Power Electronics and Control Techniques for Maximum Energy Harvesting in Photovoltaic Systems By Nicola Femia and Giovanni Petrone
Power Electronics and Control Techniques for Maximum Energy Harvesting in Photovoltaic Systems Download PDF
Picture Of The Book :
Power Electronics and Control Techniques for Maximum Energy Harvesting in Photovoltaic Systems By Nicola Femia and Giovanni Petrone
About Of The Book :
The scientific literature concerning PV applications has been characterized
by a strong quantitative and qualitative growth in the past decade. A huge
number of papers have been written and continue to be published in many
journals, and there are many high-impact scientific journals specifically
devoted to PV systems. A significant number of scientific papers are dedi-
cated to control of the PV source. A simple search on the Reuters Thomson
website reveals that at the end of May 2012, about 600 papers include maxi-
mum power point tracking (MPPT) among their keywords. Many authors have
contributed to the scientific field of circuits and systems, ensuring the best
operation of the photovoltaic generator, but a reference in this field is still
lacking
Some books have recently been published assessing the most significant improvements in connecting PV systems to the grid. The latest developments in this field are reviewed and the various solutions provided to researchers as a starting point for their activities and industries to develop new products. The aim of this book is to bridge the gap in the field of control circuits, systems
tems, and technologies dedicated to maximizing the electrical energy produced by a PV source. In the first part of the book, an overview of methods that allow PV matrix modeling operating under uniform and mismatched conditions is presented. Next, the ways in which best MPPT performance can be achieved are discussed. The design of the parameters affecting the performance of the algorithm was addressed. Then the maximization of harvested energy under mismatched conditions is discussed, in terms of power engineering and control algorithms. Finally, the design of a DC / DC converter, which typically performs the function of MPPT, is discussed, with a special focus on energy efficiency.
Photovoltaic (PV) systems produce a large amount of electrical energy used worldwide. Photovoltaic technology will be able to provide a significant amount of support in the future to the growth rate of advanced economies as well as developing countries. The incentives introduced by European governments in the first stage led to the rapid growth of the photovoltaic market and an increase in the number and quality of products offered by the industry. Photovoltaic modules by several producers are now commercially available, and a number of electronic power systems have been introduced to the market to treat the electrical energy produced by photovoltaic systems, especially for grid-connected applications. The scientific literature related to PV applications is described
Through strong quantitative and qualitative growth in the past decade. A large number of research papers have been written and are still being published in various journals, and there are many high impact scientific journals specifically devoted to PV systems. A large number of scientific papers are devoted to controlling the PV source. A simple search on Reuters Thomson's website reveals that at the end of May 2012, around 600 research papers included Maximum Power Point Tracking (MPPT) among their keywords. Several authors have contributed to the scientific field of circuits and systems, ensuring better operation of the photoelectric generator, but there is still a shortage of reference in this area.
Contents Of The Book :
1 PV Modeling
2 Maximum Power Point Tracking
3 MPPT Efficiency: Noise Sources and Methods for Reducing Their Effects
4 Distributed Maximum Power Point Tracking of Photovoltaic Arrays
5 Design of High-Energy-Efficiency Power Converters for PV MPPT Applications
Information Of The Book :
File Name Of The Book : Power Electronics and Control Techniques for Maximum Energy Harvesting in Photovoltaic Systems
language : English
Page : 300
Format : PDF
File Size : 24.7 MB
Author : Nicola Femia and Giovanni Petrone