Global ETD Search

371	Assessing Rooftop Solar Energy Adoption : The remaining potential across market segments and the impact of socio-economic factors Ekstrand, Erik, Hermodsson, Fredrik January 2024 (has links) The global market of solar energy systems is currently experiencing a rapid growth, driven bythe increasing demand for renewable energy. To monitor the rapid expansion of solar energy, aerial imagery combined with deep machine learning can be utilized. This study aims to assess the market penetration and remaining potential for roof-mounted decentralized solar energy across various market segments using these advanced technologies. Furthermore, the purpose is to assess the impact of socio-economic factors on the adoption of solar energy systems. The findings reveal that the photovoltaic system penetration rates are generally consistent across all the studied distributed market segments in Sweden, with a slightly higher rate for public buildings. The penetration of solar thermal systems is lower in comparison and are most common among single-family dwellings. Significant potential remains for rooftop solar installations, with 64.1% of roof area available and suitable for solar energy. Regarding the number of buildings, 76.9% of all buildings either lack or can enlarge an already existing solar energy system. The remaining potential across the market segments varies slightly due to different proportions of areas that are unsuitable for solar energy. The penetration rates are highest in central city areas, but with just slightly lower rates in urban and rural areas. Socio-economic factors such as educational level, employment rate, median income, and the proportion of people aged 65+ are shown to influence solar energy adoption. Solar energy systems PV market analysis Energy Systems Energisystem
372	Modeling and analysis of hybrid solar water desalination system for different scenarios in Indonesia Fairuz, A., Umam, M.F., Hasanuzzaman, M., Rahim, N.A., Mutaba, Iqbal M. 13 July 2023 (has links) Yes / Clean water demand has significantly increased due to the rise in the global population. However, most water on the Earth has high saline content that cannot be consumed directly; only about one over forty of the total water source is freshwater. Desalinated water is one of the potential solutions to meet the growing demand for freshwater, which is highly energy intensive. This paper analyses the energy, economic and environmental performance of a 5 m3/day PV (photovoltaic) powered reverse osmosis (RO) desalination system. Three scenarios of PV-RO with and without battery storage and diesel generator hybrid systems have been analyzed and investigated for the annual estimate load, net present value, and payback period of the water and electricity production costs. Also, the CO2 avoidance over the lifetime operation of all scearios is evaluated. This study shows that the PV-RO system without battery with 6.3 kW PV panels installed and with a 2-days water storage tank system is the most profitable economically f. For this scenario, the Levelized Cost of Electricity (LCOE), Levelized Cost of Water (LCOW), and Payback Period (PBP) are found to be $0.154/kWh, $0.627/m3, and five years, respectively. In addition, for this scenario, the CO2 emissions avoidance was the maximum (111,690 kg.CO2eq per year) compared to other scenarios. Desalination Photovoltaic Reverse osmosis Solar energy Hybrid power system
373	Investigation into using Stand-Alone Building Integrated Photovoltaic System (SABIPV) as a fundamental solution for Saudi rural areas and studying the expected impacts Albaz, Abdulkarim January 2015 (has links) A number of natural resources can be exploited for providing energy, such as the sun, wind, water flow, tides, waves and deep heat generated within the earth. Recently, renewable resources especially that extracted from solar have been significantly encouraged mainly for environmental worries, such as climate change mitigation and global warming, coupled with high oil cost and security and economic matters. The crucial need of energy in human development has also been another important drive pushing the rapid progresses in renewable technologies, which results in both large-scale strategic projects for covering wide urban and rural areas and simple systems suitable for individual buildings. Solar energy has become a widely desired option, especially in high solar radiation areas. The Middle East, especially Gulf region is an ideal geographical area for solar power where it has one of the highest solar irradiation rates across the world. The population in Gulf Cooperation Council (GCC) countries is significantly small compared to the geographical areas and populations are distributed mostly throughout huge areas forming small villages and rural communities on substantial distances from the main power networks. In Saudi Arabia, there is a crisis in supplying enough electricity to the large cities and domestic remote area in various parts in the country and a wide range of remote areas still suffer from a severe shortage of power supply. In this project, the opportunity of using small-scale solar energy technologies, such as Stand-Alone Building-Integrated PV (SABIPV) systems has been investigated as an optimal solution for providing solar energy to a great deal of off-grid areas in Kingdom of Saudi Arabia and the expected short and long-term impacts of such solution have been studied. The study showed that the main reasons behind the crisis in supplying electricity to domestic remote and rural off-grid areas in Saudi Arabia are the weakness of the financial returns compared to the cost of providing the service, the difficulty of the natural topography of areas, high cost of maintenance works, and the regulations of providing electric services in Saudi Arabia. This is in addition to the expected environmental impacts, such as raising the pollution rates in the area and the safety influences of extending the high voltage lines over huge areas. On the other hand, the lack of the necessary infrastructure services, particularly electricity and the looking forward for better level of prosperity lead people who live in countryside and remote areas usually to immigrate to in-grid areas which has several short and long-term negative impacts on economic, social and security sides. This study shows that SABIPV system is a cost-Impactive, powerful, and fundamental solution for all off-grid areas in Saudi Arabia including remote villages and rural communities and providing the same level of electricity services that can be achieved in urban on-grid areas. The system is expected to have positive impacts including reducing pollution and greenhouse gas emissions, the expansion of agricultural land and reduce desertification, reducing the influence of high-voltage electrical lines on living organisms, providing adequate electricity service at lower cost, offering more job opportunities for people in remote areas, increasing agricultural and handicraft products, developing the tourism sector in rural areas, reducing the rate of migration from rural areas to the cities, and reducing the slum areas in cities which helps to reduce the rate of crimes, ignorance, the low level of morality, and health and environmental problem.
374	International Investment Trend of Photovoltaics Lin, Hsin-yu 22 July 2011 (has links) What is the trend of the global solar PV industry? What is the importance of Solar Energy in Renewable Energy? Why shall we invest solar PV industry? What is the impact of Renewable Energy Bill, etc. (Law) and the purchase plan (policy) on the solar PV industry? For this research, we mainly analyze the importance of the investment in solar photovoltaic industry. We realize that energy issues have been significant via the analysis by the report of the World Organization, so we shall solve the energy crisis by energy conservation and the development and use of renewable energy. Moreover, we shall realize how to solve the obstacles of the raw materials in solar energy research and which way to get technical and capital in solar photovoltaic industry practice of states, from that we will understand solar energy and the investment relationship of photovoltaic industry. The research results can help readers understand the importance of solar energy, the investment consideration of solar photovoltaic industry and the characteristics of the global solar market, hoping that the policy tools in our country can be leading and continuing success in the future. solar photovoltaic industry international investment solar energy solar energy technology cooperation solar industrial policy
375	Sonenergie as 'n plaasvervanger vir energie uit fossielbrandstof binne die landbousektor, op klein en medium skaal in die Noord-Kaap Van Wyk, Gerrit 04 1900 (has links) Thesis (MBA)--Stellenbosch University, 2015. / AFRIKAANSE OPSOMMING: Elektrisiteit is ŉ basiese bron van energie in hedendaagse huishoudings en besighede. Die behoefte na deurlopende elektrisiteit neem toe terwyl die huidige elektrisiteitsverskaffer, ESKOM, ook nie aan die huidige vraag na elektrisiteit kan voorsien nie. Verdere beperkings is die infrastruktuur. Die infrastruktuur is nie so ontwikkel dat elektrisiteit aan 100 persent van die bevolking verskaf kan word nie. Alle plase het nie toegang tot die huidige ESKOM roosterstelsel nie of dit is onprakties om ŉ dienslyn te bou vir die gerief van elektrisiteit. Gevolglik was die meeste boerderybedrywighede in die verlede afhanklik van dieselkragopwekkers. Die gebruik van sonenergie het egter aantrekliker geword en het moontlik meer ekonomies en prakties geword en bied ook ŉ deurlopende krag opsie. Sonstralingsvlakke in Suid Afrika is die hoogste in die wêreld. Die Noord-Kaap word ingesluit in daardie areas in SA wat uiters geskik is vir PV aanlegte. In lande soos Ethiopië en die VSA is sonenergie met PV-tegnologie met groot sukses aangewend in landbouomstandighede vir die voorsiening van elektrisiteit wat ook in SA met sukses aangewend kan word met die uiters geskikte sonbestralingsvlakke. Die grootste voordeel van sonenergie is die oorvloedige beskikbaarheid van die energiebron in SA. Verder is dit volhoubaar, omgewingsvriendelik, hernubaar en heeltemal gratis. Daar is geen bewegende onderdele nie, gevolglik is daar geen geraasbesoedeling nie en is die bedryfskostes van ŉ sonenergie stelsel baie laag. Die nadeel van sonenergie is dat PV-aanlegte slegs elektrisiteit kan opwek wanneer die son skyn. Energiebergingsisteme is nodig om hierdie nadeel te oorbrug of ŉ aanvullende energiebron soos wind moet gebruik word om die tekort aan te vul. Kapitaalspandering is die grootste hindernis in die oprigting van hernubare energiestelsels aangesien dit op een stadium spandeer moet word. Sonenergie is die gewildste energiebron binne die landbousektor in die Noord-Kaap en word deur 88.57 persent van die respondente gebruik terwyl slegs 28.57 persent van die respondente dieselkragopwekkers beskikbaar het as rugsteun fasiliteit vir elektrisiteitvoorsiening. Die belangrikste redes waarom daar oorgeskakel is na sonenergie, was om deurlopende elektrisiteit te verseker en die vermindering van tradisionele energieverbruik. Die studie toon dat sonenergie, oor ŉ 15 jaar leeftyd, ŉ derde van die koste van fossielbrandstowwe kos, alhoewel daar groter aanvanklike kapitaalspandering betrokke is wat as ŉ struikelblok gesien word. Die statistiek wat in die ondersoek versamel is dui daarop dat sonenergie suksesvol aangewend word om te voorsien aan die elektrisiteitbehoeftes van die respondente binne die Noord-Kaap geografiese gebied. Daar is egter geen twyfel dat sonenergie suksesvol, effektief, doeltreffend en ekonomies aangewend kan word as ŉ plaasvervanger vir energie uit fossielbrandstof, binne die landbousektor, op klein en medium skaal in die Noord-Kaap. UCTD
376	Concentrated solar chemistry: design stage theoretical thermodynamic analysis of an iron-ethylene production process Sheline, William Robert 09 May 2013 (has links) Although concentrated solar power can be used to produce power using traditional electricity generation, energy storage has become a problem due to the intermittent supply of solar energy. By using solar energy in chemical production processes, the solar energy can be stored in a useful chemical product. The purpose of this thesis will be to examine the possibilities of a new solar chemical cycle the produces iron and ethylene from hematite (a form of iron oxide) and ethane using concentrated solar power. These two products are important stepping stones in the production of steel and polymers. This process could allow for the current process of steel production to move away from processes using coal and towards a more sustainable process using the hydrogen formed from the ethane cracking process and solar energy. The thesis will include: (1) the development of a new solar powered iron and ethylene combined cycle, (2) a feasibility study of a Concentrated Solar Heat Supply System (CSHSS) being developed at Georgia Tech, and (3) an assessment of the proposed cycle. The assessment will include an estimate of production including a thermodynamic ASPEN model, assessment of research to realize actualization of the theoretical cycle, an exergy analysis, and a heat exchanger analysis for the exchange of heat between the CSHSS and the chemical process. Solar energy Sustatinability Renewable energy Exergy Concentrated solar power Chemical reformation Ethylene production Iron production Solar fuels Solar energy Photochemistry Energy storage Iron Ethelyne Hematite Ethanes
377	Design and development of an off-grid e-learning centre for rural communities Selaule, Vusimuze Edgar 01 1900 (has links) M. Tech. (Electronic Engineering, Faculty of Engineering and Technology), Vaal University of Technology\| / The lack of electricity in off-grid rural communities in South Africa (SA) and Africa as well as the budget constraints on these communities restrict these communities from connecting to any online resources (internet and e-books) for educational purposes, thus creating a major contributor to the global digital divide. Renewable energy sources such as solar energy, wind energy and biomass were presented as potential alternatives to grid-connected electricity for remote rural locations. Solar energy was identified as the amply available alternative energy resource in SA. Solar radiation was converted by photovoltaic technology to electricity. National power grid isolation (off-grid) was achieved by using a stand-alone photovoltaic system. Photovoltaic technology classification, material categorisation and system sizing for an e-learning centre was presented. Practical set-ups were utilised to determine the most cost-effective equipment mix of power utilization, power management/storage and ICT equipment to build a pilot e-learning centre. It was established that one photovoltaic panel can be employed to fully recharge a battery of a pilot e-learning centre with an operational period of 7 hours using the available sunlight hours. Owing to the susceptibility of the Vaal Triangle region to thunderstorms causing overcast conditions for days, a ratio of back-up battery capacity (Ah) to number of days (seven hours per day) without sunlight was determined. An algorithm was also derived for sizing the pilot e-learning centre for full scale implementation. Future research recommendations based on this study for a reduced system costs of an off-grid e-learning for rural communities powered by a renewable energy resource were presented. This will increase access to basic education in SA and reduce the global digital divide. Off-grid rural communities Digital divide Online resources Renewable energy sources Solar energy Photovoltaic system E-learning centre Back-up radio capacity Basic education 371.334 Solar energy Internet in education
378	Solar driven hydrogen generation for a fuel cell power plant Amoo, Akinlawon Olubukunmi 09 1900 (has links) Thesis. (M. Tech. (Dept. Electronic Engineering, Faculty of Engineering and Technology))--Vaal University of Technology, 2011. / There are a number of ways to produce hydrogen using solar energy as the primary source. Water electrolysis, which uses solar electrical energy, is the rapidly available process. Hydrogen can be produced by using solar electric energy from photovoltaic (PV) modules for the electrolysis of water without emitting carbon dioxide or requiring fossil fuels. Solar hydrogen energy systems are considered one of the cleanest hydrogen production technologies, where the hydrogen is obtained from sunlight by directly connecting the photovoltaic modules to the hydrogen generator. This dissertation presents a designed solar photovoltaic electrolyser hydrogen production and storage system for various applications such as in the power generation and telecommunications industries. Various experiments were performed on the designed system to ensure its reliability and conformity with theoretical findings. The purity of the generated hydrogen was determined. The relationship between the amount of solar irradiance reaching the surface of the PV panel, the PV panel surface temperature, the PV panel tilt angle and the maximum power point voltage and current of the PV panel array were also considered. The effect of dust on the panel voltage and current outputs was also determined. Finally, the factors to consider when designing a solar photovoltaic electrolyser hydrogen system (based on this study) were enumerated. Hydrogen Solar energy Water electrolysis Solar electrical energy Solar hydrogen energy systems Solar photovoltaic electrolyser hydrogen 621.47 Solar energy Hydrogen Photovoltaic power systems
379	Origins of Analysis Methods in Energy Simulation Programs Used for High Performance Commercial Buildings Oh, Sukjoon 16 December 2013 (has links) Current designs of high performance buildings utilize hourly building energy simulations of complex, interacting systems. Such simulations need to quantify the benefits of numerous features including: thermal mass, HVAC systems and, in some cases, special features such as active and passive solar systems, photovoltaic systems, and lighting and daylighting systems. Unfortunately, many high performance buildings today do not perform the way they were simulated. One potential reason for this discrepancy is that designers using the simulation programs do not understand the analysis methods that the programs are based on and therefore they may have unreasonable expectations about the system performance or use. The purpose of this study is to trace the origins of a variety of simulation programs and the analysis methods used in the programs to analyze high performance buildings in the United States. Such an analysis is important to better understand the capabilities of the simulation programs so they can be used more accurately to simulate the performance of an intended design. The goal of this study is to help explain the origins of the analysis methods used in whole-building energy simulation, solar system analysis simulation or design, and lighting and daylighting analysis simulation programs. A comprehensive history diagram or genealogy chart, which resolves discrepancies between the diagrams of previous studies, has been provided to support the explanations for the above mentioned simulation programs. building energy simulation building computer program building energy savings high performance building whole-building energy simulation solar energy simulation solar energy design lighting and daylighting simulation
380	Otimização da energia geradas por painéis solares fotovoltaicos em sistemas isolados da rede elétrica Pacheco, Juliano de Pellegrin 09 December 2009 (has links) Fundação Araucária / Esta dissertação de mestrado apresenta o estudo, desenvolvimento e implementação de uma nova estrutura, composta por um conversor CC-CC bidirecional, conectada em paralelo com o sistema, para busca do ponto de máxima potência em painéis solares fotovoltaicos para aplicações isoladas da rede elétrica. Inicialmente são expostos os principais fatores que levaram à escolha do tema, assim como a problemática que motivou essa dissertação. Na seqüência é realizado um estudo sobre energia fotovoltaica, onde são mencionados os principais tipos de células fotovoltaicas e o comportamento de um módulo fotovoltaico em função da variação climática. Também são apresentados nesta dissertação os resultados do estudo, simulações, implementação e comparação entre os algoritmos de busca automática do ponto de máxima potência (MPPT) de módulos fotovoltaicos, baseados no método da Perturbação & Observação (P&O) e no método fuzzy. A seguir são mostrados os detalhes do funcionamento da nova estrutura proposta para busca do ponto de máxima potência (MPPT), onde se utiliza um conversor bidirecional (buck-boost) conectado em paralelo com o sistema, bem como o resultado das simulações da nova estrutura proposta que foram realizadas. Por fim, são apresentados os resultados experimentais dos ensaios realizados em laboratório e do comportamento de um módulo fotovoltaico real conectado à nova estrutura proposta. Os resultados experimentais comprovam a melhoria no rendimento do sistema fotovoltaico quando comparado com as soluções clássicas para a busca do ponto de máxima potência. / This work presents the analysis, design, and implementation of a new parallel connected structure, composed by a parallel bidirectional DC-DC power convert, for maximum power point tracking of stand-alone photovoltaic power generation systems. At first, the main factors that motivated the choice the topic of this work are presented. In sequence, the main types of photovoltaic cells and the photovoltaic panel characteristics in function of the climatic variation are analyzed. The study, implementation, comparison and simulation results of algorithm of maximum power point tracking (MPPT) also are presented in this work. The algorithm of MPPT are based in the method of Perturbation and Observation (P&O) and in the fuzzy method. Following, the characteristics of the new structure proposal, composed by a parallel connection bidirectional DC-DC converter simulations results. Finally, are presented the laboratorial experimental results and the behavior or a real photovoltaic module connected to the new structure proposal. Geração de energia fotovoltaica Energia solar Energia solar - Sistema passivo Energia elétrica Photovoltaic power generation Solar energy Solar energy - Passive systems Electric power

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