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This book gathers invited top experts on Public-Private partnership
(PPP) in China, from both theoretical and practical fields, to
present the most comprehensive analyses of PPP's practice in China
up to 2017. This timely book offers researchers and practitioners a
thorough understanding of the PPP's development in China, including
its definition, its modes, its features as well as its many kinds
of applications into different industries including medical care,
environmental protection, education, public works, park
development, etc. It addresses diverse themes in PPP analyses such
as quantitative analyses and qualitative analyses; data statistics
and case study, theoretical framework modeling and field study
verification. The book is an overview of the Chinese PPP
development through 2017.
This book gathers invited top experts on Public-Private partnership
(PPP) in China, from both theoretical and practical fields, to
present the most comprehensive analyses of PPP's practice in China
up to 2017. This timely book offers researchers and practitioners a
thorough understanding of the PPP's development in China, including
its definition, its modes, its features as well as its many kinds
of applications into different industries including medical care,
environmental protection, education, public works, park
development, etc. It addresses diverse themes in PPP analyses such
as quantitative analyses and qualitative analyses; data statistics
and case study, theoretical framework modeling and field study
verification. The book is an overview of the Chinese PPP
development through 2017.
Advances in Grid-Connected Photovoltaic Power Conversion Systems
addresses the technological challenges of fluctuating and
unreliable power supply in grid-connected photovoltaic (PV) systems
to help students, researchers, and engineers work toward more PV
installations in the grid to make society more sustainable and
reliable while complying with grid regulations. The authors combine
their extensive knowledge and experience in this book to address
both the basics of the power electronic converter technology and
the advances of such practical electric power conversion systems.
This book includes extensive, step-by-step practical application
examples to assist students and engineers to better understand the
role of power electronics in modern PV applications and solve the
practical issues in grid-connected PV systems.
The importance of power electronic converters for electricity grid
equipment is increasing due to the growing distribution-level
penetration of renewable energy sources. The performance of the
converters mostly depends on interactions between sources, loads,
and their state of operation. These devices must be operated with
safety and stability under normal conditions, fault conditions,
overloads, as well as different operation modes. Therefore,
enhanced control strategies of power electronic converters are
necessary to improve system stability. This book for researchers
and practitioners discusses enhanced control strategies, fault and
failure mode classification mechanisms, and reliability analysis
methods for PV modules, power electronic converters, and
grid-connected PV systems, and thermal image-based monitoring. The
technologies conveyed serve to improve the reliability and
stability of power systems. Life calculation of converters, and
case and reliability studies are included as well. The
international author team consists of researchers with a range of
backgrounds from academia and industry.
A key issue for power electronic converters is the ability to
tackle periodic signals in electrical power processing to precisely
and flexibly convert and regulate electrical power. This book
provides complete analysis and synthesis methods for periodic
control systems. It covers the control, compensation, and filtering
of periodic signals in power electronic power processing and
proposes a unified framework for housing periodic control schemes
for power converters, providing a general
proportional-integral-derivative control solution to periodic
signal compensation in extensive engineering applications - a
perfect periodic control solution for power electronic conversion.
It provides a number of demonstrative practical examples of the
application of periodic control to: standalone
constant-voltage-constant-frequency (CVCF) singlephase Pulse Width
Modulation (PWM) inverters; standalone CVCF singlephase High
Frequency Link (HFL) inverters; standalone CVCF three-phase PWM
inverters; grid-connected single-phase inverters; grid-connected
singlephase "Cycloconverter" type HFL rectifiers; grid-connected
three-phase PWM inverters; programmable AC power sources; shunt
active power filters; and UPS systems. Periodic Control of Power
Electronic Converters is of key importance for researchers and
engineers in the field of power electronic converter systems and
their applications, for control specialists exploring new
applications of control theory in power electronics, and for
advanced university students in these fields.
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