Global ETD Search

1	Llegó La Luz: a case study of the impacts of solar photovoltaic electricity in Las Balsas, Ecuador Leid, Leon Hoover 23 September 2014 (has links) In this thesis I study the impact of electrification using solar photovoltaic panels in the rural Ecuadorian community of Las Balsas. Many large-scale development organizations like the World Bank promote small-scale renewable energy technologies like solar photovoltaics as being crucial in helping poor rural communities generate more income. My research however, both in the field and in the literature, shows income generation from these projects tends to be minimal. I find that the introduction of solar electrification is most important for social applications like music, movies, cell phones, and lighting. FEDETA, the NGO that installed the solar photovoltaics, promotes the development project not as a neoliberal market-based income-generation project, but rather as a humanistic improvement in the “quality of life” of local residents. I analyze this goal of the project in light of the development theories developed over the past few decades. I question how well solar photovoltaics fits into the “small is beautiful” appropriate technology sector. While solar photovoltaic systems have the potential to build small-scale islands of autonomous electricity production in a more environmentally sustainable manner than grid electricity based on fossil fuels, I caution that this is not necessarily the most equitable way to provide electricity to the rural poor in developing countries. While solar home systems have much potential to provide (often minimal amounts of) electricity to extremely rural areas, the service provided is in many cases inferior to grid electricity. While solar photovoltaic technology does provide many potential benefits in areas not reached by grid electricity, NGOs and policy makers should be wary of seeing the technology as a panacea for sustainable development. Solar photovoltaics as a technology has a long way to go to provide energy services comparable to that offered by most grid systems. As with any technology its actual use is not predetermined, but rather is influenced by the local social and cultural contexts. / text Solar photovoltaics Rural electrification Energy access Development
2	Variable speed drives for power factor correction in the water sector Keys, Erin Marie 07 October 2014 (has links) While solar photovoltaic (PV) panels can offset fuel, emissions, and water use at the power plant, high levels of installed rooftop PV capacity can have negative impacts on the stability and efficiency of the local grid because of power factor (PF) degradation. Specifically, electric utilities have noted voltage fluctuations from solar PV that occur more dynamically than legacy, electromechanical voltage regulation solutions like capacitor banks are designed to correct. At the same time, distributed power electronics devices like inverters can provide the type of dynamic voltage support that utilities seek to maintain reliability while juggling load growth and a greening grid. Using data from Pecan Street Inc. Smart Grid Demonstration Project in Austin, Texas and Austin Water Utility (AWU), this research examines the potential for a three-phase, four quadrant variable speed drive (VSD) in the water sector to provide PF correction to a load pocket of 63 homes experiencing varying levels of PV penetration. In the analysis, the VSD is not reserved for voltage support; instead it is predominantly used to drive a 30 kilowatt (kW) centrifugal sewage pump. The simulation determines the degree to which the VSD can restore PF to a threshold of 0.95, slightly below the targeted value for Austin's electric utility. Further, the economic viability of using the VSD as a grid device is explored by comparing the per unit cost of the PF correction it provides to a current utility solution for dynamic voltage regulation. / text Residential solar photovoltaics Distribution grid power quality
3	Modeling and Simulation of Heat Pump Systems Combined with Solar Photovoltaic Vijaya Shyam Busineni (5931185) 02 January 2019 (has links) Renewable energy systems have received considerable attention as a sustainable technology in the building sector. Specifically, the use of ground-source heat pump (GSHP) and air-source heat pump (ASHP) for heating and cooling of buildings is increasing rapidly, and the combination with photovoltaic (PV) systems and heat pump systems provide energy savings and environmental benefits. This study investigates the feasibility of replacing conventional heating and cooling systems in a multifamily, residential building with GSHP and ASHP systems and their combination with PV. The integration of PV with GSHP and ASHP systems presents an opportunity for increased solar energy usage resulting in a reduction of electricity demanded and a reduction of emissions of greenhouse gases. To analyze different heat pumps systems with and without PV, system modeling and computer simulations are performed with RETScreen Expert software.<div><br></div><div>A multifaceted verification and validation study is conducted for the system model and computer simulation. The important objective of this part of the study is to understand and develop confidence for modelling individual studies in RETScreen Expert software. To accomplish this, RETScreen Expert is used for modeling and simulating the performance of PV systems in several geographical locations, including Fort Wayne, IN. A comparison is made to performance predictions from System Advisory Model (SAM) software. In addition, a study is done to compare predictions from both software to previously published data.<br></div><div><br></div><div>In the further phase of the study, eQUEST software, a tool for building energy simulation is used to predict outputs such as electricity consumption, heating loads, and cooling loads for the multifamily residential building considered in this study. These outputs, as well as, building parameters are used as inputs to RETScreen Expert. Since, this study focuses on modeling and simulating the heating and cooling systems coupled with PV for feasibility analysis, only a few minor modifications to the eQUEST default settings are made.<br></div><div><br></div><div>The outputs from eQUEST are used as inputs to RETScreen Expert and analysis of ASHP and GSHP systems, as well as their combination with a PV system are performed. The results include the technical performance and financial model of each system, which can be used to indicate feasibility. The results show that both GSHP and ASHP systems are environmentally friendly and reduce energy consumption. These systems are economically feasible, with payback periods of under 10 years, when electricity prices are high. When combined technology is preferred, PV-GSHP systems are more environmentally friendly and have fuel savings far better than any other proposed systems. But the feasibility of the both the GSHP and PV-GSHP systems strongly depends on loop installation cost.<br></div> Mechanical Engineering Heat Pumps Solar Photovoltaics RETScreen Expert eQUEST
4	The Adoption Of solar photovoltaic systems among industries and residential houses in southern Nigeria Eronini, Nnamdi January 2014 (has links) The shortage of electricity in Nigeria creates a huge gap between demand and supply, making individuals and organizations look for alternatives to obtain regular supply of power. The objective of this study was divided into two parts. First identify the barriers and drivers of the adoption of solar PV systems among home owners and organisations in Rivers State Nigeria. Second, identify the challenges faced by the suppliers of this product for small and large scale suppliers. In order to achieve the objectives of this study, a qualitative research approach was used to carry out the study. A loosely-structured interview and a well-structured interview were used as the method. Findings from this study suggest that the need for a regular power supply was enough to motivate residential adopters to purchase and install solar PVC's and sustainability was a sufficient driver to encourage adoption among organizations interviewed in this study. On the other hand, inadequate policies to encourage subsidies, high cost, difficulty to access finances, high interest rates 20%-22% and short period of payback (3years) for loans involving renewable technology were identified as barriers among residential adopters. Lack of implementation of policies for example, double standard shown by custom officials at ports against the zero tax on importation of renewable energy products set by the government, low level of awareness among the public and lack of organized co-oprative group which provides advisory information to potential adopters were among the barriers identified within this study from interviews conducted with suppliers of solar PV systems. Renewable technologies feed-in tarrif sustainability solar energy solar photovoltaics
5	How are Electric Utilities Responding to the Impact of Renewables? Exploring an Integrative Approach to Ambidextrous Business Behavior Casey, Robert T, Jr 03 May 2015 (has links) In the U.S., clean energy goals and the move towards a clean energy economy are causing the electric power sector to add emerging and innovative renewable energy resources into their generation mix. Electric utilities (EU) face a monumental challenge to create, deliver, and capture value from emerging and disruptive technologies. This study seeks to address the impact of solar photovoltaics on the EU market by investigating the role of business model changes within the domain of urban and rural U.S. electric utility organizations. By integrating the evolving EU business model with the Competing Values Framework (CVF), a new lens is created to assess the changing and evolving business behavior within the EU industry. Furthermore, a predictive and prescriptive tool emerges associated with organizational ambidexterity (OA). Finally, four lessons are presented that will help EU leaders become more anticipatory, adaptable, and responsive in this changing renewable environment. Investor-owned Electric Utility Electric Cooperative Organizational Ambidexterity Net-metering Solar Photovoltaics Clean Power Plan
6	Improving the Competitive Position in a Growing High Tech Industry : - Differentiation and Cost Leadership Strategies in Solar Photovoltaics - Hrab, Dmytro, Yamkina, Oxana January 2011 (has links) Background: The purpose of this master thesis was to investigate what generic strategies are utilized by big players in the solar photovoltaic industry to improve their competitive positions. The continuous expansion of the solar market indicated the significance of this research, since the correctly chosen strategy has a direct influence on the success and prosperity of the growing and developing high tech companies.Aim: The first aim of the study was to examine the applicability of Michael Porter‟s theory of generic strategies to the high tech industry, to be more precise the solar photovoltaic industry. The second aim of the study was to explore the cases, if any, when the simultaneous pursuit of more than one generic strategy was possible. The last but not the least aim was to deeply investigate the potential of the differentiation strategy and the effect it has on the companies.Definitions: The continuous utilization of the following concepts is present in the research: Generic strategies – the three different strategic approaches – cost leadership, differentiation, and focus – the companies can undertake to build a strong competitive advantage and outperform their competitors Differentiation – a case when a firm‟s offering is preferred, on some buying occasions (or by some customers all of the time) over rival firm‟s offerings Solar energy – alternative solutions of receiving energy directly from the sun – using solar modules which convert sunrays into electricityMethodology: Qualitative research methodology was used in this study. The in depth analyses of three case companies were done mainly by means of collecting the secondary data. In addition to that two out of three companies were contacted in order to conduct personal interviews via phone and email. Their answers were used as a supportive tool for the developed propositions.Results: The collected and analyzed secondary data together with the outcomes of the interviews revealed the flaws and limitations of Porter‟s theory. The simultaneous pursuit of two strategies was proven not only to be taking place, furthermore, to be leading to prosperity in some situations. The new model was developed which showed that the pursuit of two strategies is more of a necessity under certain circumstances. A thorough examination of the differentiation concept resulted in discovering the ways and methods which could be used by companies to strengthen their market positions. Generic strategies competitive advantage solar photovoltaics combined strategy stuck in the middle Business studies Företagsekonomi
7	Solar Photovoltaic Tilt Angle Optimization in the United States Alhamer, Essa Ebrahim January 2021 (has links) No description available. Energy Engineering Mechanical Engineering solar photovoltaics tilt optimization United States bi-annual tilt optimization seasonal tilt
8	Growth and Characterization of III-Phosphide Materials and Solar Cells for III-V/SiPhotovoltaic Applications Ratcliff, Christopher January 2014 (has links) No description available. Electrical Engineering
9	Avaliação de modelos de negócio para energia solar fotovoltaica no mercado de distribuição brasileiro / Solar photovoltaic business models analysis for the Brazilian energy distribution Market Barros, Luisa Valentim 20 March 2014 (has links) Nos últimos anos, um conjunto de fatores tem colaborado para expansão da energia fotovoltaica no Brasil. No entanto, ainda não se oferecem políticas públicas ou incentivos regulatórios para que as distribuidoras contribuam com a geração fotovoltaica sem prejuízo ao equilíbrio de suas operações. Diante disso, este trabalho buscou investigar a viabilidade de novos papéis para as distribuidoras brasileiras frente aos desafios de modernização do setor elétrico. Para isso, buscou nos EUA, país que apresenta crescente participação de energia FV em sua matriz elétrica, exemplos de incentivos financeiros e regulatórios e novos modelos de negócios para operação das distribuidoras. Através da metodologia de análise SWOT, três modelos de negócio do mercado fotovoltaico norte-americano são avaliados para o setor de distribuição brasileiro. Os resultados evidenciam as forças e fraquezas das distribuidoras em relação a outros atores do mercado e as oportunidade e ameaças de cada modelo. / In recent years, a combination of events have contributed for solar photovoltaics raising adoption in Brazil. However, there are yet no available regulatory incentives or public policies to enable utilities participation without harming their financial equilibrium. As a result, the current study aims to identify new roles for Brazilian utilities that comply with smart grid emerging challenges. In an effort to identify examples of financial and regulatory incentives as well as new business models, North American solar photovoltaic experiences were evaluated. The effectiveness of three American business models for the Brazilian energy sector were discussed through SWOT analysis. The results indicate utilities main strengths and weaknesses compared to other energy market actors and also the opportunities and threats of each business model. Análise SWOT Business Models Distribuição Distribution Energia solar fotovoltaica Modelos de negócio Regulação Regulation Solar Photovoltaics SWOT Analysis
10	Development of Uniform Artificial Soil Deposition Techniques on Glass and Photovoltaic Coupons January 2016 (has links) abstract: Soiling is one of the major environmental factors causing the negative performance of photovoltaic (PV) modules. Dust particles, air pollution particles, pollen, bird droppings and other industrial airborne particles are some natural sources that cause soiling. The thickness of soiling layer has a direct impact on the performance of PV modules. This phenomenon occurs over a period of time with many unpredictable environmental variables indicated above. This situation makes it difficult to calculate or predict the soiling effect on performance. The dust particles vary from one location to the other in terms of particle size, color and chemical composition. These properties influence the extent of performance (current) loss, spectral loss and adhesion of soil particles on the surface of the PV modules. To address this uncontrolled environmental issues, research institutes around the world have started designing indoor artificial soiling stations to deposit soil layers in various controlled environments using reference soil samples and/or soil samples collected from the surface of PV modules installed in the locations of interest. This thesis is part of a twin thesis. The first thesis (this thesis) authored by Shanmukha Mantha is related to the development of soiling stations and the second thesis authored by Darshan Choudhary is associated with the characterization of the soiled samples (glass coupons, one-cell PV coupons and multi-cell PV coupons). This thesis is associated with the development of three types of indoor artificial soiling deposition techniques replicating the outside environmental conditions to achieve required soil density, uniformity and other required properties. The three types of techniques are: gravity deposition method, dew deposition method, and humid deposition method. All the three techniques were applied on glass coupons, single-cell PV laminates containing monocrystalline silicon cells and multi-cell PV laminates containing polycrystalline silicon cells. The density and uniformity for each technique on all targets are determined. In this investigation, both reference soil sample (Arizona road dust, ISO 12103-1) and the soil samples collected from the surface of installed PV modules were used. All the three techniques are compared with each other to determine the best method for uniform deposition at varying thickness levels. The advantages, limitations and improvements made in each technique are discussed. / Dissertation/Thesis / Masters Thesis Mechanical Engineering 2016 Alternative energy Soil sciences Mechanical engineering Artificial Soiling station Engineering Design Soil Characterization Soil Deposition Solar Photovoltaics Uniformity of deposited soil

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