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This book collects a selection of papers presented at ELECTRIMACS
2019 - The 13th international conference of the IMACS TC1
Committee, held in Salerno, Italy, on 21st-23rd May 2019. The
conference papers deal with modelling, simulation, analysis,
control, power management, design optimization, identification and
diagnostics in electrical power engineering. The main application
fields include electric machines and electromagnetic devices, power
electronics, transportation systems, smart grids, electric and
hybrid vehicles, renewable energy systems, energy storage,
batteries, supercapacitors and fuel cells, wireless power transfer.
The contributions included in Volume 2 are particularly focussed on
methodological aspects, modelling and applied mathematics in the
field of electrical engineering.
This book collects a selection of papers presented at ELECTRIMACS
2019, the 13th international conference of the IMACS TC1 Committee,
held in Salerno, Italy, on 21st-23rd May 2019. The conference
papers deal with modelling, simulation, analysis, control, power
management, design optimization, identification and diagnostics in
electrical power engineering. The main application fields include
electric machines and electromagnetic devices, power electronics,
transportation systems, smart grids, electric and hybrid vehicles,
renewable energy systems, energy storage, batteries,
supercapacitors and fuel cells, and wireless power transfer. The
contributions included in Volume 1 are particularly focused on
electrical engineering simulation aspects and innovative
applications.
This book collects a selection of papers presented at ELECTRIMACS
2019 - The 13th international conference of the IMACS TC1
Committee, held in Salerno, Italy, on 21st-23rd May 2019. The
conference papers deal with modelling, simulation, analysis,
control, power management, design optimization, identification and
diagnostics in electrical power engineering. The main application
fields include electric machines and electromagnetic devices, power
electronics, transportation systems, smart grids, electric and
hybrid vehicles, renewable energy systems, energy storage,
batteries, supercapacitors and fuel cells, wireless power transfer.
The contributions included in Volume 2 are particularly focussed on
methodological aspects, modelling and applied mathematics in the
field of electrical engineering.
This book collects a selection of papers presented at ELECTRIMACS
2019, the 13th international conference of the IMACS TC1 Committee,
held in Salerno, Italy, on 21st-23rd May 2019. The conference
papers deal with modelling, simulation, analysis, control, power
management, design optimization, identification and diagnostics in
electrical power engineering. The main application fields include
electric machines and electromagnetic devices, power electronics,
transportation systems, smart grids, electric and hybrid vehicles,
renewable energy systems, energy storage, batteries,
supercapacitors and fuel cells, and wireless power transfer. The
contributions included in Volume 1 are particularly focused on
electrical engineering simulation aspects and innovative
applications.
Incentives provided by European governments have resulted in the
rapid growth of the photovoltaic (PV) market. Many PV modules are
now commercially available, and there are a number of power
electronic systems for processing the electrical power produced by
PV systems, especially for grid-connected applications. Filling a
gap in the literature, Power Electronics and Control Techniques for
Maximum Energy Harvesting in Photovoltaic Systems brings together
research on control circuits, systems, and techniques dedicated to
the maximization of the electrical power produced by a photovoltaic
(PV) source. Tools to Help You Improve the Efficiency of
Photovoltaic Systems The book supplies an overview of recent
improvements in connecting PV systems to the grid and highlights
various solutions that can be used as a starting point for further
research and development. It begins with a review of methods for
modeling a PV array working in uniform and mismatched conditions.
The book then discusses several ways to achieve the best maximum
power point tracking (MPPT) performance. A chapter focuses on MPPT
efficiency, examining the design of the parameters that affect
algorithm performance. The authors also address the maximization of
the energy harvested in mismatched conditions, in terms of both
power architecture and control algorithms, and discuss the
distributed MPPT approach. The final chapter details the design of
DC/DC converters, which usually perform the MPPT function, with
special emphasis on their energy efficiency. Get Insights from the
Experts on How to Effectively Implement MPPT Written by well-known
researchers in the field of photovoltaic systems, this book tackles
state-of-the-art issues related to how to extract the maximum
electrical power from photovoltaic arrays under any weather
condition. Featuring a wealth of examples and illustrations, it
offers practical guidance for researchers and industry
professionals who want to implement MPPT in photovoltaic systems.
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