Global ETD Search

41	Energy Harvesting Power Supply for MEMS Applications / Energy Harvesting Power Supply for MEMS Applications Smilek, Jan January 2018 (has links) Tato práce se zabývá vývojem nezávislého elektrického zdroje pro moderní nízkopříkonové elektrické aplikace. Protože tradiční řešení napájení drobných spotřebičů s využitím baterií či akumulátorů snižuje uživatelský komfort kvůli potřebě pravidelné údržby, navrhovaný zdroj využívá principu energy harvesting. Tento princip spočívá v získávání energie přímo z okolního prostředí napájené aplikace a její přeměně na energii elektrickou, která je dále využita pro na-pájení moderních MEMS (mikroelektromechanických) zařízení. Potenciální aplikací vyvíjeného zdroje je především moderní nositelná elektronika a biomedicínské senzory. Tato oblast využití ovšem klade zvýšené nároky na parametry generátoru, který musí zajistit dostatečný generovaný výkon z energie, dostupné v okolí lidského těla, a to při zachování prakticky využitelné velikosti a hmotnosti. Po stanovení předběžných požadavků a provedení analýz vhodnosti dostupných zdrojů energie ke konverzi byla k využití vybrána kinetická energie lidských aktivit. Byla provedena série měření zrychlení na lidském těle, především v místě předpokládaného umístění generátoru, aby bylo možno analyzovat a generalizovat hodnoty energie dostupné ke konverzi v daném umístění. V návaznosti na tato měření a analýzy byl vyvinut inovativní kinetický energy harvester, který byl následně vyroben jako funkční vzorek. Tento vzorek byl pak testován v reálných podmínkách pro verifikaci simulačního modelu a vyhodnocení reálné použitelnosti takového zařízení. Kromě samotného vývoje generátoru je v práci popsán i originální způsob zvýšení generovaného výkonu pro kinetické energy harvestery a jsou prezentována statistická data a modely pro predikci využitelnosti kinetických harvesterů pro získávání energie z lidské aktivity.
42	Posouzení vlivu jednotlivých druhů OZE na elektrizační soustavu / Assessment of the impact of different types of RES in the power system Zmeškal, Pavel January 2011 (has links) This thesis deals with usage of each kind of RES under conditions of Czech republic and their usage at areas placed in. Consequently supplied RES output power at time and its influence on reliability of supply in EPS CZ. Way of operation of RES from point of view of requirement on regulation and control of operation of EPS is more studied on operation of different kinds of wind power plants, which due to its variable output power affects not only EPS CZ. At final caption, economic influence of RES to EPS is reviewed as a unit, increasingly claims on regulation, increasingly benefit on support of RES. All these influences increase price of electricity for end user.
43	Vzduchový kolektor v tepelné bilanci budovy / Air-collector in heat balance of building Dosedlová, Anna January 2013 (has links) The subject of the thesis is the use of solar thermal technology for the production of low-potential heat. The theoretical part is focus in the solar technology, variants of passive use of solar energy. Describes in detail the solar facades, it's classification in terms of basic criteria. Applications on the project forced ventilation in administrative buildings, installation of solar facade. The work also includes an experiment that deals with the thermal behavior of the air collector.
44	Optimalizace využití solární energie v rodinném domě / Optimising the use of solar energy in the family house Letochová, Jana January 2014 (has links) This thesis is focused on solar energy as an alternative sustainable energy source and its use in family homes. The first part focuses on possible connections of solar energy systems and their design using software simulations. The second part consists of a design for the preparation of hot water in the family home. Finally, a comparison of the efficiency of the set collector according to different calculation methods is included.
45	Evaluation of the regression coefficients for South Africa from solar radiation data Mulaudzi, Tshimangadzo Sophie 20 September 2019 (has links) PhD (Physics) / Department of Physics / The knowledge of solar radiation in this dispensation is crucial. The lack of grid lines in the remote rural areas of South Africa necessitates the use of solar energy as an alternative energy resource. Solar radiation data is one of the primary factors considered for the installation of renewable energy devices and they are very useful for solar technology designers and engineers. In some developing countries, estimation of solar radiation becomes a challenge due to the lack of weather data. This scenario is also applicable to South Africa (SA) wherein there are limited weather stations and hence there is a dire need of estimating the global solar radiation data for all climatic regions. Using a five year global solar radiation (𝐻) and bright sunshine (𝑆) data from the Agricultural Research Council (ARC) and South African Weather Service (SAWS) in SA, linear Angstrom – Prescott solar empirical model was used to determine regression coefficients. MATLAB interface was used whereby the linear regression plots were drawn. Annual empirical coefficients of 22 stations were determined and later the provincial values. The range of the regression coefficients, a and b were 0.216 – 0.301 and 0.381 – 0.512 respectively. The 2006 estimated global solar radiation per station in a province calculated from the modified models were compared with the observed and statistically tested. The root mean square errors were less than 0.600 MJm−2day−1 while the correlation relation ranged from 0.782 – 0.986 MJm−2day−1. The results showed the regression coefficients performed well in terms of prediction accuracy. / NRF Solar energy Solar radiation Regression coefficients Range Grid lines Remote rural areas 523.720968 Solar energy -- South Africa Renewable energy source -- South Africa Solar radiation -- South Africa Solar cells -- South Africa
46	HIGH LOADED ANAEROBIC MESOPHILIC DIGESTION OF SEWAGE SLUDGE : An evaluation of the critical organic loading rate and hydraulic retention time for the anaerobic digestion process at Käppala Wastewater Treatment Plant (WWTP). Gärdeklint Sylla, Ibrahima Sory January 2020 (has links) Käppala wastewater treatment plant (WWTP) has, during a few years, observed an increase in organic loading rate (OLR) in the mesophilic anaerobic digester R100, due to an increased load to the WWTP. The digestion of primary sludge at Käppala WWTP is today high loaded, with a high organic loading rate (OLR) and low hydraulic retention time (HRT). This study aims to evaluate the effect of the maximum OLR and the minimum HRT for the anaerobic digestion of sewage sludge and to investigate further actions that can be taken into consideration in case of process problems in the digestion. The study consists of (a) a practical laboratory experiment of 6 pilot-scale reactors to investigate how the process stability is affected when the OLR increases and the HRT decreases. (b) A mass balance calculation based on the energy potential in the feeding sludge and the digested sludge. (c) A study of the filterability of the digested sludge. (d) The construction of a forecasting model in Excel, to predict when digester R100 will reach its maximum OLR and minimum HRT. The result of the study shows that the maximum OLR for Käppala conditions is 4.9 g VS dm-3 d-1, meaning that R100 will reach its maximum organic load around the year 2031. An OLR of 4.5-4.9 and an HRT of 12 days is optimal for R100, according to the present study. Keeping the anaerobic digestion process in balance is vital when it comes to the outcome of energy in the anaerobic digestion process. Pushing the process to produce more gas can become counterproductive since a high OLR can lead to process imbalance, which in turn leads to low biogas production. Imbalance in the digestion process can occur fast; therefore, the margin for overload in the anaerobic digestion process must be significant. The methane concentration in the converted biogas and the pH level in the reactor are the best stability parameters for the conditions at Käppala. Ammonia is the less efficient stability parameter since it did not predict or detect any instability during the experimental process. Furthermore, the OLR and HRT have a significant impact on the needed quantity for dewatering polymer. The higher digestion of organic material in the sludge, the bigger the need for the polymer to take care of the rest material. Dewaterability Mesophilic anaerobic digestion Methane Organic load rate Renewable energy source Sludge filterability Wastewater treatment. Avvattningsförmåga mesofil anaerob rötning metan organisk belastning förnybar energikälla slammets filtrerbarhet vattenrening Energy Systems Energisystem
47	high loaded anaerobic mesophilic digestion of sewage sludge : An evaluation of the critical organic loading rate and hydraulic retention time for the anaerobic digestion process at Käppala Wastewater Treatment Plant (WWTP). Sylla, Ibrahima January 2020 (has links) Käppala wastewater treatment plant (WWTP) has, during a few years, observed an increase in organic loading rate (OLR) in the mesophilic anaerobic digester R100, due to an increased load to the WWTP. The digestion of primary sludge at Käppala WWTP is today high loaded, with a high organic loading rate (OLR) and low hydraulic retention time (HRT). This study aims to evaluate the effect of the maximum OLR and the minimum HRT for the anaerobic digestion of sewage sludge and to investigate further actions that can be taken into consideration in case of process problems in the digestion. The study consists of (a) a practical laboratory experiment of 6 pilot-scale reactors to investigate how the process stability is affected when the OLR increases and the HRT decreases. (b) A mass balance calculation based on the energy potential in the feeding sludge and the digested sludge. (c) A study of the filterability of the digested sludge. (d) The construction of a forecasting model in Excel, to predict when digester R100 will reach its maximum OLR and minimum HRT. The result of the study shows that the maximum OLR for Käppala conditions is 4.9 g VS dm-3 d-1, meaning that R100 will reach its maximum organic load around the year 2031. An OLR of 4.5-4.9 and an HRT of 12 days is optimal for R100, according to the present study. Keeping the anaerobic digestion process in balance is vital when it comes to the outcome of energy in the anaerobic digestion process. Pushing the process to produce more gas can become counterproductive since a high OLR can lead to process imbalance, which in turn leads to low biogas production. Imbalance in the digestion process can occur fast; therefore, the margin for overload in the anaerobic digestion process must be significant. The methane concentration in the converted biogas and the pH level in the reactor are the best stability parameters for the conditions at Käppala. Ammonia is the less efficient stability parameter since it did not predict or detect any instability during the experimental process. Furthermore, the OLR and HRT have a significant impact on the needed quantity for dewatering polymer. The higher digestion of organic material in the sludge, the bigger the need for the polymer to take care of the rest material. Dewaterability Mesophilic anaerobic digestion Methane Organic load rate Renewable energy source Sludge filterability Wastewater treatment. Avvattningsförmåga mesofil anaerob rötning metan organisk belastning förnybar energikälla slammets filtrerbarhet vattenrening Energy Systems Energisystem
48	Financing green energy projects : Funding possibilities, challange for change, and the integration of the private sector Djerf, Rickard, Edblad, Solveig January 2023 (has links) The world’s energy structure today relies 80 % on fossil fuels, contributing to rising temperatures and a changing climate. Society is built upon heavy energy usage and consumption is forecasted to increase rather than decrease. This implies that today’s energy mix needs thorough reconstruction where renewable energy sources must be a bigger part of the mix. There are well-known and developed green energy solutions that are not being fully exploited by society, where one explanation is the lack of funding possibilities. Therefore, this paper aims to investigate green energy projects to present further insight, integrate the private sector, and increase investments. This is done by interviewing Swedish economic associations investing in wind power to learn about concepts and experiences that can be applied by new investors when entering the green energy market. Our findings revealed that the permit process was the biggest obstacle in establishing wind turbines leading to fewer investing opportunities for private investors. Wind power in Sweden is self-sufficient with various returns hence are in no vital need for support schemes to be economically sustainable. This concludes that the government should focus on improving the permit process rather than promoting renewable energy support schemes to reach their climate goals. Energy source Wind turbine Economic association Permit process Renewable support scheme Subvention Green finance Green energy Energikälla Vindkraftverk Ekonomisk förening Tillståndsprocess Förnybara stödsystem Subventioner Grön finansiering Grön energi Business Administration Företagsekonomi
49	Förbättring av energieffektiviteten för villor genom att implementera grund geotermisk ventilation / Improving energy efficiency for villas by implementing shallow geothermal ventilation Toro, Saleem, Haddad, Bilet, Slewa, Frank January 2023 (has links) Introduction: The world is facing an economic crisis that has led to high energy prices in the EU. These high energy prices have been a contributing factor to the challenging economic situation in Sweden, affecting businesses, industries, and households. EU countries have limited access to energy and rely mostly on imports. The key objective is to reduce these costs through the utilization of renewable energy resources. Geothermal ventilation, in particular, is an efficient and promising source. However, this system has not yet been implemented in Sweden. The aim of this study is to investigate and analyze the effectiveness of horizontal ground geothermal ventilation systems in the context of Swedish conditions.Method: This study includes quantitative and qualitative data from a case study. Data collection involved literature study, interviews with various stakeholders, and simulations using Ansys software to analyze air flows and temperature conditions.Results: This section presents the results of a comprehensive study on basic geothermal ventilation in villas, carried out in accordance with Swedish environmental regulations. Interviews with representatives from ventilation companies and Jönköping municipality showed mixed opinions about the system's potential. While some expressed interest and approval due to energy savings and environmental adaptation, others had concerns about profitability and cost-effectiveness. Testing the system's efficiency using thermal exchange simulation software showed lower-than-expectedresults, indicating the need for further improvements. However, despite its lower efficiency, the geothermal ventilation system was still considered an environmentally friendly alternative to conventional methods, helping to reduce the environmental impact of the construction industry.Analysis: Ground geothermal ventilation system meets Swedish environmental standards and contributes to energy savings in new buildings. Although the system meets the standards, further improvements are needed to increase efficiency. Requirements and prerequisites include the right insulation classes and specially manufactured ground pipes. Implementation in villas can be challenging due to costs and heat delivery. Despite this, the system improves indoor air quality and reduces energy consumption, even if the temperature differences may be smaller than expected.Discussion: In this chapter, the results and conclusions from the study are discussed. Despite limited research on the subject, the study shows that shallow geothermal ventilation has potential, but there are challenges and limitations for implementation in Swedish villas. The method choice of literature review and qualitative interviews was appropriate to achieve the purpose, but more participants and research are needed to increase validity and reliability. Recommendations are given for further research in the area. Climate change and CO2 emission cooling & heating geothermal energy renewable energy source and reliable shallow geothermal ventilation Effektivitet och besparing förnybar energikälla och pålitlig geotermisk energi grund geotermisk ventilation klimatförändring och CO2 utsläpp kylning och uppvärmning Building Technologies Husbyggnad
50	Climate change mitigation: an analysis of liquefied petroleum gas (LPG) as an alternative domestic energy source to charcoal in Zambia Mutale, Oswald Levy 05 1900 (has links) This study analyses the possibility of introducing liquefied petroleum gas (LPG) as an alternative domestic energy source to charcoal in Zambia to mitigate climate change. The study, conducted in Lusaka, used questionnaires, focus group discussions, interviews and literature study to collect data. The study revealed that the introduction of LPG is possible. However, some challenges need to be addressed in order to actualise the change. Lack of knowledge about LPG; non-availability of LPG in most parts of the country; perceived danger of LPG; high prices of LPG and accessories; changing people‟s mind-sets about charcoal; social inequity and lack of government initiative, were the main challenges identified. Social-Ecology and sustainable livelihoods were used as theoretical frameworks to ground the study and analyse the results. The study recommends that government takes the lead to make the change possible and that further research be done on sustainable livelihoods for charcoal producers and traders. / Development Studies / M. A. (Development Studies) Climate Climate change mitigation Greenhouse gases Global warming LPG Charcoal Deforestation Alternative domestic energy source Zambia Sustainable livelihoods approach Sustainable development Social Ecology 699.8 Global warming -- Zambia -- Lusaka Charcoal -- Zambia -- Lusaka

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