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Articles 1 - 22 of 22
Full-Text Articles in Engineering
Effects Of Cloud-Induced Photovoltaic Power Transients On Power System Protection, Joel A. Nelson
Effects Of Cloud-Induced Photovoltaic Power Transients On Power System Protection, Joel A. Nelson
Master's Theses
As the world strives towards finding alternative sources of power generation, photovoltaic generation has become an increasingly prevalent alternative energy source on power systems world-wide. This paper studies the effects that incorporating photovoltaic generation has on the existing power systems and their power system protection schemes. Along with the addition of this emerging alternative energy source comes the volatility of PV power generation as cloud-cover produces erratic variations in solar irradiance and PV power production. Such variations in PV power may lead to unfavorable operating conditions and power system failures. The issues addressed in this paper include a study of …
Designing A Photovoltaic System Hybrid For A Health Clinic In Camilo Ortega, Nicaragua, Jeremy Holliman
Designing A Photovoltaic System Hybrid For A Health Clinic In Camilo Ortega, Nicaragua, Jeremy Holliman
Electrical Engineering
As developing nations continue to foster the development of their technologies and economies, industrialized nations have taken an active approach in providing green and sustainable alternatives for them to consider. Non-profit organizations like Engineers Without Borders holds sustainable international development as paramount to all international projects that their student and professional chapters undertake. The Cal Poly Engineers Without Borders student chapter has implemented a variety of projects from slow sand filters to compressed earth blocks, and the Nicaragua team is in the process of designing a health clinic for the Camilo Ortega community. In order to power the health clinic, …
Asynchronous Mips Processors: Educational Simulations, Robert L. Webb
Asynchronous Mips Processors: Educational Simulations, Robert L. Webb
Master's Theses
The system clock has been omnipresent in most mainstream chip designs. While simplifying many design problems the clock has caused the problems of clock skew, high power consumption, electromagnetic interference, and worst-case performance. In recent years, as the timing constraints of synchronous designs have been squeezed ever tighter, the efficiencies of asynchronous designs have become more attractive. By removing the clock, these issues can be mitigated. How- ever, asynchronous designs are generally more complex and difficult to debug. In this paper I discuss the advantages of asynchronous processors and the specifics of some asynchronous designs, outline the roadblocks to asynchronous …
Enhanced Cal Poly Super System Simulink Model, Matthew Ogden Mcfarland
Enhanced Cal Poly Super System Simulink Model, Matthew Ogden Mcfarland
Master's Theses
The Cal Poly Sustainable Power for Electrical Resources (SuPER) project is a solar power DC distribution system designed to autonomously manage and supply the energy needs of a single family off-the-grid home. The following thesis describes the improvement and re-design of a MATLAB Simulink model for the Cal Poly SuPER system. This model includes a photovoltaic (PV) array, a lead-acid gel battery with temperature effects, a wind turbine model, a re-designed DC-DC converter, a DC microgrid, and multiple loads. This thesis will also include several control algorithms such as a temperature controlled thermoelectric (T.E.) cooler, intelligent load switching, and an …
Modular Electronic Load, Jason March
Modular Electronic Load, Jason March
Electrical Engineering
This project entails the design and development of a modular electronic load. The cost and simplicity of the design are considered such that it can be reproduced in-house to replace whenever possible resistor box for load testing of any analog circuits but more specifically power electronic circuits.
The design process as well as the hardware development is explained in details in this report. Results from hardware testing are also provided.
Optimization Of P3ht-Pcbm Polymer Solar Cells Through Device Simulation And Manufacturing, James Boom
Optimization Of P3ht-Pcbm Polymer Solar Cells Through Device Simulation And Manufacturing, James Boom
Computer Engineering
Given a good model and implementation of that model, computer simulation can be used to reduce the time and material costs of research. To this end I worked with other students to manufacture, test and simulate the single layer P3HT-PCBM solar cell. Using the data collected from this project, future work can then be done with the project's simulator to further optimize these types of solar cell devices.
The Applications And Limitations Of Printable Batteries, Matthew Delmanowski
The Applications And Limitations Of Printable Batteries, Matthew Delmanowski
Graphic Communication
This study focuses on the potential applications for printed batteries and how they could affect the printing industry. It also analyzes the main problems associated with manufacturing this technology and what needs to be done to overcome these issues. To find the answers to these questions, two methods of research were used. The first was through the elite and specialized interviewing of Dr. Scott Williams of Rochester Institute of Technology and Professor Nancy Cullins from Cal Poly. The second form of research was a common, yet useful, method called secondary research. This entailed looking at recent written research papers about …
Simulation Of Cal Poly Super System Simulink Model Using Insolation Variation, Jacob Kory
Simulation Of Cal Poly Super System Simulink Model Using Insolation Variation, Jacob Kory
Electrical Engineering
This senior project focuses on simulation of the Cal Poly SuPER system using an insolation model. First, local and historical weather data is examined to determine the range of limits that the model will utilize. Then, the insolation model is constructed to fit into the existing SuPER model. The overall system is tested under a variety of insolation values to determine system performance of motor and static loads. Based on these simulations, several factors of the current model are discovered that limit the power consumption profile under off-peak load conditions. Finally, recommendations on improvements to the model are discussed
An Expandable Micromotor Dc Drive System, Michael Ruelan, Justin Gragg
An Expandable Micromotor Dc Drive System, Michael Ruelan, Justin Gragg
Electrical Engineering
This report documents the design phases and fabrication of an expandable micro-motor DC drive system. This project illustrates that a flexible range of output power demands can be met from a small DC micro-motor drive unit with the use of power electronics.
In this project miniature DC micromotor drives, each capable of drawing up to 5.5 amps rated current (5 amps due to the utilization of a 5 amp fuse), were designed as card inserts that can be conveniently inserted in parallel in to a cardholder within the console. The “insert” feature allowed our console to successfully draw up to …
Power Losses Associated With Stand-By Chargers, Robert Peralta
Power Losses Associated With Stand-By Chargers, Robert Peralta
Electrical Engineering
Many average households across the United States may not realize how much power is saved by simply removing the plug from the receptacle when not being used. A misconception with stand-by/portable chargers is; if a device is not connected to the charger, but the charger is still connected to the wall, then the charger will not consume power. That statement is false. The following report will demonstrate how much power is lost in an average household. When a reference is made to an average house, I will refer to a 4 bedroom single family home. The house will have an …
Electric Bicycle System, Robert Cong, Rodney Martinez, Mark Casilang, Peter Vong
Electric Bicycle System, Robert Cong, Rodney Martinez, Mark Casilang, Peter Vong
Electrical Engineering
The Electric Bicycle System is a systems project that incorporates three different ways of charging a lithium-ion battery: the 120VAC wall outlet, regenerative braking, and solar power; which is used to power an electric hub motor running a bicycle. The purpose of the project is to show that it is possible and relatively simple, to build an electric bicycle by oneself. This project can be broken down into five separate categories: the lithium-ion battery, the DC-DC boost converter, the solar panel, the motor, and the motor controller. Each of these will be built upon and improved further by future students, …
Transmission Line Forecast Study, Ryan Garoogian
Transmission Line Forecast Study, Ryan Garoogian
Electrical Engineering
Load forecasting is the procedure to predict future loading conditions on a power system. Using simulation software such as ETAP you are able to predict abnormal voltage conditions, overloading of certain equipment, as well as determine protective equipment from short circuit studies. This study consisted of a 115kV loop network with multiple loading busses and one infinite bus. There was no separate generation other than the infinite bus. As load increased from forecasting to the future voltage dropped. To restore voltage levels capacitors were added at strategic points in the system to boost the voltage back up. Preparing yourself for …
Magnetic Design Web Application, Michael Brim
Magnetic Design Web Application, Michael Brim
Electrical Engineering
The automated Magnetic Design Web Application, available at http://www.magneticdesign.org, generates the full design process of a power transformer, gapped inductor and toroidal inductor given design specifications provided by the user. Calculations are accomplished using Area Product, Ap, or Core Geometry, Kg, procedures. All design processes mirror the format used in Dr. Taufik’s Introduction to Magnetic Design lecture-notes. An administrative backend is provided where instructors can add or modify core design values to expand the array of materials used. The project aims to aid student understanding of magnetic design and course concepts while allowing instructors to broaden the scope of material …
High Voltage Switched-Mode Power Supply For Three-Phase Ac Aircraft Systems, John Brewer Jr., Kamaljit Bagha
High Voltage Switched-Mode Power Supply For Three-Phase Ac Aircraft Systems, John Brewer Jr., Kamaljit Bagha
Electrical Engineering
The purpose of this senior project was to design and fabricate a proof-of-concept Three-Phase Sinusoidal Switched-Mode Inverter with a power output capability of 10 kW and nominal operating frequency of 400 Hz for AC aircraft system applications. This senior project report includes a thorough discussion and presentation of the inverter system background, requirements, design, construction, and testing processes.
Energy Harvesting From Exercise Machines Cal Poly Recreation Center Implementation, Justin Arakaki, Praveen Lawrence, Audrey Nakamura
Energy Harvesting From Exercise Machines Cal Poly Recreation Center Implementation, Justin Arakaki, Praveen Lawrence, Audrey Nakamura
Electrical Engineering
As Cal Poly moves towards an environmentally friendly campus, the Energy Harvesting from Exercise Machines (EHFEM) project looks to generate a new source of renewable energy to help power the Cal Poly Recreation Center. The project focuses on retrofitting exercise machines to generate electricity. As of December 2009, Audrey Nakamura, Justin Arakaki, and Praveen Lawrence developed a design which allows the contribution of electricity generated from multiple exercise machines into the power grid.
The project will require an investigation of retrofitted machine designs by Cal Poly students and commercially available products and systems. The information obtained from the product research …
Energy Harvesting From Exercise Machines: Bike Buck-Boost Converter, Monroe Diamond, Brian Vuong
Energy Harvesting From Exercise Machines: Bike Buck-Boost Converter, Monroe Diamond, Brian Vuong
Electrical Engineering
This project is a continuation of previous senior projects’ work on Energy Harvesting from Exercise Machines (EHFEM). EHFEM seeks an alternative DC to DC converter to function within the existing exercise bike system. Implementing this new DC to DC converter aims to avoid previous complications other groups encountered, such as only running at low load currents, exceeding an input threshold voltage to begin operation, and performing at low efficiency. In developing this self‐generating exercise bike, Cal Poly wishes to incorporate an array of energy‐harvesting exercise machines in its Recreation Center expansion scheduled for completion in 2012.
Pulse Density Modulated Soft Switching Cycloconverter, Jesse Timothy Adamson
Pulse Density Modulated Soft Switching Cycloconverter, Jesse Timothy Adamson
Master's Theses
Single stage cycloconverters generally incorporate hard switching at turn on and soft switching at turn off. This hard switching at turn on combined with the slow switching speeds of thyristors (the switch of choice for standard cycloconverters) limits their use to lower frequency applications.
This thesis explores the analysis and design of a pulse density modulated (PDM), soft switching cycloconverter. Unlike standard cycloconverters, the controller in this converter does not adjust thyristor firing angles. It lets only complete half cycles of the input waveform through to the output. This allows and requires a much greater frequency step down from the …
Distributed Generation: Issues Concerning A Changing Power Grid Paradigm, Scott G.M. Therien
Distributed Generation: Issues Concerning A Changing Power Grid Paradigm, Scott G.M. Therien
Master's Theses
Distributed generation is becoming increasingly prevalent on power grids around the world. Conventional designs and grid operations are not always sufficient for handling the implementation of distributed generation units; the new generation may result in undesirable operating conditions, or system failure. This paper investigates the primary issues involved with the implementation of distributed generation and maintaining the integrity of the power grid. The issues addressed include power flow, system protections, voltage regulation, intermittency, harmonics, and islanding. A case study is also presented to illustrate how these issues can be addressed when designing distributed generation installation on an existent distribution system. …
Wave Energy Converter Performance Modeling And Cost Of Electricity Assessment, Dmitri Jarocki
Wave Energy Converter Performance Modeling And Cost Of Electricity Assessment, Dmitri Jarocki
Master's Theses
California is experiencing a rapid increase in interest for the potential of converting ocean waves into clean electricity. Numerous applications have been submitted for the permitting of such renewable energy projects; however the profitability, practicability, and survivability have yet to be proven. Wave energy conversion technology has steadily matured since its naissance in the 1970’s, several wave energy power installations currently exist, and numerous plans for commercial power plant are in the works on the shores of multiple continents. This study aims to assess the economic viability of two proposed commercial wave energy power plant projects on the Central California …
Transmission System Construction And Analysis, Siyuan Wang
Transmission System Construction And Analysis, Siyuan Wang
Electrical Engineering
In this project we designed and analyzed a simple power system from scratch using Positive Sequence Load Flow (PSLF) and Computer Aided Protection Engineering (CAPE). PSLF is used to solve the balance transmission system. The simulation results from PSLF prove the proposed methodology numerical accuracy. Short circuit duty is simulated using CAPE to find the fault current each bus can have on the system, so engineers can protect the system with the appropriate protection scheme. This project totals two major loads with a combine MW intake of 450 MW. In order to supply multiple loads with constant power, the system …
High Voltage Resonant Self-Tracking Current-Fed Converter, Scott Logan Mcclusky
High Voltage Resonant Self-Tracking Current-Fed Converter, Scott Logan Mcclusky
Master's Theses
High voltage power supply design presents unique requirements, combining safety, controllability, high performance, and high efficiencies. A new Resonant Self-Tracking Current-Fed Converter (RST-CFC) is investigated as a proof-of-concept of a high voltage power supply particularly for an X-ray system. These systems require fast voltage rise times and low ripple to yield a clear image.
The proposed converter implements high-frequency resonance among discrete components and transformer parasitics to achieve high voltage gain, and the self-tracking nature ensures operation at maximum gain while power switches achieve zero-voltage switching across the full load range. This converter exhibits an inherent indefinite short-circuit capability. Theoretical …
Near Real-Time Exercise Machine Power Statistics Reporting, Brendan C. Asche
Near Real-Time Exercise Machine Power Statistics Reporting, Brendan C. Asche
Master's Theses
Cal Poly’s Recreation Center expansion project provides an opportunity to implement Energy Harvesting From Exercise Machines (EHFEM). Part of this implementation is a system that reports the exercise machines’ energy production. Although products capable of reporting exercise machine energy harvesting statistics exist, they have limited capabilities. This thesis project defends a system capable of reporting exercise machine power statistics in near real-time.
The system consists of display, database, and power measurement modules. The display module presents statistics in an interactive, graphical, and widely-accessible way. The database module provides an efficient way of organizing and accessing stored statistics. Multiple power measurement …