IEEE 300-bus and European 1354-bus test networks incorporating different HVDC grids.
This book aims at researchers and graduate students in Electrical Engineering, Power Systems, and HVDC Transmission.
1. HVDC Transmission Systems.
2. Power-Flow Modelling of AC power
systems integrated with LCC-based multiterminal DC (AC-MLDC) grids.
3. Power
Flow Modelling of AC power systems integrated with VSC-based multiterminal DC
(AC-MVDC) grids employing DC Slack-Bus ControlPower Flow .
4. Modelling of AC
power systems integrated with VSC-based multiterminal DC (AC-MVDC) grids
employing DC Voltage Droop Control.
5. Power Flow Modelling of AC power
systems integrated with VSC-based multiterminal DC (AC-MVDC) grids
incorporating Interline DC Power Flow Controller.
6. Power Flow Modelling of
AC power systems integrated with VSC-based multiterminal DC (AC-MVDC) grids
incorporating renewable energy sources.
Dr. Shagufta Khan received her Ph.D. degree in Electrical Engineering from Delhi Technological University, Delhi, India. She is currently an Assistant Professor with the School of Electrical, Electronics and Communication Engineering, Galgotias University, Greater Noida, India. Her research interests include power systems and renewable energy. She has several publications in national and international journals and conferences including IEEE Transactions on Sustainable Energy, Electrical Power System Research (Elsevier), International Journal of Electrical Power and Energy Systems (Elsevier), Electrical Energy Journal (Springer), AIN Shams Engineering Journal (Elsevier), and Arabian Journal for Science and Engineering (Springer) to her credit.
Prof. Suman Bhowmick received his Ph.D. in Electrical Engineering in 2010. He has been working as a Professor in the Department of Electrical Engineering, Delhi Technological University since 2012. His areas of interest are power systems in general, and FACTS and HVDC systems in particular. He has several publications in national and international journals and conferences to his credit. He has also authored a book on FACTS which was published by the CRC Press, USA in 2016.
