Global ETD Search

21	Modeling adoption of solar photovoltaics and analysis of net metering in the city of Austin Josyula, Siva Kiran 30 September 2011 (has links) Solar photovoltaics have received government support in the form of rebates, tax credits and net metering tariff mechanisms. The intended goal of these incentives is to encourage innovation in the manufacturing and installation of these systems, which is expected to eventually help overcome the high cost barrier for the adoption of the technology. These systems have the advantages of abundant availability of the solar resource, low environmental footprint, and the possibility of onsite installation, reducing the need for additional generation and transmission capacity. Since millions of dollars have been invested in these incentive programs, there is an interest in tracking the progress in the cost and capacity installed. In the first part of this thesis, I analyzed the trends in costs and adoption of solar PV by residential and commercial customers in the city of Austin. This is accomplished by tabular and graphical analysis of data on PV installations from 2004, when Austin Energy’s rebate program started, to early 2010. In the second part of the thesis, I used technology diffusion models to analyze and forecast the diffusion of residential PV systems in Austin. Three types of models were used to model the adoption trends: Logistic growth model, Bass model without price effects and Bass model including price effects. In the final part of the thesis, I analyzed the net metering tariff mechanism in Austin and studied the difference between the current and an alternative tariff. The alternative tariff uses actual ‘grid usage’ to calculate the energy charge (cost of providing distribution service) instead of the ‘net energy consumed’ that is currently in use. Using simulated PV generation data and ERCOT load profile data, I calculated the difference in revenue for Austin Energy with the alternative tariff. The results indicate that the alternative tariff adds little revenue to Austin Energy’s energy charge revenues at the current level of penetration of solar PV. However, at a higher penetration level of PV, the alternative tariffs might result in significant additional revenue for the utility. The thesis concludes with a discussion on the possible rationale for the alternative tariff and directions for future research. / text Solar PV Austin solar Net metering Technology adoption Technology diffusion model
22	Evaluating opportunities for sustainable rural water provision using solar PV in sub-Saharan Africa : a case study of Malawi Phiri, Esther January 2017 (has links) Globally, approximately 663 million people lack access to safe drinking water sources and nearly half of these people live in Sub-Saharan Africa (SSA), where only 68% of the population has access to improved drinking water sources. Globally, it is estimated that 79% of the people using unimproved sources and 93% of people using surface water live in rural areas. In terms of water for agriculture, most of the countries in Sub-Saharan Africa rely on rain-fed agriculture, which is threatened by the effects of climate change thereby worsening food insecurity. Adequate provision of drinking and irrigation water is believed to enhance development in areas such as health, education, food security and women empowerment. This interdisciplinary study used a mixed methods approach to develop a financing and decision support model for planning and analysing of sustainable rural water provision using solar photovoltaics (PV) in SSA, with Malawi as a case study country. The research methods included household surveys, stakeholder interviews, field visits and techno-economic analysis. Findings from the household surveys show that the current water sources are inadequate; the majority of the households used boreholes as their main source of water and they faced challenges, which included queuing, low yield, non-functionality, disparity in number of water points, theft and vandalism. For irrigation, households still rely on traditional methods of irrigation namely; watering cans with very few having treadle pumps, which are all labour intensive. From the stakeholders point of view, challenges included lack of finances, failure of current community management system, lack of coordination and lack of enabling policies. In the techno-economic analysis, a solar PV system was designed to supply approximately 200 households with drinking water. The design cost was calculated to be US$18,600 and the levelized cost of water was US$0.34/m3. The levelized cost was found to be almost six times what the households are currently paying and three times what they are willing to pay. To address this issue, the study developed a cross-subsidy model for the cost of water with that of basic energy services, particularly rechargeable lantern lighting and mobile phone charging. Using this model, the levelized cost of water was reduced by over half but is still two and a half times what they are currently paying for water. Further innovations were found to reduce the breakeven cost to only US$0.06 more of what they are currently paying. The novelty of the research is that no work in SSA, particularly in Malawi has developed such an all-inclusive integrated needs-driven approach that helps identify solar PV powered water provision solutions. These results provide baseline data for researchers, policymakers, planners, entrepreneurs and other stakeholders with interest in providing water and energy to the rural areas. This thesis recommends that with proper finance and management policies, enforcement of product and installation standards and training of households, solar PV can be used to improve access for drinking and irrigation water and at the same time provide basic energy services to the people living in the rural areas of SSA.
23	A post-installation analysis of solar PV-diesel hybrid systems for school electrification in Sabah, Malaysia Mahmud, Abdul M. January 2016 (has links) Alternative energy technology has been used widely in rural electrification program (REP) all over the world for many years now. Renewable energy sources, such as solar, wind and biomass, are the preferred choices given the abundant resources available on site and the sophistication of the technologies involved. Combinations of two or more of the resources, together with an energy storage system and occasionally a conventional energy generator, create a hybrid system, which is reliable and durable. In Malaysia, solar photovoltaic (PV) base systems, implemented on a large scale, can provide round-the-clock electricity services for areas that are inaccessible by the electricity grid network. One of Malaysia s REP initiatives is solar PV-diesel hybrid systems for 160 schools in rural Sabah. The systems have been in operation for several years, but studies in the program are limited. Thus, understanding the system operation and functional is a highly valuable experience and lessons can be learned for implementation of the rural electrification program (REP). The overall aim of the research is to evaluate the REP in social, organizational, technical and economic aspects of the program that the findings can facilitate the stakeholders, such as the policy makers and implementers for current and future approaches, measures and decisions on REP activities and initiatives in Malaysia. This thesis has described the approaches on investigating the rural school s electrification program in Sabah. Analysis of system operation and function is conducted by examining and evaluating the recorded data from the system. A set of technical indicators is introduced in the form of system performance indicators and system reliability indicators. Furthermore, comparisons are made between the actual system operation and the optimum system configuration based on the actual data of the renewable energy resources, electricity energy consumption and costs in installation and operation. A field study was conducted at fifteen rural schools that use the solar PV system to determine the effectiveness of the program in transforming the rural schools to better learning environments and livelihoods. The findings indicate that most system components were found to be in good operation, and the operation of the solar PV system agreed to the indicators of system performance and system reliability. Additionally, the system reliability indicators can be seen as a vital tool not only to identify the values of the system capacity but also for prediction measures in analysing the durability of each component. The analysis of the actual system operation provides optimum values in terms of technical indicators, whereas the optimized system shows economic advantages. The findings show a high degree of responses from the end users in the level of satisfaction, appreciation, motivation and academic excellence. Nevertheless, several improvements are required to enhance the sustainability elements of the REP, especially from the organizational and governance perspectives. These includes effective coordination among the rural development-related agencies, the improvement on the transition between installation and maintenance work, efficient reporting process and training and awareness program need to be extended to every end user for sustainability in information and knowledge. 621.31
24	Dispatch Strategy Development for Grid-tied Household Energy Systems January 2015 (has links) abstract: The prevalence of renewable generation will increase in the next several decades and offset conventional generation more and more. Yet this increase is not coming without challenges. Solar, wind, and even some water resources are intermittent and unpredictable, and thereby create scheduling challenges due to their inherent “uncontrolled” nature. To effectively manage these distributed renewable assets, new control algorithms must be developed for applications including energy management, bridge power, and system stability. This can be completed through a centralized control center though efforts are being made to parallel the control architecture with the organization of the renewable assets themselves—namely, distributed controls. Building energy management systems are being employed to control localized energy generation, storage, and use to reduce disruption on the net utility load. One such example is VOLTTRONTM, an agent-based platform for building energy control in real time. In this thesis, algorithms developed in VOLTTRON simulate a home energy management system that consists of a solar PV array, a lithium-ion battery bank, and the grid. Dispatch strategies are implemented to reduce energy charges from overall consumption ($/kWh) and demand charges ($/kW). Dispatch strategies for implementing storage devices are tuned on a month-to-month basis to provide a meaningful economic advantage under simulated scenarios to explore algorithm sensitivity to changing external factors. VOLTTRON agents provide automated real-time optimization of dispatch strategies to efficiently manage energy supply and demand, lower consumer costs associated with energy usage, and reduce load on the utility grid. / Dissertation/Thesis / Masters Thesis Engineering 2015 Alternative energy Energy Engineering household energy modeling and simulation realtime control renewable energy solar PV solar storage
25	Failure and Degradation Modes of PV modules in a Hot Dry Climate: Results after 16 years of field exposure January 2013 (has links) abstract: This study evaluates two 16 year old photovoltaic power (PV) plants to ascertain degradation rates and various failure modes which occur in a "hot-dry" climate. The data obtained from this study can be used by module manufacturers in determining the warranty limits of their modules and also by banks, investors, project developers and users in determining appropriate financing or decommissioning models. In addition, the data obtained in this study will be helpful in selecting appropriate accelerated stress tests which would replicate the field failures for the new modules and would predict the lifetime for new PV modules. The two power plants referred to as Site 4A and -4B with (1512 modules each) were initially installed on a single axis tracking system in Gilbert, Arizona for the first seven years and have been operating at their current location in Mesa, Arizona for the last nine years at fixed horizontal tilt Both sites experience hot-dry desert climate. Average degradation rate is 0.85%/year for the best modules and 1.1%/year for all the modules (excluding the safety failed modules). Primary safety failure mode is the backsheet delamination though it is small (less than 1.7%). Primary degradation mode and reliability failure mode may potentially be attributed to encapsulant browning leading to transmittance/current loss and thermo-mechanical solder bond fatigue (cell-ribbon and ribbon-ribbon) leading to series resistance increase. Average soiling loss of horizontal tilt based modules is 11.1%. About 0.5-1.7% of the modules qualify for the safety returns under the typical 20/20 warranty terms, 73-76% of the modules qualify for the warranty claims under the typical 20/20 power warranty terms and 24-26% of the modules are meeting the typical 20/20 power warranty terms. / Dissertation/Thesis / M.S.Tech Engineering 2013 Alternative energy 16 YEARS DEGRADATION FAILURE HOT-DRY CLIMATE KARAN RAO YEDIDI SOLAR PV
26	Electric Power System of an Emergency Energy Module RANAWEERA, CHAMINDA January 2012 (has links) Abstract This thesis study is on designing and analysing the “Electric Power System of an Emergency Energy Module”. KTH is running a project to create a mobile system for power supply in refugee camps and during the recovery of natural disasters. This is an independent power system comprising solar, wind and biomass based power generations and control. The design and analysis of electric power system is mainly focused on increasing the renewable energy efficiency of the system while saving excess power on the battery bank and controlling the battery discharging. The analysis of the designed electric power system is done with using actual site data of solar irradiation and wind for one week period. Further, it has been developed a program based on MS Excel for analysing the module performances at any site in the world. Keywords: Emergency Energy Module; Integration of wind and solar PV / Emergency Energy Module Project Engineering and Technology Teknik och teknologier
27	Assessment of business opportunities forutilities in distributed battery storage forhousehold consumers in Germany GUSTAFSSON, OSCAR, Maiorana, Johanna January 2016 (has links) The German initiative Energiewende aims to decrease their dependence on nuclear andfossil-based energy, and to increase the share of variable renewable energy sources (V-RES).This transformation calls for new technical solutions that can meet future stakeholderneeds. Distributed battery storage (DBS), which can be used as a complement to theunreliable V-RES, is such a solution.In this thesis, the possibilities for incorporating DBS into the German energy market werefirst analyzed. This was followed by calculations of the economic potential for DBS, and lastlya possible business model for Vattenfall associated with the identified businessopportunities was developed. The assessment shows big opportunities of incorporating DBSinto the future energy system since it can increase the reliability and stability of thedecentralized generation of V-RES. DBS will also be the cheapest solution for an averagehousehold 2030, making the technology a profitable solution. A suitable business model hasalso been identified for Vattenfall, which focuses on the activities of leasing the DBS-units toprosumers and utilizing excess capacity for ancillary services to TSO’s and DSO’s. Theancillary services that can be utilized include frequency regulation and peak shaving.Theoretically the thesis contributes with knowledge about the increasing possibilities of DBSbecoming a large part of the future German power system. The thesis will also be a practicaltool for utilities on how to adapt their business offering with regards to the new market. Distributed battery storage Solar PV Decentralized Energy System Energy storage Energiewende Economics and Business Ekonomi och näringsliv
28	Solar PV based rural electrification in Rema rural village Admasu, Alemshet Ayele January 2011 (has links) Energy is a basic need for the overall growth and improvements of people’s living standard.But around 2 to 3 billion people in the world have no access to electric lighting. Like otherdeveloping countries the rural electrification in Ethiopia is very low and government takessome actions to promote the investment in these areas but due to economic constraints andlow level of technological advancement the growth is very low.This study focuses on solar PV based rural electrification, its impact on environment andsocio-economic development in Rema village. Three cases studies: typical households,small scale business center and public services are considered for systematic study.Interviews from villagers, existing energy system, literature data and HOMER software areused to calculate energy demand and cost of electrification. A comparison between theresults is carried out.According to the village survey the existing PV home system has a positive impact on a socioeconomic development of the village of Rema. Solar PV electricity can be used in generatingincomes. It is also used for climate mitigation by curbing CO2 emission and can be used forclimate adaptation by reducing the deforestation and facilitate carbon sequestration. PVbased electrification of health center and schools have played a vital role in improving thequality of services. The presence of refrigerator helped to have vaccines and medicines4preserved for different types of killer diseases. The teaching-learning process of schoolsimproved due the presence of electricity. The solar powered water supply in near areasreduced the time required for fetching water and made girls to focus on their education.Most villagers has positive attitude towards the technology but unsatisfied with the currentsystem size. The high level of technical skills required for maintenance and the small numberof solar technicians’ available in the village is also a problem reported in the village. HOMERsoftware is used to model the existing energy system and the required energy demandbefore PV based rural electrification and after PV based rural electrification. A new model isdeveloped depending on the villagers demand. . Modeling result shows that 3 kWP and 12kWP were found to be enough to fulfill the demand in clinics and schools with an initialinvestment of 18576 and 80704US$, respectively and a PV size of 165 Wp, 250 Wp and 350Wp is required for households with agriculture only, mixed and small scale business income,respectively. This led a requirement of initial capital of US$ 654, 1848 and 2339,respectively. However, these initial investments are unaffordable for most of the villagers.PV systems required for households with agriculture only, has lower investment per Wattthan others, while investment per Watt for small scale business has lower than householdswith mixed type. Therefore, the battery size plays an important role in the investment,operation and maintenance costs.The two main problems associated with solar PV in rural electrification are financial capabilityand technical problems. These problems can be curbed by loan arrangement and trainingthe villagers. But to make sustainable it must be used for income generating activities. solar PV rural electrification Rema household public services Engineering and Technology Teknik och teknologier
29	Solar PV-CSP Hybridisation for Baseload Generation : A Techno-economic Analysis for the Chilean Market Larchet, Kevin January 2015 (has links) The development of high capacity factor solar power plants is an interesting topic, especially when considering the climate and economic conditions of a location such as the Chilean Atacama Desert. The hybridisation of solar photovoltaic (PV) and concentrating solar power (CSP) technologies for such an application is a promising collaboration. The low cost of PV and dispatchability of CSP, integrated with thermal energy storage (TES), has the promise of delivering baseload electricity at a lower cost than what could be achieved with CSP alone. Therefore, the objective of this work was to evaluate whether or not a hybrid PV-CSP plant is more economically viable, than CSP alone or hybrid PV-diesel, for baseload generation. To analyse this hypothesis, a techno-economic optimisation study of a PV-CSP hybrid plant with battery storage and fossil fuel backup was performed. In doing so, a methodology for the identification of optimum solar hybrid plant configurations, given current technology and costs, to best satisfy specific location weather and economic conditions was developed. Building on existing models, for the PV and CSP components, and developing models for further hybridisation, a complete PV-CSP model was created that could satisfy a baseload demand. Multi-objective optimisations were performed to identify optimal trade-offs between conflicting technical, economic and environmental performance indicators. For the given economic and technical assumptions, CSP hybridised with fossil fuel backup was shown to provide electricity at the lowest cost and have the lowest project capital expenditure. This configuration showed a 42% and 52% reduction in the levelised cost of electricity in comparison to CSP alone and hybrid PV-diesel, respectively. It also provides a 45% reduction in CAPEX in comparison to CSP alone. PV-CSP integration increases capital costs and the cost of electricity, but reduced the use of fossil fuel backup and thereby reduced emissions, when compared to CSP with fossil fuel backup. However PV-CSP showed a 97% reduction in CO2 emissions when compared to hybrid PV-diesel. Furthermore, it showed a 35% and 46% reduction in LCOE in comparison to CSP alone and hybrid PV-diesel. Solar Energy Solar PV Solar CSP Techno-economic Analysis Chile Hybridisation Energy Systems Energisystem
30	Study of Energy Neutrality in Kochi Metro Rail, India Paul, Jeena January 2021 (has links) Now a days, the society thinks about more sustainable and clean energy sources. Most of the countries in the world relay on non-renewable energy sources for the generation of electricity. This results in the scarcity of fossil fuels in future and also increases the production of carbon emissions. This thesis considers a metro system named Kochi Metro which is a rapid transit system serving in the city of Kochi in Kerala, India which uses renewable sources, mainly solar, for giving power to the Metro.In this thesis work, trying to analyze the measures adopted by Kochi Metro Rail project in potential reductions of energy consumption and energy generation both contributing to energy efficiency.With the help of Matlab, different levels of installed PV power are used to find out the possible self-usage, self-sufficiency, and energy neutrality of the system. Solar PV panels Traction Power Auxiliary Power Regenerative Braking System Energy Neutrality Engineering and Technology Teknik och teknologier

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