9 research outputs found
Power Converters in Power Electronics
In recent years, power converters have played an important role in power electronics technology for different applications, such as renewable energy systems, electric vehicles, pulsed power generation, and biomedical sciences. Power converters, in the realm of power electronics, are becoming essential for generating electrical power energy in various ways. This Special Issue focuses on the development of novel power converter topologies in power electronics. The topics of interest include, but are not limited to: Z-source converters; multilevel power converter topologies; switched-capacitor-based power converters; power converters for battery management systems; power converters in wireless power transfer techniques; the reliability of power conversion systems; and modulation techniques for advanced power converters
Applications of MATLAB in Science and Engineering
The book consists of 24 chapters illustrating a wide range of areas where MATLAB tools are applied. These areas include mathematics, physics, chemistry and chemical engineering, mechanical engineering, biological (molecular biology) and medical sciences, communication and control systems, digital signal, image and video processing, system modeling and simulation. Many interesting problems have been included throughout the book, and its contents will be beneficial for students and professionals in wide areas of interest
Energy: A special bibliography with indexes, April 1974
This literature survey of special energy and energy related documents lists 1708 reports, articles, and other documents introduced into the NASA scientific and technical information system between January 1, 1968, and December 31, 1973. Citations from International Aerospace Abstracts (IAA) and Scientific and Technical Aerospace Reports (STAR) are grouped according to the following subject categories: energy systems; solar energy; primary energy sources; secondary energy sources; energy conversion; energy transport, transmission, and distribution; and energy storage. The index section includes the subject, personal author, corporate source, contract, report, and accession indexes
Improving the performance of hybrid wind-diesel-battery systems
Off-grid hybrid renewable energy systems are known as an attractive and sustainable
solution for supplying clean electricity to autonomous consumers. Typically, this
applies to the communities that are located in remote or islanded areas where it is not
cost-effective to extend the grid facilities to these regions. In addition, the use of
diesel generators for electricity supply in these remote locations are proven to be
uneconomical due to the difficult terrain which translates into high fuel
transportation costs. The use of renewable energy sources, coupling with the diesel
generator allows for the diesel fuel to be offset. However, to date, a common design
standard for the off-grid system has yet to be found and some challenges still exist
while attempting to design a reliable system. These include the sizing of hybrid
systems, coordination between the operation of dissimilar power generators and the
fluctuating load demands, optimal utilisation of the renewable energy resources and
identifying the underlying principles which reduce the reliability of the off-grid
systems.
In order to address these challenges, this research has first endeavoured into
developing a sizing algorithm which particularly seeks the optimal size of the
batteries and the diesel generator usage. The batteries and diesel generator function
in filling the gap between the power generated from the renewable energy resources
and the load demand. Thus, the load requirement is also an important factor in
determining the cost-effectiveness of the overall system in the long run. A sensitivity
analysis is carried out to provide a better understanding of the relationship between
the assessed renewable energy resources, the load demand, the storage capacity and
the diesel generator fuel usage.
The thesis also presents the modelling, simulation and experimental work on the
proposed hybrid wind-diesel-battery system. These are being implemented with a
full-scale system and they are based on the off-the-shelf components. A novel
algorithm to optimise the operation of a diesel generator is also proposed. The
steady-state and dynamic analysis of the proposed system are presented, from both
simulation and an experimental perspective. Three single-phase grid-forming
inverters and a fixed speed wind turbine are used as a platform for case studies. The
grid-forming inverters adopt droop control method which allows parallel operation of
several grid-forming sources. Droop control-based inverters are known as
independent and autonomous due to the elimination of intercommunication links
among distributed converters. Moreover, the adopted fixed speed wind turbine
employs a squirrel cage induction generator which is well known for its robustness,
high reliability, simple operation and low maintenance. The results show a good
correlation between the modelling, the experimental measurements, and the field
tested results.
The final stage of this research explores the effect of tower shadow on off-grid
systems. Common tower designs for small wind turbine applications, which are the
tubular and the lattice configurations, are considered in this work. They generate
dissimilar tower shadow profiles due to the difference in structure. In this research,
they are analytically modelled for a wind turbine which is being constructed as a
downwind configuration. It is proven that tower shadow indeed brings negative
consequence to the system, particularly its influence on battery lifetime within an
off-grid system. This detrimental effect occurs when power generation closely
matches the load demand. In this situation, small frequent charging and discharging
cycles or the so called microcycles, take place. The battery lifetime reduction due to
these microcycles has been quantified and it is proven that they are not negligible
and should be taken into consideration while designing an off-grid hybrid system