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Advances in Smart Grid Power System: Network, Control and Security [Pehme köide]

Edited by (Senior Research Fellow (SRF) in Renewable Energy, IGDTUW, Delhi, India), Edited by (Postdoctoral Researcher, Eindhoven University of Technology, The Netherlands)
  • Formaat: Paperback / softback, 404 pages, kõrgus x laius: 229x152 mm, kaal: 630 g
  • Ilmumisaeg: 29-Oct-2020
  • Kirjastus: Academic Press Inc
  • ISBN-10: 0128243376
  • ISBN-13: 9780128243374
Teised raamatud teemal:
Advances in Smart Grid Power System: Network, Control and SecuritySuurem pilt
  • Formaat: Paperback / softback, 404 pages, kõrgus x laius: 229x152 mm, kaal: 630 g
  • Ilmumisaeg: 29-Oct-2020
  • Kirjastus: Academic Press Inc
  • ISBN-10: 0128243376
  • ISBN-13: 9780128243374
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780128243374.html
Märksõnad:
Advances in Smart Grid Power System: Network, Control and Security discusses real world problems, solutions, and best practices in related fields. The book includes executable plans for smart grid systems, their network communications, tactics on protecting information, and response plans for cyber incidents. Moreover, it enables researchers and energy professionals to understand the future of energy delivery systems and security. Covering fundamental theory, mathematical formulations, practical implementations, and experimental testing procedures, this book gives readers invaluable insights into the field of power systems, their quality and reliability, their impact, and their importance in cybersecurity.
  • Includes supporting illustrations and tables along with valuable end of chapter reference sets
  • Provides a working guideline for the design and analysis of smart grids and their applications
  • Features experimental testing procedures in smart grid power systems, communication networks, reliability, and cybersecurity
Contributors xi
1 An introduction to the smart grid-I
1(32)
Pankaj Gupta
Ritu Kandari
Ashwani Kumar
1 Introduction
1(1)
2 Traditional power system model
2(2)
3 Smart grid framework
4(7)
4 Smart grid---infrastructure and technologies
11(4)
5 Energy storage technologies
15(10)
6 Smart grid---advantages
25(1)
7 Smart grid technical issues and challenges
26(2)
8 Conclusion
28(5)
References
28(5)
2 An introduction to the smart grid-II
33(14)
Rajender Kumar Beniwal
1 Introduction
33(1)
2 Energy management system
34(3)
3 Demand/load-side management
37(1)
4 Case study
37(6)
5 Differences between past, present, and future grids
43(1)
6 Conclusion
44(3)
References
44(3)
3 Smart grid power system
47(26)
Neeraj Gupta
Navdeep Kaur
Sanjay K. Jain
Karan Singh Joshal
1 Introduction
47(1)
2 Dispersed generation
48(2)
3 Dispersed-generator technologies
50(3)
4 Dispersed-generator types
53(1)
5 Benefits of renewable energy source---based dispersed generation
54(2)
6 Challenges in renewable energy source---based dispersed generator integration
56(3)
7 Storing energy for renewable energy sources
59(5)
8 Small-scale renewable energy sources
64(4)
9 Reliability of distribution network in presence of dispersed generators
68(1)
10 Concluding remarks
69(4)
References
70(3)
4 An introduction to smart grid and demand-side management with its integration with renewable energy
73(30)
Bharti Koul
Kanwardeep Singh
Y.S. Brar
1 Introduction
73(5)
2 Integration of demand-response programs with smart grids
78(4)
3 Influence of demand response on smart grids
82(7)
4 Smart grid scenario in the Indian power market
89(3)
5 Renewable energy resources in India (a case study)
92(3)
6 Biopower
95(1)
7 Small-scale hydropower
95(1)
8 Energy storage
96(3)
9 Conclusion
99(4)
References
99(1)
Further reading
100(3)
5 Approaches to smart grid network communication and security
103(56)
Dharmbir Prasad
Rudra Pratap Singh
Sushri Mukherjee
Sumana Chattaraj
Koushik Sarkar
Md. Irfan Khan
1 Introduction
106(1)
2 Review of communication and optimal power flow in smart grids
107(5)
3 Smart grid communications integrity
112(8)
4 Feasibility study of all-dielectric self-supporting cable networking for smart grid infrastructure
120(12)
5 Finite element analysis results of proposed all-dielectric self-supporting networking hardware
132(9)
6 Optimal power flow test systems vis-a-vis simulation results
141(5)
7 Summaries and future scope of work
146(13)
Appendix
152(2)
Acknowledgments
154(1)
References
154(5)
6 Internet of Things for smart grid applications
159(32)
P. Manoj
Y. Bhuvan Kumar
M. Gowtham
D.B. Vishwas
A. V. Ajay
1 Introduction to the Internet of Things
159(1)
2 Internet of Things protocols
159(4)
3 Implementation
163(7)
4 Smart grid applications
170(10)
5 Cybersecurity
180(8)
6 Conclusion
188(3)
References
188(1)
Further reading
189(2)
7 Smart grid modernization using Internet of Things technology
191(22)
Mamata Rath
Anuradha Tomar
1 Smart grid design challenges
191(4)
2 Smart grid control infrastructure
195(3)
3 Road map from smart grid to Internet of Energy concept
198(11)
4 Conclusion
209(4)
References
209(3)
Further reading
212(1)
8 Grid integration of single stage solar photovoltaic system using the exponential-based variable-step-size least mean square filtering control technique
213(24)
Pushpendra
Rashmi Agarwal
1 Introduction
213(2)
2 Proposed three-phase three-wire solar photovoltaic system
215(1)
3 Control technique
215(10)
4 Results
225(10)
5 Conclusion
235(2)
Appendix
235(1)
References
236(1)
9 Environmental and technoeconomic aspects of distributed generation
237(28)
Neeraj Gupta
Karan Singh Joshal
Anuradha Tomar
1 Introduction
237(3)
2 Impact of centralized generation on the environment
240(1)
3 What is driving distributed generation?
241(1)
4 Environmental issues related to distributed generation
242(10)
5 Technical and other challenges of moving toward distributed generation
252(3)
6 Economics of distributed generation
255(1)
7 Incentives by different governments for distributed generation
256(5)
8 Conclusion
261(4)
References
261(4)
10 Forecasting of renewable generation for applications in smart grid power systems
265(34)
Debesh Shankar Tripathy
B. Rajanarayan Prusty
1 Introduction
265(2)
2 Renewable generation forecasting
267(6)
3 Time-series-based forecasting of renewable generation
273(4)
4 Regression-based forecasting of renewable generation
277(9)
5 Flowcharts of well-established regression-based probabilistic forecasting methods
286(1)
6 Results and discussion
287(9)
7 Conclusion
296(3)
References
296(3)
11 Power quality issues, modeling, and control techniques
299(32)
Alka Singh
Manoj Badoni
1 Introduction to power quality
299(1)
2 Power quality issues
300(1)
3 Sources of poor power quality
301(1)
4 Effects of poor power quality on end users
302(1)
5 Compensators for mitigation of power quality problems
302(2)
6 Classification of active compensators
304(1)
7 Selection of active compensators
305(1)
8 Design and modeling of active shunt compensator
305(3)
9 Development of active shunt compensator controller
308(7)
10 Simulation study and performance of active shunt compensator
315(1)
11 Application of active shunt compensator in grid integration of solar photovoltaic system
316(2)
12 Design, modeling, and control of solar photovoltaic-distribution static compensator system
318(4)
13 Simulation study and performance of grid interfaced photovoltaic-distribution static compensator system
322(4)
14 Conclusions
326(5)
References
328(3)
12 A novel adaptive fuzzy-based controller design using field programmable gate arrays for grid-connected photovoltaic systems
331(34)
Narendra Babu P.
Kaibalya Prasad Panda
Chittibabu B.
Rangababu P.
Gayadhar Panda
1 Introduction
331(3)
2 System description
334(6)
3 Proposed fuzzy logic proportional integral derivative based on echo state network reference current generator
340(8)
4 Simulation and experimental results under different scenarios
348(11)
5 Conclusion
359(6)
Nomenclature
361(1)
Acronyms
361(1)
Acknowledgment
362(1)
References
362(3)
13 Renewable energy integration in modern deregulated power system: challenges, driving forces, and lessons for future road map
365(20)
Divya Asija
Rajkumar Viral
1 Introduction
365(4)
2 Structure of the modern power system
369(8)
3 Renewable energy integration
377(4)
4 Driving forces and the future road map
381(1)
5 Conclusion
382(3)
References
382(3)
Index 385
Dr. Anuradha Tomar has 12 years of experience and currently is working as Postdoctoral researcher at Eindhoven University of Technology, the Netherlands. She has received her B.E Degree in Electronics Instrumentation & Control with Honours (2007) from University of Rajasthan and M.Tech Degree with Honours in Power System (2009) from National Institute of Technology Hamirpur. She has received her Ph. D in Electrical Engineering, from Indian Institute of Technology Delhi. Dr. Tomar has committed her research work for the development of sustainable, energy efficient solutions for the empowerment of society. Her research interest are Photovoltaic systems, Microgrid, Energy conservation and Automation. She has authored or co-authored 69 research/review papers in various reputed International, National Journals, and Conferences. Her research interests include photovoltaic systems, microgrids, energy conservation. She has also filled seven Indian patents on her name. Dr. Tomar is Senior member of IEEE, LM of ISTE, IETE, IEI, and IAENG. Ritu Kandari received her B.Tech. Degree in Electrical and Electronics from Guru Gobind Singh Indraprastha University, India, in 2010, and M.Tech. Degree in Digital Communication from Ambedkar Institute of Advanced Communication Technologies and Research, Delhi, in 2012. She joined HMR Institute of Technology and Management, Delhi as an assistant professor in 2012. She is currently pursuing her PhD. Degree in renewable energy at the Department of Electronics and Communication Engineering, IGDTUW, Delhi. Kandari has co-edited 3 books with Elsevier and was also a guest associate editor of the special issue on electricity islands for the journal Renewable & Sustainable Energy Reviews.