The Smart Grid represents an unprecedented opportunity to move the energy industry into a new era of reliability, availability, and efficiency that will contribute to our economic and environmental health. During the transition period, it will be critical to carry out testing, technology improvements, consumer education, development of standards and regulations, and information sharing between projects to ensure that the benefits we envision from the Smart Grid become a reality.

Today, an electricity disruption such as a blackout can have a domino effect—a series of failures that can affect banking, communications, traffic, and security. This is a particular threat in the winter, when homeowners can be left without heat. A smarter grid will add resiliency to our electric power system and make it better prepared to address emergencies such as severe storms, earthquakes, large solar flares, and terrorist attacks. Because of its two-way interactive capacity, the Smart Grid will allow for automatic rerouting when equipment fails or outages occur. This will minimize outages and minimize the effects when they do happen. When a power outage occurs, Smart Grid technologies will detect and isolate the outages, containing them before they become large-scale blackouts. The new technologies will also help ensure that electricity recovery resumes quickly and strategically after an emergency—routing electricity to emergency services first, for example. In addition, the Smart Grid will take greater advantage of customer-owned power generators to produce power when it is not available from utilities. By combining these "distributed generation" resources, a community could keep its health center, police department, traffic lights, phone system, and grocery stores operating during emergencies. In addition, the Smart Grid is a way to address an aging energy infrastructure that needs to be upgraded or replaced.

This book shows that Smart Grids can address energy efficiency, to bring increased awareness to consumers about the connection between electricity use and the environment, bring increased national security to our energy system—drawing on greater amounts of home-grown electricity that is more resistant to natural disasters and attack.

chapter 1|20 pages

Power Electronics in Smart Grid

ByPadmanaban Sanjeevikumar, Mohammad Zand, Morteza Azimi Nasab, Mohsen Eskandari, Tina Samavat, Alireza Jahangiri, Mohammad H. Moradi

chapter 2|62 pages

Power Electronics in HVDC Transmission Systems

ByMehdi Abbasipour, Xiaodong Liang, Massimo Mitolo

chapter 4|18 pages

Security Challenges in Smart Grid Management

ByS. Nithya, K. Vijayalakshmi, M. Parimala Devi

chapter 5|22 pages

Differential Protection Scheme along with Backup Blockchain System

ByE. Fantin Irudaya Raj, K. Manimala, M. Appadurai

chapter 6|27 pages

Planning Active Distribution Systems Using Microgrid Formation

ByShah Mohammad Rezwanul Haque Shawon, Xiaodong Liang, Massimo Mitolo

chapter |26 pages

Overview on Reliability of PV Inverters in Grid-connected Applications

ByRanjith kumar Gatla, N.V. Prasad K, P. Sridhar, Jianghua Lu, Devineni Gireesh kumar

chapter 8|26 pages

Energy Storage

BySanjeevikumar Padmanaban, Mohammad Zand, Morteza Azimi Nasab, Mohamadmahdi Shahbazi, Heshmatallah Nourizadeh

chapter 9|16 pages

A Comprehensive Review of Techniques for Enhancing Lifetime of Wireless Sensor Network

ByRaj Gaurang Tiwari, Alok, Ambuj Kumar Agarwal, Vikas Khullar

chapter 10|33 pages

Soft Open Points in Active Distribution Systems

ByMd Abu Saaklayen, Xiaodong Liang, Sherif O. Faried, Massimo Mitolo

chapter 11|22 pages

Future Advances in Wind Energy Engineering

ByBiswajit Mohapatra