944 resultados para Alternative - Energy sources
Resumo:
Pharmacological levels of zinc oxide (ZnO) incorporated into the post-weaning piglet diet reduce the incidence of diarrhoea caused by enterotoxigenic Escherichia coli (ETEC) K88. The mechanism for this is not understood. Here, Intestinal Porcine Epithelial Cells (IPEC) J2 were used as an in vitro model of the porcine intestine. ZnO reduced IPEC J2 viability at concentrations >= 200 mu M, and ETEC adhesion to the host cell was unaffected by ZnO. Characterisation of the metabolism of IPEC J2 cells and ETEC established the effects of ZnO treatment on the metabolic profile of both. Although 100 mu M ZnO did not inhibit growth of either host or pathogen in fully supplemented media, metabolic profiles were significantly altered. Glucose and mannose were essential energy sources for IPEC J2 cells in the presence of ZnO, as the ability to utilise other sources was compromised. The increase in specificity of requirements to support respiration in ETEC was more pronounced, in particular the need for cysteine as a nitrogen source. These findings indicate that ZnO impacts on both host cell and pathogen metabolism and may provide insight into the mechanism for diarrhoea reduction. (C) 2010 Elsevier B.V. All rights reserved.
Resumo:
In Listeria monocytogenes the alternative sigma factor σB plays important roles in both virulence and stress tolerance. In this study a proteomic approach was used to define components of the σB regulon in L. monocytogenes 10403S (serotype 1/2a). Using two-dimensional gel electrophoresis and the recently developed isobaric tags for relative and absolute quantitation technique, the protein expression profiles of the wild type and an isogenic ΔsigB deletion strain were compared. Overall, this study identified 38 proteins whose expression was σB dependent; 17 of these proteins were found to require the presence of σB for full expression, while 21 were expressed at a higher level in the ΔsigB mutant background. The data obtained with the two proteomic approaches showed limited overlap (four proteins were identified by both methods), a finding that highlights the complementarity of the two technologies. Overall, the proteomic data reaffirmed a role for σB in the general stress response and highlighted a probable role for σB in metabolism, especially in the utilization of alternative carbon sources. Proteomic and physiological data revealed the involvement of σB in glycerol metabolism. Five newly identified members of the σB regulon were shown to be under direct regulation of σB using reverse transcription-PCR (RT-PCR), while random amplification of cDNA ends-PCR was used to map four σB-dependent promoters upstream from lmo0796, lmo1830, lmo2391, and lmo2695. Using RT-PCR analysis of known and newly identified σB-dependent genes, as well as proteomic analyses, σB was shown to play a major role in the stationary phase of growth in complex media.
Resumo:
The very first numerical models which were developed more than 20 years ago were drastic simplifications of the real atmosphere and they were mostly restricted to describe adiabatic processes. For prediction of a day or two of the mid tropospheric flow these models often gave reasonable results but the result deteriorated quickly when the prediction was extended further in time. The prediction of the surface flow was unsatisfactory even for short predictions. It was evident that both the energy generating processes as well as the dissipative processes have to be included in numerical models in order to predict the weather patterns in the lower part of the atmosphere and to predict the atmosphere in general beyond a day or two. Present-day computers make it possible to attack the weather forecasting problem in a more comprehensive and complete way and substantial efforts have been made during the last decade in particular to incorporate the non-adiabatic processes in numerical prediction models. The physics of radiational transfer, condensation of moisture, turbulent transfer of heat, momentum and moisture and the dissipation of kinetic energy are the most important processes associated with the formation of energy sources and sinks in the atmosphere and these have to be incorporated in numerical prediction models extended over more than a few days. The mechanisms of these processes are mainly related to small scale disturbances in space and time or even molecular processes. It is therefore one of the basic characteristics of numerical models that these small scale disturbances cannot be included in an explicit way. The reason for this is the discretization of the model's atmosphere by a finite difference grid or the use of a Galerkin or spectral function representation. The second reason why we cannot explicitly introduce these processes into a numerical model is due to the fact that some physical processes necessary to describe them (such as the local buoyance) are a priori eliminated by the constraints of hydrostatic adjustment. Even if this physical constraint can be relaxed by making the models non-hydrostatic the scale problem is virtually impossible to solve and for the foreseeable future we have to try to incorporate the ensemble or gross effect of these physical processes on the large scale synoptic flow. The formulation of the ensemble effect in terms of grid-scale variables (the parameters of the large-scale flow) is called 'parameterization'. For short range prediction of the synoptic flow at middle and high latitudes, very simple parameterization has proven to be rather successful.
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:
The increased concern for the impacts of climate change on the environment, along with the growing industry of renewable energy sources, and especially wind power, has made the valuation of environmental services and goods of great significance. Offshore wind energy is being exploited exponentially and its importance for renewable energy generation is increasing. We apply a double-bound dichotomous Contingent Valuation Method analysis in order to both a) estimating the Willingness to Pay (WTP) of Greek residents for green electricity produced by offshore wind farm located between the islands of Tinos and Andros and b) identifying factors behind respondents’ WTP including individual’s behaviour toward environment and individual’s views on climate change and renewable energy. A total of 141 respondents participated in the questionnaire. Results show that the respondents are willing to pay on average 20€ every two months through their electricity bill in return for carbon-free electricity and water saving from the wind farm. Respondents’ environmental consciousness and their perception towards climate change and renewable energy have a positive effect on their WTP.
Resumo:
The photodynamic therapy (PDT) is a combination of using a photosensitizer agent, light and oxygen that can cause oxidative cellular damage. This technique is applied in several cases, including for microbial control. The most extensively studied light sources for this purpose are lasers and LED-based systems. Few studies treat alternative light sources based PDT. Sources which present flexibility, portability and economic advantages are of great interest. In this study, we evaluated the in vitro feasibility for the use of chemiluminescence as a PDT light source to induce Staphylococcus aureus reduction. The Photogem (R) concentration varied from 0 to 75 mu g/ml and the illumination time varied from 60 min to 240 min. The long exposure time was necessary due to the low irradiance achieved with chemiluminescence reaction at mu W/cm(2) level. The results demonstrated an effective microbial reduction of around 98% for the highest photosensitizer concentration and light dose. These data suggest the potential use of chemiluminescence as a light source for PDT microbial control, with advantages in terms of flexibility, when compared with conventional sources. (C) 2011 Elsevier B.V. All rights reserved.
Resumo:
PV-Wind-Hybrid systems for stand-alone applications have the potential to be more cost efficient compared to PV-alone systems. The two energy sources can, to some extent, compensate each others minima. The combination of solar and wind should be especially favorable for locations at high latitudes such as Sweden with a very uneven distribution of solar radiation during the year. In this article PV-Wind-Hybrid systems have been studied for 11 locations in Sweden. These systems supply the household electricity for single family houses. The aim was to evaluate the system costs, the cost of energy generated by the PV-Wind-Hybrid systems, the effect of the load size and to what extent the combination of these two energy sources can reduce the costs compared to a PV-alone system. The study has been performed with the simulation tool HOMER developed by the National Renewable Energy Laboratory (NREL) for techno-economical feasibility studies of hybrid systems. The results from HOMER show that the net present costs (NPC) for a hybrid system designed for an annual load of 6000 kWh with a capacity shortage of 10% will vary between $48,000 and $87,000. Sizing the system for a load of 1800 kWh/year will give a NPC of $17,000 for the best and $33,000 for the worst location. PV-Wind-Hybrid systems are for all locations more cost effective compared to PV-alone systems. Using a Hybrid system is reducing the NPC for Borlänge by 36% and for Lund by 64%. The cost per kWh electricity varies between $1.4 for the worst location and $0.9 for the best location if a PV-Wind-Hybrid system is used.
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:
O cenário geopolítico global de desenvolvimento assimétrico e novas fontes de energia constituem um desafio para a sustentabilidade organizacional, requerendo organizações com capacidade de adaptação a ambientes turbulentos. Os principais aspectos que afetam a sobrevivência das empresas de energia podem ser categorizados em geopolíticos, econômicos, sociais, tecnológicos, legais, ambientais, de segurança, de energia e administrativos. Esta tese doutoral apresenta um modelo de organizações com capacidade de adaptação a ambientes turbulentos que permite à empresa atingir sustentabilidade no tempo, como resposta à pergunta de partida. Essa pergunta procura as características determinantes de um modelo de organização adaptável, considerando o setor energético brasileiro, no cenário geopolítico global de desenvolvimento assimétrico e novas fontes de energia, segundo a percepção de gestores. A metodologia adotada tomou por base a Grounded Theory apoiada pelo software Atlas/ti e aplicada a entrevistas em profundidade. O método utilizado permitiu construir a teoria indutivamente, com base em categorias, propriedades e dimensões. O modelo proposto emergiu da pesquisa configurando a capacidade de adaptação aos cenários turbulentos para atingir sustentabilidade organizacional como fundamentada nas categorias de Planejamento Prospectivo, Sistemas Adaptativos e Integração Estrutural, identificando as propriedades e dimensões requeridas em cada uma dessas categorias.
Resumo:
O esgotamento das reservas de energia fóssil e o processo de mudanças climáticas causadas pelas emissões de GEEs posicionaram os biocombustíveis como a principal fonte alternativa de energia renovável disponível para uso em transportes no curto e médio prazos. Contudo, a presença de externalidades e assimetrias de informação dificultam a verificação da sustentabilidade neste setor. Assim, a emergência do mercado internacional de biocombustíveis mostra-se condicionada pela construção de instituições que garantam a sustentabilidade da produção e consumo desses produtos. O processo de construção das instituições de governança socioambiental é afetado por fatores de ordem técnica, política e institucional. Apoiado em aportes teóricos do institucionalismo econômico e sociológico, o presente estudo buscou analisar que elementos afetam este processo considerando a trajetória de mercados já estabelecidos que apresentam caraterísticas análogas ao setor de biocombustíveis (alimentos orgânicos e produtos florestais). A forma como legislações nacionais, acordos internacionais e sistemas de certificação privada se desenvolveram e interagiram nesses setores apresenta aderência com o processo de construção do mercado de biocombustíveis observado até o momento. Dentre os resultados encontrados, observa-se tendência à convergência entre padrões de sustentabilidade em diferentes legislações nacionais e sistemas de certificação privados devido às externalidades de rede que conferem maior valor a padrões adotados por uma gama mais ampla de usuários. A União Europeia desponta como o principal formador de padrões de sustentabilidade, dado seu perfil importador e o estabelecimento de critérios mais amplos nas legislações dos Estados Membros, geralmente implementada via integração de mecanismos de governança públicos e privados (meta-standards). Apesar do expressivo potencial de consumo, os EUA apresentam menor influência nesse processo devido a considerável capacidade de produção doméstica e a priorização de elementos estratégicos (segurança energética e desenvolvimento rural) no desenho de suas políticas de sustentabilidade para combustíveis de biomassa. Na esfera privada, o desenvolvimento de sistemas de certificação apresenta-se condicionado por elementos técnicos, como a eficiência em cobrir critérios relevantes e os custos incorridos neste processo; e políticos, relacionados à capacidade de legitimição dos atores envolvidos em cada um destes programas de certificação. Também se observa que caraterísticas tecnológicas e organizacionais das cadeias de produção de biocombustíveis afetam a expansão de sistemas de certificação, condicionando tanto os custos para o estabelecimento da cadeia de custódia como a capacidade de coordenação de ações setoriais visando a adoção de práticas sustentáveis que facilitem a obtenção da certificação. Essa relação fica evidente em novas nações que buscam estabelecer um setor bioenergético e enfrentam dificuldades em integrar a agricultura familiar à modelos de produção que respeitem critérios socioambientais vigentes no mercado internacional. A pesquisa revelou a necessidade de um entendimento mais aprofundado da interconexão de novas rotas tecnológicas e atores adentrando no mercado internacional de biocombustíveis. A compreensão dos riscos e potencialidades de novas formas de interação pública e privada na governança socioambiental apresenta-se como um campo prolífico para futuros estudos neste setor e em outros em que atributos ambientais se mostrem relevantes.
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.
Resumo:
Judging by their success in Europe, Asia and North America, passenger and cargo railways are appreciated as the key to infrastructural development in Brazil. The issues are complex and steeped in uncertainty, as well as political and economic agendas, and a wide array of intersecting issues such as business and unionized interests, agricultural and industrial geographical spreads, as well as the emergence of alternative power sources. Not only are the issues systemic, but railway development itself always comes as a physical network structure. The situation under consideration, in other words, is systemic from both the soft and hard systems point of view, thus promising a rich context for systems studies. As an initial attempt in understanding the situation at hand, the research reported here applied the problem structuring approach known as Strategic Options Development and Analysis (SODA) in order to map and analyze issues facing the Brazilian railways. Strategic options for the future development of the railways were identified and analyzed, and ways forward for future research are proposed. In addition, the report serves as an initial knowledge base that can guide future systemic planning studies in the industry.
Resumo:
The MCM-41 mesoporous synthesis was done using rice hulls ash and chrysotile as natural alternative silica sources. For the using of these sources, chemical and thermic treatments were done in both materials. After chemical and thermic treatments, these materials were employed on the MCM-41 mesoctructures synthesis. The natural materials treated and employed in the synthesis were characterized by several techniques such as X-ray diffraction, N2 adsorption and desorption, scanning electronic microscopy and thermogravimetric analysis. MCM-41 standart samples synthetized with aerosil 200 commercial sílica were used to evaluation. The formed material from rice hulls ash showed values from BET specific area about 468 m².g-1, N2 adsorption and desorption isotherms and loss mass similar to reference materials. The silica from chrysotile calcined and leached was employed to mesoporous materials synthesis. The BET specific area showed values about 700 m².g-1, N2 adsorption and desorption isotherms type IV and loss mass similar to mesoporous materials. The formed material from calcined and leached chrysotile, without calcination, applied to phenol remotion carried high performance liquid chromatography and evaluated with organophilic clays with different treatments. By the characterization techniques were proved that mesoporous materials with lesser order that reference samples. The material formed from rice hulls ash without the calcination step achieved better adsorption results than organophilic clays
