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This book comprises the select proceedings of the International Conference on Power Engineering Computing and Control (PECCON) 2019. This volume focuses on the different renewable energy sources which are integrated in a smart grid and their operation both in the grid connected mode and islanded mode. The contents highlight the role of power converters in the smart grid environment, battery management, electric vehicular technology and electric charging station as a load for the power network. This book can be useful for beginners, researchers as well as professionals interested in the area of smart grid technology.

Power electronics. --- Electrical engineering. --- Energy systems. --- Energy efficiency. --- Renewable energy resources. --- Power Electronics, Electrical Machines and Networks. --- Communications Engineering, Networks. --- Energy Systems. --- Energy Efficiency. --- Renewable and Green Energy. --- Consumption of energy --- Energy efficiency --- Fuel consumption --- Fuel efficiency --- Power resources --- Energy conservation --- Electric engineering --- Engineering --- Electronics, Power --- Electric power --- Electronics --- Electrical engineering --- Smart power grids --- Grids, Smart power --- Power grids, Smart --- Smart grids (Electric power distribution) --- Electric power distribution --- Automation

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The current power system should be renovated to fulfill social and industrial requests and economic advances. Hence, providing economic, green, and sustainable energy are key goals of advanced societies. In order to meet these goals, recent features of smart grid technologies need to have the potential to improve reliability, flexibility, efficiency, and resiliency. This book aims to address the mentioned challenges by introducing advanced approaches, business models, and novel techniques for the management and control of future smart grids.

History of engineering & technology --- power system oscillations --- stability --- Prony method --- intrinsic mode functions (IMFs) --- wide-area measurement system (WAMS) --- phasor measurement units (PMUs) --- frequency stability --- load frequency control --- communication system delay --- virtual inertia --- microgrid --- recursive damped least squares --- black-box modeling --- online identification --- energy management system --- demand-side management --- uncertainty --- energy storage --- distributed generation --- activity recognition --- activity detection --- activity prediction --- smart building --- energy and comfort management --- digital microgrid --- power grid --- integer linear programming --- routing energy --- distributed energy resources --- Dijkstra algorithm --- Islanding detection --- modern power system --- anti-islanding --- protection --- sequence components --- earth fault location --- negative sequence current --- holistic power system architecture --- smart grid --- fractal design --- fractal grid --- LINK-paradigm --- market design --- local electricity market --- large-scale --- distributed generations --- low-voltage active distribution network --- islanded mode --- non-homogeneous model --- synchronization --- n/a

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The electrical demands in several countries around the world are increasing due to the huge energy requirements of prosperous economies and the human activities of modern life. In order to economically transfer electrical powers from the generation side to the demand side, these powers need to be transferred at high-voltage levels through suitable transmission systems and power substations. To this end, high-voltage transmission systems and power substations are in demand. Actually, they are at the heart of interconnected power systems, in which any faults might lead to unsuitable consequences, abnormal operation situations, security issues, and even power cuts and blackouts. In order to cope with the ever-increasing operation and control complexity and security in interconnected high-voltage power systems, new architectures, concepts, algorithms, and procedures are essential. This book aims to encourage researchers to address the technical issues and research gaps in high-voltage transmission systems and power substations in modern energy systems.

Technology: general issues --- VFTO suppression --- GIS --- high-frequency inductance calculation --- damping busbar --- dynamic state estimation (DSE) --- synchronous machine --- ensemble square root filter (EnSRF) --- Sage–Husa algorithm --- grounding grid --- magnetic field --- orientation --- transient electromagnetic method (TEM) --- traction power-supply system --- protective relay --- digital simulator --- monitoring and controlling system --- railway --- transformer --- transmission line --- discrete wavelet transform --- mother wavelet --- fault classification --- multiprocessor system --- online non-clairvoyant scheduling --- weighted flow time --- potential analysis --- energy efficiency --- modular multilevel converter --- STATCOM --- optimization --- harmonics --- Harris Hawk’s optimization --- Atom search optimization --- laser-induced breakdown spectroscopy --- contamination --- insulators --- salt --- calibration curves --- PV water pumping --- high gain DC-DC converter --- modified LUO converter --- hybrid MPPT algorithm --- grey wolf optimizer --- cyber-physical security --- microgrid --- cyber-attacks --- n/a --- Sage-Husa algorithm --- Harris Hawk's optimization

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• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

The electrical demands in several countries around the world are increasing due to the huge energy requirements of prosperous economies and the human activities of modern life. In order to economically transfer electrical powers from the generation side to the demand side, these powers need to be transferred at high-voltage levels through suitable transmission systems and power substations. To this end, high-voltage transmission systems and power substations are in demand. Actually, they are at the heart of interconnected power systems, in which any faults might lead to unsuitable consequences, abnormal operation situations, security issues, and even power cuts and blackouts. In order to cope with the ever-increasing operation and control complexity and security in interconnected high-voltage power systems, new architectures, concepts, algorithms, and procedures are essential. This book aims to encourage researchers to address the technical issues and research gaps in high-voltage transmission systems and power substations in modern energy systems.

VFTO suppression --- GIS --- high-frequency inductance calculation --- damping busbar --- dynamic state estimation (DSE) --- synchronous machine --- ensemble square root filter (EnSRF) --- Sage–Husa algorithm --- grounding grid --- magnetic field --- orientation --- transient electromagnetic method (TEM) --- traction power-supply system --- protective relay --- digital simulator --- monitoring and controlling system --- railway --- transformer --- transmission line --- discrete wavelet transform --- mother wavelet --- fault classification --- multiprocessor system --- online non-clairvoyant scheduling --- weighted flow time --- potential analysis --- energy efficiency --- modular multilevel converter --- STATCOM --- optimization --- harmonics --- Harris Hawk’s optimization --- Atom search optimization --- laser-induced breakdown spectroscopy --- contamination --- insulators --- salt --- calibration curves --- PV water pumping --- high gain DC-DC converter --- modified LUO converter --- hybrid MPPT algorithm --- grey wolf optimizer --- cyber-physical security --- microgrid --- cyber-attacks --- n/a --- Sage-Husa algorithm --- Harris Hawk's optimization