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Análise físico-química e ecotoxicológica de combustíveis obtidos a partir do craqueamento termo-catalítico de polímeros / Physico-chemical and ecotoxicological fuel obtained from the thermo-catalytic cracking of polymersTAVARES, Maria Gizelda de Oliveira 28 March 2008 (has links)
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Previous issue date: 2008-03-28 / The present paper describes the theoretical reference for the study of the polymeric
thermal catalytic cracking. A review on these type of materials it was accomplished, beginning
for an introduction on new sources of alternative energy. Recycling plastics used as alternative
sources fuels was evaluated under the environmental and point of view physical -chemical..The
studies permitted validate the developed methodology in the research.. Ecotoxicology was used
as a fundamental tool to evaluate the toxicity levels of alternative fuels sources, and the
obtained levels was compared to the thoroughly used fuels, such as diesel and gasoline. And
the Histology studies generated in the ecotoxicology analyses, was used as a supporting tool to
obtain the conclusions. / Essa pesquisa descreve o referencial teórico para o estudo do craqueamento termocatalítico
de polímeros. Uma revisão desse tipo de material foi realizada começando com uma
introdução sobre novas fontes de energias alternativas. A reciclagem dos plásticos usados
como fonte alternativa de combustíveis, foi avaliada sob o ponto de vista ambiental e físico
químico. O estudo permitiu validar a metodologia desenvolvida na pesquisa. A Ecotoxicologia
foi usada como importante ferramenta para avaliar e comparar os níveis de toxicidade dos
novos combustíveis obtidos na pesquisa, com relação aos combustíveis amplamente utilizados,
tais como o diesel e a gasolina. E usou-se a Histologia como suporte de apoio aos resultados
gerados nas análises ecotoxicológicas para se obter as conclusões.
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Análise por cromatografia gasosa das emissões de compostos orgânicos voláteis provenientes de motores de combustão interna / Analysis of the emissions of volatile organic compounds from the internal combustion engines by gas chromatographySérgio Lucas Ferreira 27 March 2006 (has links)
O problema da poluição do ar se constitui em uma das mais graves ameaças à qualidade de vida de homens, animais, vegetais e a todo ambiente. O aumento da concentração de poluentes atmosféricos é gerado devido à crescente urbanização e ao aumento da frota de veículos automotores, principalmente. As emissões causadas por veículos carregam diversas substâncias tóxicas como: monóxido de carbono (CO), óxidos de nitrogênio (NOx), compostos orgânicos voláteis (COV), hidrocarbonetos policíclicos aromáticos (HPA) e outros que produzem vários efeitos negativos sobre a saúde. Tendo em vista essa situação, o objetivo deste trabalho foi a análise de gases poluentes emitidos por motores por Cromatografia Gasosa de Alta Resolução (CGAR). Foram analisados compostos orgânicos voláteis (benzeno, tolueno, etilbenzeno, o-xileno, m-xileno e p-xileno) nas emissões de motores empregando diesel de petróleo como combustível, B10 e etanol. Para estes combustíveis, compararam-se os teores dessas emissões (substâncias poluentes) variando-se alguns parâmetros dos motores. Também, foram feitas determinações dessas substâncias tóxicas nas emissões de motores empregando etanol como combustível. Nas emissões deste tipo de motor variando-se os parâmetros qualidade da mistura e rotação detectou-se benzeno na concentração 0,129 ± 0,021, 0,124 ± 0,020 e 0,132 ± 0,007 μg/mL (mistura rica, estequiométrica e pobre, respectivamente); 0,134 ± 0,017, 0,129 ± 0,007 e 0,133 ± 0,044 μg/mL (1700 rpm, 2200 rpm e 2700 rpm, respectivamente) que podem ser provenientes do óleo lubrificante. Em geral, para o motor de ignição por compressão, comparando-se as emissões tanto por diesel de petróleo como com mistura B10 observou-se uma redução significativa nas emissões dos poluentes aromáticos quando se emprega a mistura B10. Principalmente, para o benzeno, notou-se diminuição nas concentrações de até 24,5%. Apesar de ter obtido um valor de concentração abaixo de 1 μg/mL tanto na utilização do diesel quanto na de B10, esta redução é extremamente significante, por ser o benzeno, um composto carcinogênico. Além disso, a adição de biodiesel ao diesel mostrou-se eficiente na redução das emissões de poluentes. / Air pollution\'s is one of the most serious environment problems concerning human animals and vegetables life. The increase of concentration of atmospheric pollutants is generated mainly due to increasing urbanization and the increase on the number of motor vehicles. The emissions caused by vehicles contain several toxic substances as: carbon monoxide (CO), nitrogen oxides (NOx), volatile organic compounds (VOC), polycyclic aromatic hydrocarbons (PAH) and others substances ending quite negative effect on health. Considering this situation, this study described the procedures of analysis of pollutant gases emitted by engines, such as volatile organic compounds (benzene, toluene, ethilbenzene, o-xylene, m-xylene and p-xylene) by using High Resolution Gas Chromatography (HRGC) applied to diesel, B10 mixture, and ethanol emissions analysis. Considering the use of diesel and B10 as fuel, a comparative studies has been performed for fossil fuel (diesel) and biodiesel by varying some parameters of the engines. Also, determination of these toxic substances in the emissions of engines had been made using ethanol as fuel. In the emissions of this type of engine varying the parameters as mixture quality and rotation had been detected benzene at concentration values 0,129 ± 0,021, 0,124 ± 0,020 e 0,132 ± 0,007 μg/mL (rich, stoichiometry and lean mixture); 0,134 ± 0,017, 0,129 ± 0,007 e 0,133 ± 0,044 μg/mL (1700 rpm, 2200 rpm and 2700 rpm, respectively) that can be proceeding from the lubricant oil. In general, for CI engine burning diesel or B10 mixture it has been observed drastically reduction in the emissions of the aromatic compounds by using B10. Especially for benzene the reduction of concentrations occurs on the level of about 24.5%. Although, it has obtained a concentration value below 1 μg/mL as much as in the using diesel and B10, this reduction is, extremely significant, to being benzene a carcinogenic compound. Moreover, the addition of biodiesel to the diesel has been showed efficient in the reduction of the pollutants emissions.
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Prospecção e bases de formação da demanda e oferta de etanol combustível nos Estados Unidos / Prospection and formation basis of supply and demand for ethanol fuel in the United StatesAline Ishikawa 03 December 2013 (has links)
Desde o primeiro choque do petróleo, em 1973, os países têm despendido esforços para reduzir sua dependência pelo produto, produzido principalmente em regiões politicamente instáveis. Os Estados Unidos são os maiores consumidores mundiais do combustível, e cerca de 70% são destinados ao transporte. Desde o final da década de 70, o governo americano tem incentivado o uso de etanol como substituto parcial da gasolina. No entanto, o crescimento do biocombustível levantou polêmicas porque a matéria-prima utilizada na sua produção no país é o milho, o que poderia estar afetando a oferta do grão para a produção de alimentos. Dessa forma, foi aprovado em 2007 o RFS2, uma legislação que prevê o consumo mandatório de volumes crescentes de etanol até 2022, mas limita a produção a partir de milho. Os investimentos em pesquisas de combustíveis alternativos passaram a se focar no desenvolvimento de etanol de segunda geração, que utiliza material celulósico como matéria-prima. Sua viabilidade técnica já foi confirmada, mas ainda são necessárias melhorias no processo de produção para que o produto possa ser ofertado em escala comercial. Por outro lado, o Brasil tem uma indústria de etanol madura e também tem feito pesquisas na tecnologia de segunda geração. Se bem sucedida, o país tem planos de exportar o excedente de produção, e os Estados Unidos são um mercado de interesse. O objetivo desta dissertação é auxiliar na avaliação das necessidades de os Estados Unidos importarem etanol de outros países, o que pode criar uma oportunidade para o Brasil. Para isso, foi utilizada a abordagem lógico-intuitiva de construção de cenários - voltada a aspectos qualitativos - para estudar o mercado de etanol combustível nos Estados Unidos até o ano de 2022. A coleta de informações foi feita por meio da revisão bibliográfica, focada em artigos internacionais. A política energética americana e a evolução da tecnologia de segunda geração de etanol foram identificadas como as principais incertezas que devem moldar o futuro do mercado em estudo. A partir delas, foram gerados quatro cenários, nomeados como \"Filho pródigo\", \"Pais esperançosos\", \"Filho independente\" e \"Filho preterido\". Concluiu-se que, enquanto o governo americano continuar incentivando o consumo de etanol, haverá boas oportunidades de exportação do biocombustível brasileiro. Os maiores volumes são esperados em \"Pais esperançosos\". Por outro lado, caso outras alternativas energéticas sejam priorizadas, nossas exportações podem reduzir substancialmente, e o volume comercializado dependerá do preço do nosso produto em relação ao deles e à gasolina. / Since the first oil shock in 1973, countries have made efforts to reduce their dependence on the product, mainly produced in politically unstable regions. The United States is the world\'s largest consumer of the fuel, and about 70 % is allocated to transport. Since the late 70s, the U.S. government has encouraged the use of ethanol as a partial substitute for gasoline. However, the growth of the biofuel arose controversy because the raw material used for the domestic production is corn, which could be affecting the supply of the grain for food production. Thus, it was approved in 2007 the RFS2, a legislation that requires mandatory use of increasing volumes of ethanol until 2022, but limits production from corn. Investments in alternative fuels research started to focus on the development of second generation ethanol, which uses cellulosic material as feedstock. Its technical feasibility has been confirmed, but improvements are still needed in the production process so that the product can be offered on a commercial scale. On the other hand, Brazil has a mature ethanol industry and is also doing research on second-generation technology. If successful, the country plans to export the surplus production, and the United States is a market of interest. The objective of this thesis is to assist the assessment of the United States needs to import ethanol from other countries, which may create an opportunity for Brazil. The logical-intuitive approach of scenario building - focused on qualitative aspects - was used to study the market for fuel ethanol in the United States until the year 2022. Data collection was done through literature review, focused on international articles. The U.S. energy policy and developments in the technology of second generation ethanol were identified as the major uncertainties that are shaping the future of the market under study. Four scenarios were generated from these two uncertainties and named as \"Prodigal Son\", \"Hopeful parents\", \"Independent Son\" and \"Deprecated Son\". It was concluded that while the U.S. government continues to encourage the consumption of ethanol, there are good opportunities to export the Brazilian biofuel. The largest volumes are expected in \"Hopeful parents\". On the other hand, if other energy alternatives are prioritized, our exports can reduce substantially, and sales volume will depend on the price of our product relative to theirs and gasoline.
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An analysis of the influence of phosphorus poisoning on the exhaust emission after treatement systems of light-duty diesel vehiclesToral del Rio, Maria Isabel January 2007 (has links)
Climate change has become a discussion topic of exponentially increasing urgency and importance amoung world leaders of all disciplines. These changes are brought about by the emission of so-called Greenhouse gases from various human activities. The primary cause of CO2 emissions is the burning of the Earth’s supply of nonrenewable natural fossil fuels like coal, oil and natural gas. The world first agreed on the prevention of “dangerous” climatic changes at the Earth Summit in 1992. The Kyoto Protocol of 1997 was the first step toward protection of the atmosphere and prescribes restrictions on emission pollutants. Since then the vehicle gas emissions are being controlled by means of different gas emissions norms, like the European Union Norm in Europe. The automotive manufacturers and suppliers are collectively working on reducing overall vehicle emissions. They are focusing on several different emission limiting possibilities, for example improved engine design, special fuel development and exhaust gas treatment systems. The exhaust gas treatment process requires continuous controlling and management of the exhaust gas emissions while driving a vehicle. Certain factors such as high emission temperatures have a negative influence on the life span of these systems. Their functionality and durability is also known to be reduced by the presence of chemical poisoning species like sulphur, phosphorus, zinc and calcium. The chemical poisoning species are produced during combustion of fuel and engine oil. They are therefore contained in the exhaust emissions and can poison the catalyst when passing over it. Phosphorous poisoning is particularly problematic and should be reduced considerably. This study involves the investigation of the phosphorous poisoning process and aims to provide clarity regarding the influences of different fuel and oil compositions on the severity of the process. Engine oil and biodiesel are two major sources of phosphorous poisoning. The phosphorus contained in biodiesel fuel is a natural component and can be minimized during the refining procedure. In contrast to others studies, the biodiesel fuel used during this project was SME (Soya Methyl Ester) with a 20% biodiesel content. This choice of fuel was made because of the increasingly important role that this type of biodiesel is playing in the European market and the future tendency to increase the percentage of biodiesel in the mixture with standard diesel fuel. The phosphorus contained in engine oil is a necessary additive to retain the antioxidant and anti-wear properties of the oil. This study examined the poisoning influences from the most commonly used phosphorus containing oil additive, Zinc Dithiophosphates (ZDDP), as well as a Zn-free, phosphorus containing anti-wear oil additive. This formulation provides information about the phosphorus poisoning process as caused by the engine oil in the absence of Zn in the oil additives. The results show how the phosphorus content in biodiesel fuel affects the functionality of the exhaust gas treatment systems and the importance of reducing the permitted content of phosphorus contained in the fuel. Reducing the phosphorus content in the fuel will conserve the functionality of the exhaust gas treatment systems during their operational life and thereby protect the environmental from emission pollutants. It also provides insight into the differences in the poisoning processes when the phosphorus deposited on the catalyst comes from biodiesel fuel and when it comes from the engine oil. Finally the results also illustrate the influence of different phosphorous forms contained in engine oil additives on the catalyst poisoning process. This information could be used for the development of new oil additive formulations.
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Alternativní paliva v dopravě / Alternative fuels for transportBěláčková, Adéla January 2008 (has links)
The thesis Alternative fuels for transport is dealing with the topic of economic competitiveness and environmental advantages of alternative fuels in comparison to classical oil fuels in transport. First, the main transport related problems are discussed in detail, including the dependency on oil, emissions from transport and their impact on human health and the environment. Then, the different types of alternative fuels are presented, including the legal framework, possibility of tax exemption and subsidy financing. The comparison of emissions of alternative and classical fuels follows the logic of the whole life cycle of a fuel, using the Well-to-Wheel analysis as method. Emissions of greenhouse gases and emissions of pollutants of local importance are observed. The cost comparison is based on experience in public bus transport in the Czech Republic. Fixed, variable and total costs are compared for classical diesel, biodiesel, natural gas, LPG, hydrogen and an electric vehicle. The purpose of the study is to decide which of the alternative fuels represents a cost competitive option in comparison to classical diesel and also provides a reduction in total emissions. The results of the study are designed to help Krkonošské Metro Association to choose a suitable alternative fuel for a project in rail transport.
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Komparace dopravních módů z hlediska produkce emisí škodlivin / Comparison of Transport Modes Regarding the Creation of Pollutant EmissionsHuňková, Žaneta January 2012 (has links)
This thesis deals with modes of transport and their impact on the environment. The theoretical part of this thesis deals with fossil fuels and their impact on the environment, emission that are produced and alternative fuels. The theoretical part also describes how emissions at different transport mode are regulated. The practical part consists of comparison of specific transport modes, regarding of emissions produced.
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Dekarbonizace a společná dopravní politika EU / Decarbonization and Common Transport Policy the EUVolková, Anna January 2013 (has links)
The target of this diploma theses is to evaluate the Common Transport Policy of the EU and the development of decarbonization in world and European economies. The first chapter focuses on the role of transport in economy, common transport policy of the EU and its environmental aspects. Next chapter is specialized in adoption of the Kyoto protocol, than in the global and European development and decarbonization in transportation. Last third chapter aims on the future of decarbonization and the alternative fuels.
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Autoignition and reactivity studies of renewable fuels and their blends with conventional fuelsIssayev, Gani 02 1900 (has links)
Population growth and increasing standards of living have resulted in a rapid demand for energy. Our primary energy production is still dominated by fossil fuels. This extensive usage of fossil fuels has led to global warming, environmental pollution, as well as the depletion of hydrocarbon resources. The prevailing difficult situation offers not only a challenge but also an opportunity to search for alternatives to fossil fuels. Hence, there is an urgent need to explore environmentally friendly and cost-effective renewable energy sources. Oxygenates (alcohols, ethers) and ammonia are among the potential renewable alternative fuels of the future.
This thesis investigates the combustion characteristics of promising alternative fuels and their blends using a combination of experimental and modelling methodologies. The studied fuels include ethanol, diethyl ether, dimethyl ether, dimethoxy methane, γ-valerolactone, cyclopentanone, and ammonia. For the results presented in this thesis, the studies may be classified into three main categories:
1. Ignition delay time measurements of ethanol and its blends by using a rapid compression machine and a shock tube. The blends studied include binary mixtures of ethanol/diethyl ether and ternary mixtures of ethanol/diethyl ether/ethyl levulinate. A chemical kinetic model has been constructed and validated over a wide range of experimental conditions. The results showed that a high-reactivity fuel, diethyl ether, may be blended with a low-reactivity fuel, ethanol, in varying concentrations to achieve the desired combustion characteristics. A ternary blend of ethanol/diethyl ether/ethyl levulinate may be formulated from a single production stream, and this blend is shown to behave similarly to a conventional gasoline.
2. Ignition delay time and flame speed measurements of ammonia blended with combustion promoters by utilizing a rapid compression machine and a constant volume spherical reactor. The extremely low reactivity of ammonia makes it unsuitable for direct use in many combustion systems. One of the potential strategies to utilize ammonia is to blend it with a combustion promoter. In this work, dimethyl ether, diethyl ether, and dimethoxy methane are explored as potential promoters of ammonia combustion. Chemical kinetic models were developed and validated in the high temperature regime by using flame speed data and in the low-to-intermediate temperature regime by using ignition delay time data. The results showed that even a small addition (~ 5 – 10%) of combustion promoters can significantly alter ammonia combustion, and diethyl ether was found to have the highest propensity to enhance ammonia ignition and flame propagation. Blends of combustion promoters with ammonia can thus be utilized in modern downsized turbo-charged engines.
3. Octane boosting and emissions minimization effects of next generation oxygenated biofuels. These studies were carried out using a cooperative fuel research engine operating in a homogenous charge compression ignition (HCCI) mode. The oxygenated fuels considered here include γ-valerolactone and cyclopentanone. The results showed that γ-valerolactone and cyclopentanone can be effective additives for octane boosting and emission reduction of conventional fuels.
Overall, the results and outcomes of this thesis will be highly useful in choosing and optimizing alternative fuels for future transportation systems.
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Právní aspekty využívání alternativních paliv v dopravě / Legal aspects of alternative fuels' use in transportStraka, Jakub January 2021 (has links)
Legal aspects of alternative fuels' use in transport Abstract What connects solar energy, palm oil and the construction of the Nord Stream 2 gas pipeline? All these topics have one common denominator, i.e. alternative fuels. This group of fuels, which is represented by electricity, hydrogen or biomethane, has the ambition to replace fossil fuels and reduce the negative environmental effects of the sectors of the economy where fossil fuels are used - in transport and energy. This thesis focuses on the transport sector and pursues two lines. The first part of the text examines, by using the example of biofuels, natural gas and electricity, whether and to what extent alternative fuels fulfill the purpose of the alternative in relation to oil-based fuels. The principle of energy security and the principle of sustainable development in its environmental and economic aspects are used as a benchmark. In the second part, this thesis pays attention to legal instruments that determine the future of alternative fuels. Specifically, emission limits for passenger cars and light-duty vehicles and financial support for alternative fuels at all stages of their life cycle are analyzed. The purpose of this work is to capture the momentum of the ongoing legislative development in the field of alternative fuels, to try to...
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Hydrogen Production By Anaerobic Fermentation Using Agricultural and Food Processing Wastes Utilizing a Two-Stage Digestion SystemThompson, Reese S 01 December 2008 (has links)
Hydrogen production by means of anaerobic fermentation was researched utilizing three different substrates. Synthetic wastewater, dairy manure, and cheese whey were combined together at different concentrations under batch anaerobic conditions to determine the optimal hydrogen producing potential and waste treatment of each. Cheese whey at a concentration of 55% was combined with dairy manure at a concentration of 45% to produce 1.53 liters of hydrogen per liter of substrate. These results are significant because the control, synthetic wastewater, which was a glucose-based substrate, produced less hydrogen, 1.34 liters per liter of substrate, than the mixture of cheese whey and dairy manure. These findings indicate that cheese whey and dairy manure, which are of little value, have potential to produce clean combusting hydrogen fuel. The effluent from the anaerobic hydrogen fermentations was then placed into a second continuous-fed reactor as part of a two-phase anaerobic digestion system. This system was designed to produce hydrogen and methane for a mixture of approximately 10% hydrogen. The two-stage process also further treated the synthetic wastewater, dairy manure, and cheese whey. The two-phase anaerobic methanogenic reactor was shown to produce more methane in the second phase (56 L IBR anaerobic digester), 1.36 mL per minute per liter substrate, as compared to the single-phase anaerobic reactor (56 L IBR), which produced 1.22 mL per minute per liter substrate. In general, this research has suggested that agricultural and food processing wastes provide the needed nutrients for hydrogen production and that a two-phase anaerobic digestion system is ideally set up to produce hydrogen-methane mixtures while treating wastes for discharge into the environment.
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