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51	Financial modeling of consumer discount rate in residential solar photovoltaic purchasing decisions Sigrin, Benjamin O. 25 October 2013 (has links) Diffusion of microgeneration technologies, particularly rooftop photovoltaic (PV), represents a key option in reducing emissions in the residential sector. This thesis uses a uniquely rich dataset from the burgeoning residential PV market in Texas to study the nature of the consumer’s decision-making process in the adoption of these technologies. Focusing on the financial metrics and the information decision makers use to base their decisions upon, I study how the leasing and buying models affect individual choices and, thereby, the adoption of capital-intensive energy technologies. Overall, the leasing model is found to more effectively address consumers’ informational requirements. Contrary to previous studies, buyers and lessees of PV are not found to substantially differ along socio-demographic variables, though they do differ significantly along cash availability, levels of environmental concern, and relative importance of financial aspects. Instead, the leasing model has opened up the residential PV market to a new, and potentially very large, consumer segment—those with a tight cash flow situation. / text Financial modeling Solar photovoltaic PV Rooftop photovoltaic Texas Microgeneration technology Residential solar PV Discount rates Solar business models Individual decision-making
52	Avaliação do ciclo de vida de potenciais rotas de produção de hidrogênio: estudo dos sistemas de gaseificação da biomassa e de energia solar fotovoltaica / Life cycle assessment of hydrogen production routes: study of gaseification systems and photovoltaic solar power Sandra Harumi Fukurozaki 29 April 2011 (has links) No presente trabalho, o desempenho energético e ambiental de potencias rotas de produção de hidrogênio gaseificação da biomassa via leito fixo (LFX) e leito fluidizado (LFL) e de energia solar fotovoltaica foram estudados com base na metodologia de Avaliação do Ciclo de Vida (ACV). Após a revisão da literatura e a descrição dos procedimentos de análise, os resultados da ACV são apresentados e discutidos em termos de Demanda Acumulada de Energia (CED), Tempo de Retorno de Investimento em Energia (EPBT) e danos relacionados à Saúde Humana (SH), Qualidade do Ecossistema (QE) e Recursos Minerais e Combustíveis Fósseis (RMCF). No cômputo geral, o LFL é mais favorável para a produção de hidrogênio, embora os dois sistemas de gaseificação apresentem desempenho energético e ambiental similares. Comparativamente, o sistema fotovoltaico apresenta um EPBT maior (4,55 anos) do que os encontrados nos dois sistemas de conversão da biomassa (1,65 anos no LFL e 1,77 anos no LFX). Por outro lado, o sistema de energia solar fotovoltaico é o mais ambientalmente recomendável para a produção de hidrogênio, tendo em vista a menor contribuição em relação aos danos majoritários (saúde humana). Dentro do escopo do estudo, os sistemas avaliados apresentam mais características de complementaridade do que competição. Neste caso, enfatiza-se a importância de uma análise dos fatores econômicos e sociais pertinentes a cada país ou região, bem como dos processos posteriores de reforma e/ou purificação e eletrólise da água, considerando também o seu inteiro ciclo de vida. / In the present study, the energy and environmental performance of hydrogen potential routes biomass gasification systems by fixed bed and fluidized bed and the solar photovoltaic power plant were studied based on Life Cycle Assessment (LCA) methodology. After reviewing the literature and analytical procedures description, the results of life cycle assessment are discussed in terms of Cumulative Energy Demand (CED), Energy Payback Time (EPBT) and damages related to Human Health (SH), Ecosystem Quality (QE) and Mineral and Fossil Fuels Resources (RMCF). Although the two gasification systems have similar energy and environmental performance, the LFL is more favorable for hydrogen production. Regarding the photovoltaic system, this has a greater EPBT (4.55 years) than those found in the two systems of biomass conversion (1.65 and 1.77 years in the LFL and LFX, respectively). On the other hand, the solar photovoltaic system is the more environmentally suitable for hydrogen production, since its contribution related to human health impact is smaller than gasification systems. Within the scope of the study, the evaluated systems have more features of complementarities than competition. In this case, we emphasize the importance of analyzing the economic and social factors that are relevant in each country or region, as well as the subsequent process for hydrogen production (purification and water electrolysis) also considering the entire life cycle of systems. avaliação do ciclo de vida desempenho energético e ambiental energia solar fotovoltaica hidrogênio sistemas de gaseificação energy and environmental performance gasification systems hydrogen life cycle assessment solar PV
53	Dynamic and transient modelling of electrolysers powered by renewable energy sources and cost analysis of electrolytic hydrogen Roy, Amitava January 2006 (has links) Hydrogen energy sector has gained significant attention worldwide but one of the key enabling components for its success would be cheaper and sustainable hydrogen production. Hydrogen could be produced directly from natural gas or coal etc; alternatively it could be produced by electrolysis of water powered by renewable energy sources, nuclear energy or fossil fuel. Wind energy is growing rapidly, which can produce cheap hydrogen. Electrolysers can be employed to control the frequency of the electricity grid while also making fuel as a by-product. This thesis concerns the intricacies of hydrogen production by electrolysers from renewable energy sources. A generalised, input-based mathematical model of the electrolyser has been developed for various subsystems, such as current-voltage, Faraday efficiency, gas production, gas purity, differential pressure, temperature subsystem, parasitic losses, gas losses and efficiencies at various stages of operation. Some empirical equations have been developed and some adjusted parameters have been used in the model. The model has been tested and verified against the experimental measurements. A generic method has been developed for modelling the Faraday efficiency. Model simulations have been carried out to investigate the sensitivity of the results to the value of the capacitance and how this affects the dynamic response of the electrolyser. A new sizing method of the electrolyser has been developed for a stand-alone energy system such as the HARI project. The electrolyser model has also been simulated for maximum and efficient hydrogen production in a directly coupled mode of electrolysers with solar PV arrays without the maximum power point (MPP) tracker, which leads to an interesting finding that "electrolysers should not be operated at MPP". It has also been found that the dynamic and intermittent power supply from renewables can damage the stability of electrolysers and reduce the energy capture. This is especially true for pressurised electrolysers, which are favoured by the industry at present. The in-depth theoretical and practical analysis of several aspects confirms - contrary to industry trends - that "Pressurised electrolysers are less energy efficient, less durable, more costly and not adequately compatible for renewable energy powered operation, especially in the stand-alone energy systems, compared to atmospheric electrolysers". 333.793
54	Feasibility of DC microgrids for rural electrification Vijayaragavan, Krishna Prasad January 2017 (has links) DC system and DC microgrids are gaining popularity in recent times. This thesis suggests a method to state the workability of a DC based PV system using the softwares Simulink, PVsyst and HOMER. The aims of this project include suggesting a DC based architecture, finding out the performance ratio and a cost analysis. The advantages of the DC based system, the cost benefits associated with it and its performance will determine its feasibility. Not many softwares have the functionality to simulate DC based PV systems. PVsyst is considered as one of the most sought-out softwares for the simulation of PV systems. It can simulate a DC based PV system but has a lot of limitations when it comes to the architecture and voltage levels. Due to these factors, the results from softwares Simulink, Homer and PVsyst are used to calculate the performance ratio of the suggested DC system. The simulation of the DC system involves modelling of a DC-DC converter. DC-DC converters are used in HVDC transmission and are being considered for small scale and medium scale microgrids. The DC-DC boost converter is coupled with a MPPT model in Simulink. P and O algorithm is chosen as the MPPT algorithm as it is simple and widely used. The Simulink model of PV array and MPPT based boost converter provides the power output at the needed voltage level of 350V. The input for the Simulink model is obtained from the results of HOMER. The inputs include solar irradiation data and cell temperature. The same input data is used for the simulations in HOMER and PVsyst. The performance ratio is obtained by combining the power output from Simulink with the other aspects of the system from PVsyst. The performance ratio is done only for the month of January due to the limitations in Simulink. The performance ratio is found out to be 65.5 %. The cost estimation is done for the distribution and power electronics aspects of the system. It is found out that the cost associated with the conductors will have an impact on the total cost only if the conductors used for distribution is more in length. The cost associated with the power converters will make a difference in total cost only if the system is within the range of 100kW. The study shows the workability of the PV based DC system based on the above mentioned aspects Solar PV Microgrids DC Low Voltage DC Rural electrification Pvsyst Simulink Power converters boost converter MPPT performance ratio. Energy Engineering Energiteknik
55	Revising installed photovoltaic capacities on emerging markets by analysing customs data Oller Westerberg, Amelia January 2020 (has links) The global solar PV market is growing fast, and so is the production and trade with photovoltaic products and peripherals. Until now, the largest development has taken place in highly developed and electrified countries with good administrative control over their electricity system. Recently, however, new markets in developing countries have become increasingly relevant in terms of market share, system sizes and installed capacities. Statistics from these types of countries are often weak or non-existent, leading to problems for global organizations such as the International Energy Agency (IEA) or the International Renewable Energy Agency (IRENA), whose task is to follow, analyze and document named development. In this report, a method is presented in which customs data monitored by the ‘Market Analysis and Research’ section of the International Trade Centre, an agency of UN’s World Trade Organization, is analyzed and converted into annual installed PV capacity volumes. By complementing the basic data from the customs database with price statistics from IEA PVPS task 1 along with national module production data from IEA PVPS task 1 and the RTS cooperation a data conversion is executed. The method has been improved incrementally, where different assumptions have been modified or added, so that the data conversion of exported and imported PV products, expressed in dollar per yearly quarter, match the official statistics of annual installed capacity for a number of reference countries with comprehensive PV capacity statistics. The sensitivity analysis shows that the method is sensitive to the accuracy of the annual domestic national PV module production data and to price changes of Chinese PV modules. For countries with accurate PV module production data, or countries with no module production, the method seems to be able to estimate the annual installed capacity in 2018 with an average difference of 21% and a maximum difference of ±38% and a total average difference of 12%, 17% and 11% for 2016, 2017 and 2018 respectively. By implementing this method, an estimate on yearly installed capacities can be generated in all countries connected to the UN customs database and where the domestic module production is known. This gives the opportunity to at least get an assessment of how much PV that has been installed in developing countries that lack official statistics about their domestic PV market. The regions with the lowest existing data coverage in the world have been determined to be Africa and the Middle East. When applying the method on countries in Africa and the Middle East, larger capacities than the reference data were obtained. Solar PV Photovoltaics Customs data PV Markets Installed Capacity PV Installation Market Growth Emerging market Global PV Market Energy Engineering Energiteknik
56	Economic Feasibility Photovoltaic/Diesel/Battery Hybrid Power Syatems to replace stand-alone diesel generators in off-grid remote areas of Zambia Kapambwe, Elias January 2012 (has links) No description available. Replacing stand-alone offgrid diesel power plants in remote areas of Zambia with hybrid solar and diesel of totally with solar pv Engineering and Technology Teknik och teknologier
57	Feasibility Study of Renewable Energy in Singapore King, Sebastian, Wettergren, Per January 2011 (has links) Singapore is a country that is currently highly dependent on import of oil and gas. In order to be able to shift into a more sustainable energy system, Singapore is investing in research regarding different technologies and systems so as to establish more sustainable energy solutions. Seeing how air-conditioning accounts for approximately 30 % of Singapore’s total energy consumption, a feasibility study is being conducted on whether an integrated system using a thermally active building system (TABS) and desiccant evaporative cooling system (DECS) can replace the air-conditioning system. The question which is to be discussed in this thesis is whether solar and wind power can be financially feasible in Singapore and if they can be utilized in order to power the integrated system. The approaching model consists of a financial feasibility study of the different technologies and a theoretical test-bedding, where the suitability of the technologies to power the TABS and DECS is tested. The financial feasibility is estimated by calculating the payback period and using the net present value method. A model designed in a digital modeling software is used for the test-bedding. Measurements from a local weather station are used for estimating the solar radiance and wind speeds in Singapore. The results show that solar PV panels could be feasible in Singapore but that technological improvements as well as governmental subsidies are needed in order to make it profitable enough to attract investors. As for wind power, the wind conditions are not favorable enough, in terms of wind speed and wind frequencies, for small wind turbines that currently exist on the market to be able generate enough electricity to make the investment somewhat feasible. Solar thermal collectors and solar PV are given certain conditions suitable for powering the TABS and DECS. renewable energy solar cells solar PV wind power Singapore air conditioning systems förnybar energi solceller vindkraft Singapore luftkonditioneringssystem Energy Engineering Energiteknik
58	Potential for Renewable Energy Sources (RES) in Grenoble, Delft & Växjö Turesson, Jonas January 2011 (has links) Sustainable cities is an area that has grown in size over the last couple of years. The SESAC (Sustainable Energy Systems in Advanced Cities) is a EU-project looking at the potential to increase the share of Renewable Energy Sources (RES) and promote energy efficiency measures in different EU cities. This master thesis is a part of that project. Specifically, the thesis examines the cities of Grenoble, Delft and Växjö and looks at what measures regarding RES and energy efficiency have been taken historically, both under the SESAC project and otherwise, and assesses the possibility of further measures in the cities. The main RES evaluated are wind power (large scale and urban), solar (PV and thermal) and waste treatment (waste incineration and biogas production). The feasibility of these renewable technologies is evaluated both physically, technically and economically for each city. Further, the historical and current hinders and promoters in the form of different support schemes and other economic and institutional schemes are summarized for each country and city and the effects of which included in the feasibility calculations. Also, current CO2 emissions of Grenoble, Delft and Växjö are stated and the impact of implementing the measures examined is calculated. A comparison between the three cities is also made and suggestions are made to what they can learn from each other and what synergies there are. Results show that the technical potential for RES is sizeable in the cities, as seen in Table 1. Important to note are the differences between the cities. Besides from their differences in population size, ranging from 83 000 (Växjö) and 96 000 (Delft) to 400 000 (Grenoble), available land area as well as climate are very different in the cities, therefore affecting the potential for the RES technologies. RES potential [GWh] Grenoble Delft Växjö Wind 458 1,2 (Urban only) 297-2000 Solar PV 375 150 0,06-0,3 Waste treatment 41 11 10 Table 1. Technical potential of RES in Grenoble, Delft and Växjö Looking at the economic potential, however, the picture is not as optimistic. The only economically feasible investments of the options in Table 1 are investing in solar PV in Grenoble and Delft (IRR of 0-10%) and wind in Växjö (IRR of 4%). All other investments have negative NPV:s and IRR:s, meaning that either the cost of the technologies must be reduced or more favorable support scheme be introduced in order to make the them profitable. RES Renewable Energy Sources Wind Solar PV Waste Treatment Växjö Delft Grenoble Sustainable Cities Energy
59	Techno-economic analysis of energy storage integration for solar PV in Burkina Faso Abid, Hamza January 2019 (has links) Electrification in rural areas of West African countries remain to be a challenge for the growth of the region. The Economic Community of West African States (ECOWAS) has set a target of 2030 to achieve 100% electrification in all member countries. Burkina Faso is one of the least electrified countries in the world, where only 9 % of the rural population has access to electricity. This study presents a conceptualization of techno-economic feasibility of pumped hydro storage (PHS) and electric batteries with solar photovoltaics (PV) in the context of Burkina Faso. The results are explored for an off grid standalone PV plus storage system for a rural setting and a grid connected PV system for an urban setup. The least cost configurations for both the cases are determined using HOMER (Hybrid Optimization Model for Electric Renewables). The results indicate the need of extended solar penetration in Burkina Faso in response to the challenges of low electrification rates in the country. Adding more PV to the present electricity mix of Burkina Faso could drive down the cost of energy by 50 % compared to the present grid electricity prices by making cheap electricity available to the local population. Adding PHS to grid connected PV leads to a cost reduction of 8% over a lifetime of 25 years which does not provide enough motivation for the high investments in storage at present. Policy interventions that allow stacking up of revenues and benefits of storage are needed to make it more competitive. PV plus pumped hydro storage remains the optimal system architecture as compared to PV plus electric batteries for off grid standalone systems provided the geographic availability of lower and upper reservoirs. The capital cost of PV remains to be the most dominating factor in the cost of optimal system for both the urban and the rural cases, and driving down the costs of PV would have the most positive effect for increased electricity access in the country. / Elektrifiering i landsbygdsområden i västafrikanska länder är fortfarande en utmaning för tillväxten i regionen. Ekonomiska gemenskapen i Västafrikanska stater (ECOWAS) har satt upp ett mål 2030 att uppnå 100% elektrifiering i alla medlemsländer. Burkina Faso är ett av de minst elektrifierade länderna i världen där bara 9% av landsbygdsbefolkningen har tillgång till el. Denna studie presenterar en konceptualisering av teknisk ekonomisk genomförbarhet för pumpad vattenkraftlagring (PHS) och elektriska batterier med PV (photovoltaics) paneler i samband med Burkina Faso. Resultaten undersöks med avseende på ett fristående fristående PV plus lagringssystem för landsbygden och ett nätanslutet PV-system för en stadsinstallation. De lägsta kostnadskonfigurationerna för båda fallen bestäms med hjälp av HOMER (Hybrid Optimization Model for Electric Renewables). Resultaten visar på behovet av utökad solpenetrering i Burkina Faso som svar på utmaningarna med låga elektrifieringshastigheter i landet. Att lägga till mer PV till den nuvarande elmixen av Burkina Faso skulle kunna sänka energikostnaderna med 50% jämfört med de nuvarande elpriserna för nätet genom att göra billig el tillgänglig för lokalbefolkningen. Att lägga till PHS till nätansluten PV leder till en kostnadsminskning på 8% under en livslängd på 25 år som inte ger tillräcklig motivation för de stora investeringarna i lagring för närvarande. Politikåtgärder som möjliggör stapling av intäkter och fördelar med lagring behövs för att göra det mer konkurrenskraftigt. PV plus pumpad hydro förblir den optimala systemarkitekturen jämfört med PV plus elektriska batterier för fristående nät utanför nätet förutsatt geografisk tillgänglighet av nedre och övre reservoarer. Kapitalkostnaden för PV är fortfarande den mest dominerande faktorn i det lägsta kostnadssystemet för både stads- och landsbygdsfall och att köra ner PV-kostnaderna skulle ha den mest positiva effekten för ökad elåtkomst i landet. Electrification Burkina Faso Energy Storage Pumped Hydro Storage Electric Batteries Solar PV Elektrifiering Burkina Faso Energilagring Pumpad vattenkraft Elektriska Batterier Solenergi PV Engineering and Technology Teknik och teknologier
60	The electricity demand andsupply in El Espino : Alternatives for diversification of renewabletechnologies / Energitillförseln i El Espino : Alternativ för diversifiering av förnybara energiteknologier Granqvist, Jessica, Gao, Lily January 2019 (has links) The use of alternative fuels, particularly renewable energy sources, has been an important strategy to achieve greenhouse gas emission reductions. In Bolivia, many rural areas struggle with an unreliable power supply. The most common electricity solution in such isolated areas is to have off-grid systems, where hybrid systems have become a feasible solution. In this study, a hybrid system in the rural village El Espino is optimized using a linear programming tool called MicroGridsPy. Currently, the village is powered by a hybrid system consisting of solar photovoltaics, a diesel generator and lead-acid batteries as a storing system. To optimize the system in a sustainable way, considering economic, environmental and social aspects, two wind turbines of the nominal capacities 5 and 10 kW are studied and introduced to the hybrid system. To find synergies between the wind and solar energy, the irradiance and wind speed of the study area are simulated using a Weather Research and Forecasting (WRF) model. The power output from the wind turbines can then be obtained by modelling the power curves and then be added to the optimization model. The optimization is performed both with and without the wind turbines to evaluate the impact of them. In the optimization model, characteristics of the components, techno-economic parameters, including investment costs, and constraints such as renewable penetration, and cost of the curtailment are set. The obtained results include that the wind speed is higher during the winter season, and that the wind power output, regardless of turbine size, is proportional to the wind speed. Furthermore, the 10 kW wind turbine is proven to be the most suitable for the system of the two compared. The economical values of the system, such as NPC and LCOE are higher, the higher the renewable penetration, but lower for the system with wind turbines. This implicates that adding wind energy to the hybrid system could be beneficial from both an environmental and economical point of view. One conclusion that can be drawn is that wind turbines are a feasible technology for rural electrification, and that the optimization tool is sensitive to cost. Furthermore, it is found that the wind and solar energy are suitable complements to each other both season wise and daily. / Användningen av alternativa bränslen, särskilt förnybara energikällor, har varit en viktig strategi för att minska utsläppen av växthusgaser. I Bolivia kämpar många landsbygdsområden med en opålitlig strömförsörjning. Den vanligaste lösningen för elektricitet i sådana områden är off-grid system, där hybridsystem har blivit en lämplig lösning. I denna studie, optimeras ett hybridsystem beläget i byn El Espino, med ett linjärt programmeringsverktyg; MicroGridsPy. För närvarande drivs byn av ett hybridsystem bestående av solceller, en dieselgenerator och blybatterier för att lagra energin. För att optimera systemet på ett hållbart sätt, utifrån ett ekonomiskt, miljömässigt och socialt perspektiv, studeras två vindturbiner med de nominella kapaciteterna 5 och 10 kW, för att sedan introduceras till hybridsystemet. För att göra detta simuleras områdets solstrålning och vindhastighet med hjälp av en WRF-modell (Weather Research and Forecast). Effekten från vindturbinerna kan då erhållas genom att modellera effektkurvorna, och kan därefter läggas till i optimeringsmodellen. Optimeringen utförs både med och utan vindturbiner för att på så sätt utvärdera deras inverkan på systemet. I optimeringsmodellen fastställs egenskaper hos komponenterna, techno-ekonomiska parametrar, inklusive investeringskostnader och begränsningar såsom förnybar penetration och kostnad för energispill. De erhållna resultaten visade bland annat att vindhastigheten är högre under vintersäsongen, och att effekten är proportionell mot vindhastigheten, oavsett storlek på vindturbin. Vidare har vindturbinen med kapacitet 10 kW visat sig vara den mest lämpade för systemet av de två jämförda. Systemets ekonomiska värden, såsom NPC och LCOE, är högre, ju högre förnybar penetration, men lägre för systemet med vindturbiner. Detta implicerar att vindenergi kan vara till nytta för hybridsystemet, både ur miljösynpunkt och ur en ekonomisk synvinkel. En slutsats som kan dras är att vindturbiner är en passande teknik för landsbygdselektrifiering, och att optimeringsverktyget som användes är känslig mot kostnader. Vidare konstateras att vind- och solenergi kompletterar varandra både säsongsvis och på daglig basis. Hybrid system wind turbine solar PV optimization rural electrification Hybridsystem vindturbin sol PV optimisering landsbyggdselektrifiering Environmental Engineering Naturresursteknik Energy Systems Energisystem

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