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Long description: With the ongoing transition of the electrical power system to a more sustainable generation structure we need new ideas and solutions for a safe and reliable energy supply. We named the NEIS event Conference on sustainable energy supply and integration of energy storage systems. This implies that the future power system design demands a sustainable approach with several contributions and ideas from different application fields. The NEIS 2019 was the seventh conference event, providing an annual occasion for scientists to present their current work. A special focus of this year`s topics was placed on electrical power grids and grid related aspects such as grid monitoring and protection as well as electro-mobility. The speakers and participants came from South Africa, India, Iran, Poland, Austria and Germany. Every year we have at least one international keynote-speaker to bring new impulse to the participants and enhance the international collaboration within the community.

Power Quality --- Distribution Grids --- Electric Power Engineering --- Energy Storage Systems --- Harmonic Impedance Measurement --- Micro Grids --- Renewable Energies --- Grid Failures in DC and AC Gri --- Grid Support --- Power Converter Control --- Reactive Power Management

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The heat storage based on thermochemical technology is associated with higher amounts of energy stored with respect to systems based on sensible heat. This interesting feature is stimulating the interest of the scientific community, among energy providers and grid managers, since it can effectively support the operation and integration of renewable high-efficiency systems and local smart grids. Research in this field is achieving unprecedented goals thanks to the profitable exploitation of results obtained in the field of heat pumps and thermally driven systems. The present issue offers the reader a sensational window to this rapidly evolving world.

Research & information: general --- Technology: general issues --- solar DWH --- adsorption --- heat storage --- energy efficiency --- climate conditions --- numerical simulation --- chemical sorption --- system efficiency --- reaction enthalpy --- theoretical limits --- cold storage --- mobile refrigeration --- FAM Z02 --- SAPO-34 --- zeolite --- thermochemical storage --- sorption heat storage --- power-to-heat --- power grid support --- thermal storage --- solar systems --- experimental campaign --- numerical modelling --- SAPO34 --- foam --- solar DWH --- adsorption --- heat storage --- energy efficiency --- climate conditions --- numerical simulation --- chemical sorption --- system efficiency --- reaction enthalpy --- theoretical limits --- cold storage --- mobile refrigeration --- FAM Z02 --- SAPO-34 --- zeolite --- thermochemical storage --- sorption heat storage --- power-to-heat --- power grid support --- thermal storage --- solar systems --- experimental campaign --- numerical modelling --- SAPO34 --- foam

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This book is a collection of papers covering various aspects of the optimal control of power and energy production from renewable resources (wind, PV, biomass, hydrogen, etc.). In particular, attention is focused both on the optimal control of new technologies and on their integration in buildings, microgrids, and energy markets. The examples presented in this book are among the most promising technologies for satisfying an increasing share of thermal and electrical demands with renewable sources: from solar cooling plants to offshore wind generation; hybrid plants, combining traditional and renewable sources, are also considered, as well as traditional and innovative storage systems. Innovative solutions for transportation systems are also explored for both railway infrastructures and advanced light rail vehicles. The optimization and control of new solutions for the power network are addressed in detail: specifically, special attention is paid to microgrids as new paradigms for distribution networks, but also in other applications (e.g., shipboards). Finally, optimization and simulation models within SCADA and energy management systems are considered. This book is intended for engineers, researchers, and practitioners that work in the field of energy, smart grid, renewable resources, and their optimization and control.

History of engineering & technology --- fuel cell --- power control --- multi-objective optimization --- equivalent consumption minimization strategy --- firefly algorithm --- hybrid light rail vehicle --- solar energy --- Fresnel collector --- model predictive control --- fuzzy algorithm --- hybrid systems --- shipboard microgrids --- photovoltaic (PV) systems --- energy storage technologies --- microgrids --- hybrid energy storage systems (HESS) --- floating offshore wind turbine --- aerodynamic platform stabiliser --- wave rejection --- feedback loop --- control --- optimisation --- energy storage --- pumped storage hydro --- ternary pumped storage hydro --- dynamic simulation --- dynamic modeling --- inertia --- renewable energy --- power system --- primary control --- BESS --- microgrid --- Grid Forming --- Grid Support --- Inverter Control --- DIgSILENT PowerFactory --- EMT simulations --- eco-friendliness --- smart railway --- smart electrical infrastructure --- control algorithm --- regenerative braking energy --- smart grid --- optimization --- energy management system --- interconnected buildings --- renewable resources --- multi-level --- aggregator --- wind-diesel power plant --- intelligent control system --- diesel-generator set --- internal combustion engine --- artificial neural network --- fuel economy --- co-simulation --- SCADA --- operator training --- building energy management system --- simulation --- equivalent electric circuit

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

This book is a collection of papers covering various aspects of the optimal control of power and energy production from renewable resources (wind, PV, biomass, hydrogen, etc.). In particular, attention is focused both on the optimal control of new technologies and on their integration in buildings, microgrids, and energy markets. The examples presented in this book are among the most promising technologies for satisfying an increasing share of thermal and electrical demands with renewable sources: from solar cooling plants to offshore wind generation; hybrid plants, combining traditional and renewable sources, are also considered, as well as traditional and innovative storage systems. Innovative solutions for transportation systems are also explored for both railway infrastructures and advanced light rail vehicles. The optimization and control of new solutions for the power network are addressed in detail: specifically, special attention is paid to microgrids as new paradigms for distribution networks, but also in other applications (e.g., shipboards). Finally, optimization and simulation models within SCADA and energy management systems are considered. This book is intended for engineers, researchers, and practitioners that work in the field of energy, smart grid, renewable resources, and their optimization and control.

History of engineering & technology --- fuel cell --- power control --- multi-objective optimization --- equivalent consumption minimization strategy --- firefly algorithm --- hybrid light rail vehicle --- solar energy --- Fresnel collector --- model predictive control --- fuzzy algorithm --- hybrid systems --- shipboard microgrids --- photovoltaic (PV) systems --- energy storage technologies --- microgrids --- hybrid energy storage systems (HESS) --- floating offshore wind turbine --- aerodynamic platform stabiliser --- wave rejection --- feedback loop --- control --- optimisation --- energy storage --- pumped storage hydro --- ternary pumped storage hydro --- dynamic simulation --- dynamic modeling --- inertia --- renewable energy --- power system --- primary control --- BESS --- microgrid --- Grid Forming --- Grid Support --- Inverter Control --- DIgSILENT PowerFactory --- EMT simulations --- eco-friendliness --- smart railway --- smart electrical infrastructure --- control algorithm --- regenerative braking energy --- smart grid --- optimization --- energy management system --- interconnected buildings --- renewable resources --- multi-level --- aggregator --- wind-diesel power plant --- intelligent control system --- diesel-generator set --- internal combustion engine --- artificial neural network --- fuel economy --- co-simulation --- SCADA --- operator training --- building energy management system --- simulation --- equivalent electric circuit --- fuel cell --- power control --- multi-objective optimization --- equivalent consumption minimization strategy --- firefly algorithm --- hybrid light rail vehicle --- solar energy --- Fresnel collector --- model predictive control --- fuzzy algorithm --- hybrid systems --- shipboard microgrids --- photovoltaic (PV) systems --- energy storage technologies --- microgrids --- hybrid energy storage systems (HESS) --- floating offshore wind turbine --- aerodynamic platform stabiliser --- wave rejection --- feedback loop --- control --- optimisation --- energy storage --- pumped storage hydro --- ternary pumped storage hydro --- dynamic simulation --- dynamic modeling --- inertia --- renewable energy --- power system --- primary control --- BESS --- microgrid --- Grid Forming --- Grid Support --- Inverter Control --- DIgSILENT PowerFactory --- EMT simulations --- eco-friendliness --- smart railway --- smart electrical infrastructure --- control algorithm --- regenerative braking energy --- smart grid --- optimization --- energy management system --- interconnected buildings --- renewable resources --- multi-level --- aggregator --- wind-diesel power plant --- intelligent control system --- diesel-generator set --- internal combustion engine --- artificial neural network --- fuel economy --- co-simulation --- SCADA --- operator training --- building energy management system --- simulation --- equivalent electric circuit