931 resultados para renewable energy production
Resumo:
Biomass is an important source of energy in Thailand and is currently the main renewable energy source, accounting for 40% of the renewable energy used. The Department of Alternative Energy and E�ciency (DEDE), Ministry of Thailand, has been promoting the use of renewable energy in Thailand for the past decade. The new target for renewable energy usage in the country is set at 25% of the �nal energy demand in 2021. Thailand is the world’s fourth largest producer of cassava and this results in the production of signi�cant amounts of cassava rhizome which is a waste product. Cassava rhizome has the potential to be co-�red with coal for the production of heat and power. With suitable co-�ring ratios, little modi�cation will be required in the co-�ring technology. This review article is concerned with an investigation of the feasibility of co-�ring cassava rhizome in a combined heat and power system for a cassava based bio-ethanol plant in Thailand. Enhanced use of cassava rhizome for heat and power production could potentially contribute to a reduction of greenhouse gas emissions and costs, and would help the country to meet the 2021 renewable energy target.
Resumo:
In this study, the performance, yield and characteristics of a 16 year old photovoltaic (PV) system installation have been investigated. The technology, BP Saturn modules which were steel-blue polycrystalline silicon cells are no longer in production. A bespoke monitoring system has been designed to monitor the characteristics of 6 refurbished strings, of 18 modules connected in series. The total output of the system is configured to 6.5 kWp (series to parallel configuration). In addition to experimental results, the performance ratio (PR) of known values was simulated using PVSyst, a simulation software package. From calculations using experimental values, the PV system showed approximately 10% inferior power outputs to what would have been expected as standard test conditions. However, efficiency values in comparison to standard test conditions and the performance ratio (w75% from PVSyst simulations) over the past decade have remained practically the same. This output though very relevant to the possible performance and stability of aging cells, requires additional parametric studies to develop a more robust argument. The result presented in this paper is part of an on-going investigation into PV system aging effects.
Resumo:
Wind energy potential in Iberia is assessed for recent–past (1961–2000) and future (2041–2070) climates. For recent–past, a COSMO-CLM simulation driven by ERA-40 is used. COSMO-CLM simulations driven by ECHAM5 following the A1B scenario are used for future projections. A 2 MW rated power wind turbine is selected. Mean potentials, inter-annual variability and irregularity are discussed on annual/seasonal scales and on a grid resolution of 20 km. For detailed regional assessments eight target sites are considered. For recent–past conditions, the highest daily mean potentials are found in winter over northern and eastern Iberia, particularly on high-elevation or coastal regions. In northwestern Iberia, daily potentials frequently reach maximum wind energy output (50 MWh day−1), particularly in winter. Southern Andalucía reveals high potentials throughout the year, whereas the Ebro valley and central-western coast show high potentials in summer. The irregularity in annual potentials is moderate (<15% of mean output), but exacerbated in winter (40%). Climate change projections show significant decreases over most of Iberia (<2 MWh day−1). The strong enhancement of autumn potentials in Southern Andalucía is noteworthy (>2 MWh day−1). The northward displacement of North Atlantic westerly winds (autumn–spring) and the strengthening of easterly flows (summer) are key drivers of future projections.
Resumo:
It is necessary to minimize the environmental impact and utilize natural resources in a sustainable and efficient manner in the early design stage of developing an environmentally-conscious design for a heating, ventilating and air-conditioning system. Energy supply options play a significant role in the total environmental load of heating, ventilating and air-conditioning systems. To assess the environmental impact of different energy options, a new method based on Emergy Analysis is proposed. Emergy Accounting, was first developed and widely used in the area of ecological engineering, but this is the first time it has been used in building service engineering. The environmental impacts due to the energy options are divided into four categories under the Emergy Framework: the depletion of natural resources, the greenhouse effect (carbon dioxide equivalents), the chemical rain effect (sulphur dioxide equivalents), and anthropogenic heat release. The depletion of non-renewable natural resources is indicated by the Environmental Load Ratio, and the environmental carrying capacity is developed to represent the environmental service to dilute the pollutants and anthropogenic heat released. This Emergy evaluation method provides a new way to integrate different environmental impacts under the same framework and thus facilitates better system choices. A case study of six different kinds of energy options consisting of renewable and non-renewable energy was performed by using Emergy Theory, and thus their relative environmental impacts were compared. The results show that the method of electricity generation in energy sources, especially for electricity-powered systems, is the most important factor to determine their overall environmental performance. The direct-fired lithium-bromide absorption type consumes more non-renewable energy, and contributes more to the urban heat island effect compared with other options having the same electricity supply. Using Emergy Analysis, designers and clients can make better-informed, environmentally-conscious selections of heating, ventilating and air-conditioning systems.
Resumo:
Genetic algorithm has been widely used in different areas of optimization problems. Ithas been combined with renewable energy domain, photovoltaic system, in this thesis.To participate and win the solar boat race, a control program is needed and C++ hasbeen chosen for programming. To implement the program, the mathematic model hasbeen built. Besides, the approaches to calculate the boundaries related to conditionhave been explained. Afterward, the processing of the prediction and real time controlfunction are offered. The program has been simulated and the results proved thatgenetic algorithm is helpful to get the good results but it does not improve the resultstoo much since the particularity of the solar driven boat project such as the limitationof energy production
Resumo:
The new Popular Science Park TEKNOLAND in Falun contains a number of interactive solar energy exhibits, including The Solar Heated Chess Board, The Solar Electric Playhouse, The Sudanese Solar Oven, and Solar Collector Optics. The TeknoTrix tutored children activities include solar thermal activities. Some related interactive exhibits are planned to be included during the summer and during coming years.
Resumo:
The aim of the study is to develop a model for the energy balance of buildings that includes the effect from the radiation properties of interior and exterior surfaces of the building envelope. As a first step we have used ice arenas as case study objects to investigate the importance of interior low emissivity surfaces. Measurements have been done in two ice arenas in the north part of Sweden, one with lower and one with higher ceiling emissivity. The results show that the low emissivity ceiling gives a much lower radiation temperature interacting with the ice under similar conditions. The dynamic modelling of the roof in ice arenas shows a similar dependence of the roof-to-ice heat flux and the ceiling emissivity.A second part of the study focus on how to realise paints with very low thermal emissivity to be used on interior building surfaces.
Resumo:
This thesis examines prerequisites for wind power diffusion in a county in Sweden that quite recently was concidered to be of interest for electricty production from renewable energy sources. Three different municipalities: Falun, Mora and Orsa in the county of Dalarna are highlighted. Their view on permitting processes of wind power installations are investigated. Other actors, such as exploiters and local citizens are also being analysed. This study shows that the local acceptance was very high when the first wind power parks were built, much thanks to local politicians and local citizens. For the politicians the wind power symbolised a key to a better green society, for the local citizens the wind power meant some economical advantages. The first wind power parks were localised to areas because of good wind conditions and social factors, especially from local communities. However, results from this study shows that the acceptance for wind power the last few years, in generel, has decreased. The local authorities have also been conscious of some negative consequenses from already built wind power parks. As a response they started to add planning tools to the permitting process.
Resumo:
The need for heating and cooling in buildings constitutes a considerable part of the total energy use in a country and reducing this need is of outmost importance in order to reach national and international goals for reducing energy use and emissions. One important way of reaching these goals is to increase the proportion of renewable energy used for heating and cooling of buildings. Perhaps the largest obstacle with this is the often occurring mismatch between the availability of renewable energy and the need for heating or cooling, hindering this energy to be used directly. This is one of the problems that can be solved by using thermal energy storage (TES) in order to save the heat or cold from when it is available to when it is needed. This thesis is focusing on the combination of TES techniques and buildings to achieve increased energy efficiency for heating and cooling. Various techniques used for TES as well as the combination of TES in buildings have been investigated and summarized through an extensive literature review. A survey of the Swedish building stock was also performed in order to define building types common in Sweden. Within the scope of this thesis, the survey resulted in the selection of three building types, two single family houses and one office building, out of which the two residential buildings were used in a simulation case study of passive TES with increased thermal mass (both sensible and latent). The second case study presented in the thesis is an evaluation of an existing seasonal borehole storage of solar heat for a residential community. In this case, real measurement data was used in the evaluation and in comparisons with earlier evaluations. The literature reviews showed that using TES opens up potential for reduced energy demand and reduced peak heating and cooling loads as well as possibilities for an increased share of renewable energy to cover the energy demand. By using passive storage through increased thermal mass of a building it is also possible to reduce variations in the indoor temperature and especially reduce excess temperatures during warm periods, which could result in avoiding active cooling in a building that would otherwise need it. The analysis of the combination of TES and building types confirmed that TES has a significant potential for increased energy efficiency in buildings but also highlighted the fact that there is still much research required before some of the technologies can become commercially available. In the simulation case study it was concluded that only a small reduction in heating demand is possible with increased thermal mass, but that the time with indoor temperatures above 24 °C can be reduced by up to 20%. The case study of the borehole storage system showed that although the storage system worked as planned, heat losses in the rest of the system as well as some problems with the system operation resulted in a lower solar fraction than projected. The work presented within this thesis has shown that TES is already used successfully for many building applications (e.g. domestic hot water stores and water tanks for storing solar heat) but that there still is much potential in further use of TES. There are, however, barriers such as a need for more research for some storage technologies as well as storage materials, especially phase change material storage and thermochemical storage.
Resumo:
This thesis evaluates different sites for a weather measurement system and a suitable PV- simulation for University of Surabaya (UBAYA) in Indonesia/Java. The weather station is able to monitor all common weather phenomena including solar insolation. It is planned to use the data for scientific and educational purposes in the renewable energy studies. During evaluation and installation it falls into place that official specifications from global meteorological organizations could not be meet for some sensors caused by the conditions of UBAYA campus. After arranging the hardware the weather at the site was monitored for period of time. A comparison with different official sources from ground based and satellite bases measurements showed differences in wind and solar radiation. In some cases the monthly average solar insolation was deviating 42 % for satellite-based measurements. For the ground based it was less than 10 %. The average wind speed has a difference of 33 % compared to a source, which evaluated the wind power in Surabaya. The wind direction shows instabilities towards east compared with data from local weather station at the airport. PSET has the chance to get some investments to investigate photovoltaic on there own roof. With several simulations a suitable roof direction and the yearly and monthly outputs are shown. With a 7.7 kWpeak PV installation with the latest crystalline technology on the market 8.82 MWh/year could be achieved with weather data from 2012. Thin film technology could increase the value up to 9.13 MWh/year. However, the roofs have enough area to install PV. Finally the low price of electricity in Indonesia makes it not worth to feed in the energy into the public grid.
Resumo:
The demand for cooling and air-conditioning of building is increasingly ever growing. This increase is mostly due to population and economic growth in developing countries, and also desire for a higher quality of thermal comfort. Increase in the use of conventional cooling systems results in larger carbon footprint and more greenhouse gases considering their higher electricity consumption, and it occasionally creates peaks in electricity demand from power supply grid. Solar energy as a renewable energy source is an alternative to drive the cooling machines since the cooling load is generally high when solar radiation is high. This thesis examines the performance of PV/T solar collector manufactured by Solarus company in a solar cooling system for an office building in Dubai, New Delhi, Los Angeles and Cape Town. The study is carried out by analyzing climate data and the requirements for thermal comfort in office buildings. Cooling systems strongly depend on weather conditions and local climate. Cooling load of buildings depend on many parameters such as ambient temperature, indoor comfort temperature, solar gain to the building and internal gains including; number of occupant and electrical devices. The simulations were carried out by selecting a suitable thermally driven chiller and modeling it with PV/T solar collector in Polysun software. Fractional primary energy saving and solar fraction were introduced as key figures of the project to evaluate the performance of cooling system. Several parametric studies and simulations were determined according to PV/T aperture area and hot water storage tank volume. The fractional primary energy saving analysis revealed that thermally driven chillers, particularly adsorption chillers are not suitable to be utilizing in small size of solar cooling systems in hot and tropic climates such as Dubai and New Delhi. Adsorption chillers require more thermal energy to meet the cooling load in hot and dry climates. The adsorption chillers operate in their full capacity and in higher coefficient of performance when they run in a moderate climate since they can properly reject the exhaust heat. The simulation results also indicated that PV/T solar collector have higher efficiency in warmer climates, however it requires a larger size of PV/T collectors to supply the thermally driven chillers for providing cooling in hot climates. Therefore using an electrical chiller as backup gives much better results in terms of primary energy savings, since PV/T electrical production also can be used for backup electrical chiller in a net metering mechanism.
Resumo:
As preocupações mundiais com o aquecimento global e os efeitos nocivos da utilização de combustíveis fósseis têm fomentado a busca por novos modelos energéticos, baseados em fontes limpas e renováveis, com destaque para os biocombustíveis. Sem menos importância, o esgotamento das reservas mundiais de matérias-primas fósseis, somado às instabilidades geopolíticas nas principais regiões produtoras, impulsionam, cada vez mais, o desenvolvimento destes novos modelos. Neste cenário, o Brasil tem papel de destaque. Líder mundial na produção e consumo de etanol à base de cana-de-açúcar, o país iniciou, em 2005, a inclusão de mais uma fonte de energia renovável em sua matriz energética: a mistura do biodiesel no diesel mineral. O presente trabalho tem como objetivo analisar a competitividade dos principais biocombustíveis brasileiros: o etanol e o biodiesel. Em primeiro lugar, estes produtos foram analisados quanto às suas principais características; em segundo, avaliou-se a competitividade econômica destes combustíveis frente a seus produtos substitutos diretos derivados do petróleo. Finalmente, foram analisados os benefícios (tangíveis e intangíveis) inerentes à utilização dos biocombustíveis, e como estes intangíveis deveriam ser precificados, como forma de atribuir um prêmio aos benefícios que trazem ao meio-ambiente e à sociedade. Esta dissertação pretende servir de base para uma avaliação mais profunda da real competitividade econômica dos biocombustíveis frente aos combustíveis derivados do petróleo, além de colocar em cheque as principais análises atuais e críticas sobre a utilização destes produtos. Além disso, o presente trabalho visa avaliar o potencial e as limitações da produção dos biocombustíveis no Brasil.
Resumo:
O mundo está diante do desafio de reduzir as emissões de gases do efeito estufa (GEEs) e encontrar fontes renováveis de energia, na busca da segurança energética. Os biocombustíveis são uma alternativa viável e, nesse sentido, o Brasil deu um exemplo para mundo ao criar o Proálcool em 1975, que foi um programa bem sucedido de substituição da gasolina pelo etanol produzido a partir da cana-de-açúcar. Essa iniciativa contou com a participação do Governo Brasileiro no incentivo e na regulamentação do setor sucroenergético. A partir da sua liberalização em 1999, a indústria canavieira passou por uma importante reestruturação. Este estudo teve como objetivo descrever esse movimento e analisar suas possíveis consequências para o setor. Para isso, foi realizada uma pesquisa sobre a reestruturação da indústria canavieira, entre 1999 e 2011, dando ênfase aos dois ciclos de operações de Fusões & Aquisições ocorridos nesse período. Como principais resultados têm-se a consolidação dos maiores grupos de usinas da Região Centro Sul, que aumentaram a sua participação na moagem de cana e ampliaram suas estruturas produtivas por meio da aquisição de usinas concorrentes e da construção de greenfields. Além disso, foi possível observar o rápido crescimento da participação do capital estrangeiro, juntamente com a entrada de grupos de outros setores industriais. A reestruturação terá consequências positivas para o Brasil, principalmente pela profissionalização do setor sucroenergético e pela capacidade de retomar o ritmo de crescimento da produção de cana-de-açúcar, que foi interrompido pela crise financeira mundial de 2008. Para isso, será necessário investir na ampliação dos canaviais e também na construção de novas usinas.
Resumo:
A utilização de pellets de madeira é bastante difundida nos países desenvolvidos, em particular na Europa, e apresenta demanda crescente para a produção de energia elétrica e térmica, incluindo a calefação residencial. O Brasil apresenta capacidade indiscutível para a geração de diferentes biomassas e em quantidades expressivas, dada à vantagem competitiva de suas condições edafo-climáticas, sua extensão territorial e de ter baixos custos de produção. Apontar-se-á neste trabalho as condições mercadológicas, logísticas, normativas, de incentivos fiscais e de ambiente econômico, com as quais o país poderá se consolidar como um grande produtor e consumidor desta fonte de energia limpa e renovável. Este estudo apresenta as melhores técnicas conhecidas para a venda a pequenos e médios consumidores e para a produção, eficiente e com escala, de pellets de madeira, dentro do Estado de São Paulo. É discutida a necessidade de se ter florestas plantadas com o único propósito de serem transformadas em pellets. Nos últimos anos, os preços dos resíduos de madeira subiram no mercado interno, praticamente os excluindo como fonte de matéria-prima, num cenário de longo prazo. O objetivo final desta dissertação é apresentar os principais aspectos econômico-financeiros que influenciam os cenários para que os pellets de madeira possam substituir o óleo BPF-A1 no mercado regional, e assim discutindo se sua produção se mostrará atraente e confiável para potenciais investidores. Para a avaliação da viabilidade financeira, são utilizados os métodos-chave, Payback, Valor Presente Líquido e Taxa Interna de Retorno, e uma análise de sensibilidade das principais variáveis identificadas. Os principais resultados revelam um Payback de 47 meses, um NPV de R$10.942.127 e uma IRR de 25,18% a.a. em termos reais, para o cenário-base, além de identificar o preço da matéria-prima e a escala de produção como as variáveis mais sensíveis.
Resumo:
Produção intelectual e desenvolvimento tecnológico podem diferenciar países e regiões no processo de desenvolvimento socioeconômico. No caso do Brasil, observa-se o papel energético do etanol combustível para veículos motorizados leves como um resultado importante do avanço tecnológico do país, que vai além da aptidão agroclimática. A contínua busca pela especialização tecnológica verticalizada do setor sucroenergético poderia levar o Brasil a uma posição, se não autônoma, mais confortável, não só de produtor de matéria-prima, mas de processos agregadores de valor no que diz respeito aos processos de produção de etanol de segunda geração, produzido a partir de biomassa lignocelulósica. O objetivo desta dissertação é analisar os esforços de P&D que resultaram em Depósitos e Publicações de patentes em órgãos oficiais como o United States Patent and Trademark Office (USPTO), o European Patent Office (EPO), e o Instituto Nacional de Propriedade Industrial (INPI), no tema etanol de segunda geração. Ainda, verifica-se se esses esforços impactam no poder concorrencial de países e firmas depositantes de patentes. Além das coletas e observações dos dados dos órgãos acima mencionados, foram calculados para os dados de depósitos e publicações de patentes no tema bioetanol lignocelulósico os índices de Herfindahl Hirschman (HHI) e a razão de concentração (Concentration Ratio) CR4, tradicionalmente utilizados para que órgãos reguladores de defesa do consumidor autorizem fusões e aquisições entre participantes de um determinado mercado. Esse método permite a observação do grau de competitividade entre as firmas depositantes de patentes no tema e a possível tendência sobre a detenção do controle em futuro próximo e a corrida para venda de royalties dos processos desenvolvidos em diferentes áreas tecnológicas para incrementar a produção industrial de etanol avançado. Os resultados indicam uma concentração elevada dos esforços de pesquisa, medidos pelos depósitos de patentes, referentes a etanol de segunda geração, em um número muito reduzido de empresas norte-americanas, quando analisada a base de dados dos EUA. O sucesso desses esforços, mensurados pela publicação de patentes, contudo, não se mostra concentrado nem nos EUA nem na União Europeia. No caso do Brasil, ainda não são encontradas publicações de patentes no tema Lignocellulosic Bioethanol, bem como apenas uma empresa brasileira possui uma patente publicada nos Estados Unidos. Esses resultados sugerem que investimentos em pesquisa científica no Brasil podem produzir mais artigos publicados e titulação acadêmica/científica que propriamente o registro de patentes em órgãos especializados em qualificar a invenção de métodos, processos ou fórmulas, dentro e fora do país. Isso pode significar tanto baixo esforço em pesquisa no assunto quanto à perda pelo autor e/ou sua instituição da oportunidade de ter seu esforço de pesquisa recompensado por meio de royalties, como compensação pela criatividade, dedicação intelectual e de recursos econômicos. Os resultados deste estudo contribuem para o debate a respeito da crescente necessidade de produção e abastecimento de fontes renováveis de energia, como o biocombustível etanol avançado à base do derivado bagaço de cana-de-açúcar, a custos mais competitivos como matéria-prima adicional e para produção incremental de etanol em futuro próximo. As conclusões do estudo indicam a necessidade do aumento na produção de conhecimento aplicado e em esforços para garantir sua propriedade intelectual, permitindo o retorno patrimonial com royalties.
