Low Speed Alternator Design, 2013 California Polytechnic State University - San Luis Obispo
Low Speed Alternator Design, Scott Merrick
Electrical Engineering
No abstract provided.
Design Of Improved Distribution Panel For The Dc House, 2013 California Polytechnic State University - San Luis Obispo
Design Of Improved Distribution Panel For The Dc House, Nolan Joksch
Electrical Engineering
The DC House is a humanitarian project intended to provide electricity to rural areas that would benefit from electricity, but are too remote to have access to it. This particular project is to design and construct the feeder box for the electrical distribution system to distribute power to the system as well as protect it. Building an electrical panel that is easily maintained and, above all, safe for the user is key to this project.
Micro Hydropower System, 2013 California Polytechnic State University - San Luis Obispo
Micro Hydropower System, Christpher Neally, Ian Verstuyft
Electrical Engineering
The micro hydropower project strives to meet the needs of a specific village in northern Thailand in partnership with Engineers Without Borders. Specifically, the electrical side of the system must be designed to convert the mechanical power of a flowing river that is turning a turbine into sustainable and dependable power. Currently available hydropower systems will be considered, analyzed, and tailored to suit the specific needs of the community in need. The system to be designed will be flexible enough to demonstrate proof-of-concept with the limited maximum generable power in lab while having the ability to be easily scaled for …
Cal Poly Wind Power Research Center Power Regulator, 2013 California Polytechnic State University - San Luis Obispo
Cal Poly Wind Power Research Center Power Regulator, Ricardo Rodriguez, Steven Bounchareune
Electrical Engineering
Through funding from the California Central Coast Research Partnership (C3RP) the
CPWRC, led by Dr. Patrick Lemieux, has erected a horizontal axis wind turbine (HAWT) at the
Cal Poly Escuela Ranch site EL04. With the help of Dr. John Ridgely and Dr. Art MacCarley, the team has implemented a controller that delivers the power being generated by the turbine to a resistor bank which maintains a safe working speed for the turbine. The authors objectives for this project are to (1) become familiar with the operation of the turbine, (2) develop an AC-DC converter that regulates the output of the …
Swing Human Powered Generator: For The Dc House Project, 2013 California Polytechnic State University - San Luis Obispo
Swing Human Powered Generator: For The Dc House Project, Juan Vicente Avelar, Juan Jose Galindo, Juan Pramyr Ramos
Electrical Engineering
The Play Park Human Powered Generator project addresses various ways of generating power. More specifically, this project entails the design and construction of the Swing Power Generator to provide electrical power from mechanical energy. The swing generator will eventually be used as part of the human-powered generators utilized in the DC House project.
A swing generator prototype was built for this project, which demonstrates the feasibility of its use for electrical power source. Detailed design and construction of the swing generator is presented in this report along with results from hardware testing.
Designing Anti-Islanding Detection Using The Synchrophasor Vector Processor, 2013 California Polytechnic State University, San Luis Obispo
Designing Anti-Islanding Detection Using The Synchrophasor Vector Processor, Ruth Christiana Huang
Master's Theses
ABSTRACT
Designing Anti-Islanding Detection Using the Synchrophasor Vector Processor
Ruth Huang
The need for distributed generation (DG) has become more and more popular because of the adverse effects of fossil fuels and the fear of running out of fossil fuels. By having DG, there are less transmission losses, voltage support, controllability of the system, decreased costs in transmission and distribution, power quality improvement, energy efficiency, and reduced reserve margin. The adverse effects of DG are voltage flicker, harmonics, and islanding. Islanding occurs when the DG continues to energize the power system when the main utility is disconnected. Detecting islanding is …
Multiple Input Single Output (Miso) Tablet/ Phone Charger, 2013 California Polytechnic State University, San Luis Obispo
Multiple Input Single Output (Miso) Tablet/ Phone Charger, Kevin Wong
Master's Theses
This thesis entails the design and implementation of a multiple input single output (MISO) DC-DC converter using the flyback topology to charge tablets/ smartphones or any USB powered portable device. The MISO converter will enable the use of various renewable energy sources such as a solar panel/ rechargeable battery combination, bicycle dynamo, hydroelectric power, and wind turbine. This paper will cover the design, simulations, and test results of the MISO converter. The flyback topology was chosen due to its low part count and its efficiency at low power. The proposed converter has a nominal 12V input to output USB 2.0 …
Impact Of Photovoltaic System Penetration On The Operation Of Voltage Regulator Equipment, 2013 California Polytechnic State University, San Luis Obispo
Impact Of Photovoltaic System Penetration On The Operation Of Voltage Regulator Equipment, Abesh Sorab Mubaraki
Master's Theses
The growing popularity of photovoltaic (PV) generation systems leads to an increase in the number of residential and commercial grid-tied PV systems that interconnect to the distribution circuit. This affects the characteristics of the distribution circuit; for example, the assumption that the voltage profile of a radial line decreases down-stream becomes invalid because of the addition of the PV system on the line. This poses new challenges when setting the parameters of voltage regulating devices. Add to that the fact that PV systems are intermittent, especially on cloudy days, which make the line even more difficult to regulate, and the …
Design Of Portable Dc Light Bulb For The Dc House Project, 2013 California Polytechnic State University, San Luis Obispo
Design Of Portable Dc Light Bulb For The Dc House Project, Jan Marvin Perez Macairan
Master's Theses
This thesis focuses on the design and implementation of the Portable DC Light Bulb system for Cal Poly San Luis Obispo’s DC House Project. The DC Portable Light Bulb highlights the NiMH battery charging circuit, buck converter, and boost converter. The system is intended as a flashlight adaptor placed in between the dimmable DC light bulb and its screw base. The adaptor adds a portability feature to the DC light bulb to provide lighting wherever the user pleases. The Portable DC Light Bulb system is designed to operate with an input range of 24V-60V and regulate an output voltage of …
The Bicycle-Powered Smartphone Charger, 2013 California Polytechnic State University, San Luis Obispo
The Bicycle-Powered Smartphone Charger, Chris Arntzen
Master's Theses
This thesis entails the design and fabrication of a smartphone charger that is powered by a bicycle dynamo hub. In addition to the design and validation of the charger prototype, this thesis involves the testing and characterization of the dynamo hub power source, the design and construction of specialized test equipment, and the design and prototyping of a handlebar-mounted case for the smartphone and charging electronics. With the intention of making the device a commercial product, price, aesthetics, and marketability are of importance to the design. An appropriate description of the charger circuit is a microcontroller-based energy management system, tailored …
Bi-Directional Flyback Dc-Dc Converter For Battery System Of The Dc House Project, 2013 California Polytechnic State University, San Luis Obispo
Bi-Directional Flyback Dc-Dc Converter For Battery System Of The Dc House Project, Austin J. Luan
Master's Theses
The DC House project strongly relies on renewable energy sources to provide power to the house for various loads. However, when these sources are unable to provide power at a certain time, a back-up energy source from a battery must be readily available to fulfill the house’s power needs. This thesis proposes a bi-directional flyback power converter to allow a single-stage power path to charge the battery from and to discharge the battery to the DC House 48 V system bus. The design, simulation, and hardware prototype of the proposed flyback bi-directional converter will be conducted to demonstrate its feasibility. …
Renewable Energy And Smart Grid Integration Through#11;Advanced Power Electronics, 2013 Minia University
Renewable Energy And Smart Grid Integration Through#11;Advanced Power Electronics, Dr. Adel A. Elbaset
Dr. Adel A. Elbaset
As electricity demands are increasing day by day causing unbalance in the present grid system which results in various causes like load shedding, unbalance voltage and power quality etc which ultimately affects the consumers. Now to avoid all such situations the only option is to meet the demand by increasing generation but, we are also lagging with the conventional sources so generating more power is also not convenient by conventional ways. Therefore, recent researches are interested in renewable energy system integrated with smart grid through advanced power electronic converters. Smart gird with renewable energy sources have been regarded as the …
Micro Modeling Study Of Cathode/Electrolyte Interfacial Stresses For Solid Oxide Fuel Cells, 2013 University of South Carolina - Columbia
Micro Modeling Study Of Cathode/Electrolyte Interfacial Stresses For Solid Oxide Fuel Cells, Xinfang Jin, Xingjian Xue
Faculty Publications
Delamination of the cathode/electrolyte interface is an important degradation phenomenon in solid oxide fuel cells (SOFCs). While the thermal stress has been widely recognized as one of the major reasons for such delamination failures, the role of chemical stress does not receive too much attention. In this paper, a micro-model is developed to study the cathode/electrolyte interfacial stresses, coupling oxygen ion transport process with structural mechanics. Results indicate that the distributions of chemical stress are very complicated at the cathode/electrolyte interface and show different patterns from those of thermal stress. The maximum principal stresses take place at the cathode/electrolyte interface …
Enhanced Voltage-Sourced Inverters For Large-Scale Grid-Connected Photovoltaic Systems, 2013 The University of Western Ontario
Enhanced Voltage-Sourced Inverters For Large-Scale Grid-Connected Photovoltaic Systems, Hamidreza Ghoddami
Electronic Thesis and Dissertation Repository
This thesis is mainly focused on (i) modeling of large-scale PV systems in order to study the factors that influence the capacity, efficiency, power quality and safety in connection with the power grid and (ii) proposing system- and circuit-level solutions and control strategies/techniques to improve the aforementioned factors. To that end, a model for PV array is developed to study the mismatch power loss in different PV array interconnection methods, especially during the partial shading condition. Further, a two-MPPT structure is proposed to reduce the mismatch power loss in centrally structured PV systems. Then, a single-stage VSC-based system is proposed …
Control Of Solar Photovoltaic (Phv) Power Generation In Grid-Connected And Islanded Microgrids, 2013 University of Tennessee, Knoxville
Control Of Solar Photovoltaic (Phv) Power Generation In Grid-Connected And Islanded Microgrids, Sarina Adhikari
Doctoral Dissertations
With the ever increasing electricity demand, fast depletion of fossil fuel and the growing trend towards renewable energy resources, the integration of green distributed energy resources (DERs) such as solar photovoltaic (PhV) generation and wind power in the utility grid is gaining high popularity in the present years. The capability of these modular generators needs to be harnessed properly in order to achieve the maximum benefit out of such integrated systems. Most DERs are connected to the utility grid or microgrids with the help of power electronics interface. They are capable of producing both active and reactive power with the …
Vehicle-To-Grid (V2g) Reactive Power Operation Analysis Of The Ev/Phev Bidirectional Battery Charger, 2013 University of Tennessee, Knoxville
Vehicle-To-Grid (V2g) Reactive Power Operation Analysis Of The Ev/Phev Bidirectional Battery Charger, Mithat Can Kisacikoglu
Doctoral Dissertations
More battery powered electric vehicles (EVs) and plug-in hybrid electric vehicles (PHEVs) will be introduced to the market in 2013 and beyond. Since these vehicles have large batteries that need to be charged from an external power source or directly from the grid, their charging circuits and grid interconnection issues are garnering more attention.
It is possible to incorporate more than one operation mode in a charger by allowing the power to flow bidirectionally. Usually, the bidirectional power transfer stands for two-way transfer of active power between the charger and the grid. The general term of sending active power from …
The Effect Of Platinum In Nafion For Proton Exchange Membrane Fuel Cells, 2013 University of Arkansas, Fayetteville
The Effect Of Platinum In Nafion For Proton Exchange Membrane Fuel Cells, Elliott Korb
Electrical Engineering Undergraduate Honors Theses
Under the growing pressure to veer from fossil fuel use to more environmentally conscious energy options, fuel cells of all kinds are coming to the forefront as viable options to replace part of fossil fuels’ present role. This effort not only includes automobiles, but fuel cells are also emerging as options for emergency generators, modern war ships and submarines, portable charging devices, and space applications. Proton exchange membrane (PEM) fuel cells are likely to dominate the smaller or more domestic applications of fuel cell technology. For the membrane, DuPont’s polymer Nafion was used in varying sizes. Using small testing platforms …
A Power Line Inspection Device, 2013 University of Maine - Main
A Power Line Inspection Device, Brendan Gates
Honors College
The goal of this project is to create a functional power line inspection device which could replace the old inspection method of using helicopters. This microchip based robotic device is able to ride along a conductor and send video feed, encoder readouts, and temperature measurements to the user. The user operating system consists of an LCD screen, two potentiometers for motor control, and a screen to display video feed. Achieved specifications include a battery lifetime of 1 hour and 45 minutes, distance measurements within 1 inch, and temperature accuracy within 2 °C. This thesis includes a brief discussion on previous …
Design, Layout, And Testing Of A Silicon Carbide-Based Under Voltage Lock-Out Circuit, 2013 University of Arkansas, Fayetteville
Design, Layout, And Testing Of A Silicon Carbide-Based Under Voltage Lock-Out Circuit, Michael Dalan Glover
Graduate Theses and Dissertations
Silicon carbide-based power devices play an increasingly important role in modern power conversion systems. Finding a means to reduce the size and complexity of these systems by even incremental amounts can have a significant impact on cost and reliability. One approach to achieving this goal is the die-level integration of gate driver circuitry with the SiC power devices. Aside from cost reductions, there are significant advantages to the integration of the gate driver circuits with the power devices. By integrating the gate driver circuitry with the power devices, the parasitic inductances traditionally seen between the gate driver and the switching …
Intermediate Band Solar Cells Based On Inas Quantum Dots Embedded In Ingaas Quantum Well, 2013 University of Arkansas, Fayetteville
Intermediate Band Solar Cells Based On Inas Quantum Dots Embedded In Ingaas Quantum Well, Ramesh Vasan
Graduate Theses and Dissertations
Intermediate band solar cells based on quantum dots and quantum wells with anti-reflection coating are investigated in this thesis. The demand for high efficient solar cells as an alternate source of energy is the main motivation for this research project. Intermediate band solar cells based on quantum dots were the subject of intensive research in recent years. High power conversion efficiency was predicted from InAs/GaAs intermediate band solar cells as the presence of InAs quantum dots increased the absorption below the band gap of the host material.
In this thesis, an attempt has been made to further increase the absorption …