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351	[en] EXPERIMENTAL EVALUATION OF DEPOSITS IN FUEL INJECTORS OF A GASOLINE DIRECT INJECTION ENGINE / [pt] AVALIAÇÃO EXPERIMENTAL DE DEPÓSITOS EM BICOS DE UM MOTOR COM INJEÇÃO DIRETA DE GASOLINA LEONARDO COSTA BRAGA 03 May 2019 (has links) [pt] O desenvolvimento de um motor de quatro tempos, de ignição por centelha, com injeção direta de combustível dentro da câmara de combustão foi uma iniciativa importante para o mercado automobilístico mundial. O potencial termodinâmico deste tipo de motor e sua notória melhoria na economia de combustível têm feito com que a tecnologia seja foco de um grande número de projetos de pesquisa, com o objetivo de entender, desenvolver e aperfeiçoar o sistema de injeção direta de combustível. No entanto, para atender aos novos limites de emissões estabelecidas pela especificação EURO 5, foi necessária uma reavaliação do projeto da geometria do injetor, o que ocasionou no desenvolvimento de um novo componente com um maior número de furos e com uma redução do diâmetro dos mesmos (injetor multifuros). Essa alteração no projeto visa garantir uma melhor pulverização, otimização da relação ar/combustível e, consequentemente, um melhor processo de queima na câmara de combustão, atendendo dessa forma os limites de emissões estabelecidos pela diretriz normativa vigente. Os processos de preparação da mistura, injeção, vaporização e controle do escoamento de ar dentro do cilindro têm sido as principais fontes de publicações de periódicos que estudam o sistema de injeção direta. O presente trabalho, por sua vez, tem por finalidade avaliar a formação de depósitos de compostos inorgânicos nos injetores, provenientes da utilização de combustíveis formulados com diferentes teores de sulfato. O motor utilizado para execução dos testes foi o EP6CDT da PSA Peugeot Citroen. No estudo foram realizados ensaios em bancada de testes e em veículos (estrada e dinamômetro). Outros veículos com a mesma tecnologia, disponíveis no mercado brasileiro, também foram testados. As variáveis avaliadas durante o projeto foram: a composição química de diferentes combustíveis, fator de correção do tempo de injeção (FRA) e a vazão através dos bicos injetores no decorrer dos testes. Os estudos indicaram que a mudança na geometria dos injetores, somada a composição das gasolinas nacionais testadas, originou a formação dos depósitos que será discutida ao longo deste trabalho. / [en] The development of a four-stroke engine, spark ignition, with direct injection of fuel into the combustion chamber was an important initiative for the global automotive market. The thermodynamic potential of this type of engine and its significant improvement in fuel economy have meant this technology as focus of a large number of research projects, with the objective to understand, develop and improve the system of direct fuel injection. However, to meet new emission limits set by Euro 5 specification, it was necessary to reevaluate the geometry design of the injector, which resulted in the development of a new component with a larger number of holes and with a diameter reduction (multi-holes injector). This change in the project aims to ensure a better spray, optimizing air / fuel ratio and, consequently, a better process of combustion inside the combustion chamber, satisfying the emission limits established by the applicable norms. The processes for preparing the mixture, injection, atomization and air flow control inside the cylinder have been the main source of periodic publications that study the direct injection system. Therefore, this paper purpose is to evaluate the formation of inorganic deposits in the injectors using fuels formulated with different amounts of sulfate. The engine used for running the tests was the EP6CDT of PSA Peugeot Citroen. For this study one has performed tests on test bench and in vehicles (road and dynamometer). Other vehicles, with the same technology available in Brazil, were also tested. The variables evaluated during the project were: the chemical composition of different fuels, the correction factor from the injection time (FRA) and flow through the injectors during the tests. This study has indicated that the injector geometry modification, coupled with tested compositions of gasoline, resulted in the formation of deposits that will be discussed throughout this work. [pt] COMBUSTIVEL [en] FUEL [pt] VAZAO [en] FLOW [pt] DEPOSITOS DE PARAFINA [en] WAX DEPOSITS [pt] BICO INJETOR [en] FUEL INJECTOR [en] GASOLINE DIRECT INJECTION ENGINE [pt] ORIGEM INORGANICA [en] INORGANIC DEPOSITS [pt] DINAMOMETRO DE CHASSIS [en] CHASSIS DYNAMOMETER
352	Monitoring a Shallow Gasoline Release using GPR at CFB Borden McNaughton, Cameron, Hugh January 2011 (has links) This hydrogeophysical field experiment evaluated the ability of high frequency (450 & 900 MHz) ground penetrating radar (GPR) to characterize the release of gasoline over an annual cycle of in situ conditions. In August 2008, 200 liters of E10 gasoline were released into the unconfined sand aquifer at CFB Borden. The 900 MHz profiling clearly shows the development of shallow (i.e., above 10 ns) high reflectivity in the vicinity of the trench immediately after the release. Additional lateral extension of high reflectivity zone was observed over the following 20 days until the seasonal water table low stand occurred, after which no further lateral movement was observed. Throughout the remainder of the monitoring, the 900 MHz profiling observed a long-term dimming of reflectivity at the periphery of the impacted zone. While direct imaging of the shallow impacted zone by the 450 MHz antennas was significantly obscured by the superposition with the direct air-ground wave arrival; its improved depth of penetration allowed the measurement of a velocity “pull-up” of an underlying stratigraphic interface resulting from the displacement of low velocity water by high velocity gasoline. The maximum pull-up was observed during the water table low stand. The ongoing changes in the pull-up magnitude during the remainder of the observation period suggest the continued redistribution of fluids in the impacted zone. Because of the shallow depth of the gasoline impacted zone, the effects of freezing during the winter period were observed in the GPR imaging. The presence of the gasoline impacted zone appears to have affected the depth of freezing, causing a depression of the frozen soil base. The dimming of the direct air-ground wave complex indicates that the contaminant phase brought to the surface by the water table fluctuations have impacted the nature of the near-surface freezing. Ground Penetrating Radar CFB Borden Monitoring Controlled Gasoline Release Natural Hydraulic Gradient High Frequency Monitoring Hydrogeophysical methods Near Surface geophysical processes Water Table Fluctuation Earth Sciences
353	Development Of A Single Cylinder SI Engine For 100% Biogas Operation Kapadia, Bhavin Kanaiyalal 03 1900 (has links) This work concerns a systematic study of IC engine operation with 100% biogas as fuel (as opposed to the dual-fuel mode) with particular emphasis on operational issues and the quest for high efficiency strategies. As a first step, a commercially available 1.2 kW genset engine is modified for biogas operation. The conventional premixing of air and biogas is compared with a new manifold injection strategy. The effect of biogas composition on engine performance is also studied. Results from the genset engine study indicate a very low overall efficiency of the system. This is mainly due to the very low compression ratio (4.5) of the engine. To gain further insight into factors that contribute to this low efficiency, thermodynamic engine simulations are conducted. Reasonable agreement with experiments is obtained after incorporating estimated combustion durations. Subsequently, the model is used as a tool to predict effect of different parameters such as compression ratio, spark timing and combustion durations on engine performance and efficiency. Simulations show that significant improvement in performance can be obtained at high compression ratios. As a step towards developing a more efficient system and based on insight obtained from simulations, a high compression ratio (9.2) engine is selected. This engine is coupled to a 3 kW alternator and operated on 100% biogas. Both strategies, i.e., premixing and manifold injection are implemented. The results show very high overall (chemical to electrical) efficiencies with a maximum value of 22% at 1.4 kW with the manifold injection strategy. The new manifold injection strategy proposed here is found to be clearly superior to the conventional premixing method. The main reasons are the higher volumetric efficiency (25% higher than that for the premixing mode of supply) and overall lean operation of the engine across the entire load range. Predictions show excellent agreement with measurements, enabling the model to be used as a tool for further study. Simulations suggest that a higher compression ratio (up to 13) and appropriate spark advance can lead to higher engine power output and efficiency. Internal Combustion Engine Biogas Genset Engine High Compression Ratio Engine Spark Ignition Engines Biogas Generation Spark-Ignition Engine Gaseous Fuels Gasoline IC Engine SI Engine Engines - Performance Spark-Ignited Engine Heat Engineering
354	Neue Aufladestrategien für ein spontanes Drehmomentresponseverhalten turboaufgeladener Ottomotoren Friedrich, Jürgen 12 November 2003 (has links) (PDF) Mit der starken Verbreitung des turboaufgeladenen Dieselmotors seit etwa 10 Jahren gewinnt auch der mittels Abgasturbolader aufgeladene Ottomotor mehr an Bedeutung. Im dynamischen Betriebsverhalten zeigen diese Motoren, vor allem bei Drehzahlen unter 2000 U/min, einen verzögerten Mitteldruckaufbau. Mit konventionellen Ansätzen ist dieses Problem nicht zufrieden stellend zu lösen, deshalb wurden Ansätze zur Unterstützung im dynamischen Betrieb erstellt. In dieser Arbeit wurden die Lösungen mit dem größten Potential zur Verbesserung untersucht. Die untersuchten Ansätze greifen zum Einen in das Gebiet der gezielten Einspeisung von dauerhaft verfügbarer Zusatzenergie und zum Anderen zur Verteilung der Verdichtungsarbeit auf zwei Aufladestufen. Als Zielstellung für die Verbesserungen des dynamischen Betriebsverhaltens wurde das Erreichen eines effektiven Mitteldruckes von 16.5 bar in einer Zeit kleiner einer Sekunde ab einer Motordrehzahl von 1700 U/min formuliert. Im Falle der Einspeisung von Zusatzenergie muss diese beliebig oft und in kurzen Abständen verfügbar sein. Im Kapitel Einspeisung von Zusatzenergie wurden die Konzepte elektrische unterstützter ATL sowie elektrischer Zusatzverdichter miteinander verglichen. Mit Hilfe rechnerischer Parameterstudien wurden die Randbedingungen für den Einsatz eines elektrischen Verdichters ermittelt. Dabei wurde festgestellt, dass die Dimensionierung des eingesetzten Boosterverdichters ein Kompromiss zwischen Potential im Transientbetrieb und ausreichender Kennfeldbreite zur Anhebung der stationären Volllast im untersten Motordrehzahlbereich ist. Die Berechnungen haben zudem ergeben, dass die zu erwartende Begrenzung der verfügbaren elektrischen Bordnetzleistung den eBooster vorrangig für den Einsatz von Motoren mit einem Hubraum kleiner 2.5 l prädestiniert. Eine weitere Variante sieht die serielle Anordnung eines mechanisch angetriebenen Zusatzverdichters vor. Für die Umsetzung als zuschaltbares System reduziert sich die Auswahl auf einen mit geringem Massenträgheitsmoment gekennzeichneten Spirallader. Als dritte Variante wurde eine geregelte zweistufige Aufladung aufgegriffen. Der Vergleich der Simulationsergebnisse wies für alle drei Varianten das Potential zur Umsetzung der formulierten Forderung zur Dynamikverbesserung nach. Bei einer Motordrehzahl von 2000 U/min erreichten der Pscroll nach 580 ms und die beiden anderen Varianten nach jeweils 850 ms das Zielmoment. Gleichzeitig ergab die Analyse des für den Druckaufbau im System verantwortlichen Parameters Massenstrom der Strömungsmaschinen eine unterschiedliche Charakteristik der einzelnen Varianten. Während der Pscroll unabhängig von der Motordrehzahl sofort nach Lastaufschaltung eine hohe Überschussluftmasse, bezogen auf die vom Motor geschluckte Masse, fördert, vergeht sowohl beim eBooster als auch bei der zweistufigen Aufladung durch die notwendige Hochlaufzeit der Radialverdichter eine Zeitspanne bis zum Aufbau einer Überschussmasse. Die Zeitspanne während des Hochlaufs von der Ausgangsdrehzahl bis zur Enddrehzahl beträgt beim Pscroll nur etwa 80 ms, während bei den anderen Systemen ein Zeit von weniger als 400 ms auch theoretisch nicht darstellbar ist. Bei dem Übergang zu realen Hardwarekomponenten am Prüfstand vergrößerte sich der Abstand zwischen Pscroll und dem elektrischen Zusatzverdichter. Das System Pscroll greift auf weitestgehend bekannte und erprobte Technik zurück, wodurch gegenüber der Simulation keine Einschränkungen zu verzeichnen waren. Mit dem eBooster ergaben sich für den Elektromotor deutliche Abweichungen von dem für die Simulation zur Verfügung gestellten Wirkungsgradverlauf über der Drehzahl im Vergleich zum Tatsächlichen. Speziell in der Beschleunigungsphase ergeben sich gravierende Einbussen. Mit dem höheren Leistungsangebot am Prüfstand (4 kW statt 2.5 kW) gegenüber der Simulation konnte das Potential des Systems nachgewiesen werden. Bei einer Leistungsbeschränkung reduzieren sich die Gewinne spürbar. Abgasturbolader Aufladung Dynamisches Betriebsverhalten Kombinierte Aufladung Optimierung des Motorprozesses Ottomotoren charging combined charging dynamic operational behavior gasoline engine process optimisation turbocharger ddc:36 rvk:ZL 5530 Abgasturbolader Aufladung Betriebsverhalten Ottomotor Prozessoptimierung
355	Optimierung des Motorbetriebsverhaltens und der Abgasemissionen beim Start und Warmlauf eines Ottomotors mit Sekundärluftlader / Optimization of Engine Performance and Exhaust Emissions During the Starting and Warm-Up of a Gasoline Engine with a Secondary Air Charger Hergemöller, Thorsten 13 August 2004 (has links) (PDF) Es werden Möglichkeiten untersucht, das Kaltstart- und Warmlaufverhalten von Ottomotoren mit Sekundärlufteinblasung zu optimieren. Das für die Untersuchungen eingesetzte, innovative Sekundärlufteinblasesystem mittels Sekundärluftlader weist aufgrund der Baugröße, des Gewichts, der Leistungsfähigkeit und insbesondere der einfachen, thermodynamischen Betätigung Potenziale auf, die bisher eingesetzte Sekundärluftpumpe zu ersetzen. Den experimentellen Untersuchungen wurde die Entwicklung der Abgasgesetzgebung sowie eine theoretische Betrachtung der Entstehungsmechanismen von Abgasemissionen vorangestellt. Mittels eines Simulationsmodells werden die Abhängigkeiten des Sekundärluftladers von den motorischen Randbedingungen abgebildet. Somit kann eine Vorauswahl für das Luftmassenförderverhalten des Sekundärluftladers bei unterschiedlichen Einsatzbereichen getroffen werden. Die im Start- und Warmlauf, ebenso im Lastwechsel, gemessenen Ergebnisse wurden zur Analyse der Emissionsverbesserungsmechanismen eingesetzt. Insbesondere der Einblasezeitpunkt der Sekundärluft und das Hochlaufverhalten des Sekundärluftsystems zeigen einen enormen Einfluss auf die Höhe der Rohemissionen. Eine Gegenüberstellung aller gemessenen Varianten mit Sekundärluftpumpe und Sekundärluftlader zeigt einen deutlichen Emissionsvorteil des Sekundärluftladersystems. Zusätzlich bewirkt der Sekundärluftlader, durch die Bordnetzentlastung eine Motorlastabsenkung bei verbessertem Ansprechverhalten und höherem Sekundärluftmassenstrom. Ergebnis ist eine Verringerung der HC-Rohemissionen zwischen 20% und 30%. Die Vorteile im Gewicht und Bauvolumen sowie der geringere Verkabelungsaufwand runden die deutlichen Vorteile des Sekundärluftladers gegenüber der Sekundärluftpumpe ab. Durchgeführte Untersuchungen bei Tieftemperatur (-7°C) und unter Höhenbedingungen haben ebenfalls Vorteile gegenüber der Sekundärluftpumpe ausgewiesen. Die theoretische Abschätzung des Einsatzfeldes für den Sekundärluftlader ist ab einem Hubraum von 1,2°l Hubraum durchgeführt und als positiv bewertet worden. / The paper investigates possible ways of optimizing the cold-start and warm-up performance of gasoline engines with secondary air injection. Due to its size, weight, performance capability, and especially its simple, thermodynamic operation the innovative secondary air injection system used for the investigations and featuring a secondary air charger has the potential to replace the secondary air pump used to date. The experimental investigations are preceded by the development of exhaust emission legislation and a theoretical analysis of the process leading to exhaust emissions. A simulation model is used to illustrate the dependencies of the secondary air charger on boundary engine conditions. Consequently it is possible to make a preselection for the air mass conducting properties of the secondary air charger in various fields of application. The results obtained by measurement in starting, warm-up, and in load changes, were used to analyze the emission improvement processes. The level of raw emissions is affected enormously by the time of injection of secondary air and the acceleration performance of the secondary air system. A comparison of all the measured variants with the secondary air pump and secondary air charger indicates that the secondary air charger system has a distinct emission advantage. In addition, by relieving the vehicle power supply the secondary air charger brings about a reduction in engine load, improved response, and higher secondary air mass flow. The result is a 20% to 30% reduction in raw HC emissions. The significant advantages over the secondary air pump are rounded off by benefits in terms of weight and bulk volume and a reduction in the amount of wiring. Tests conducted at low temperature (-7°C) and under high altitude conditions have also indicated advantages over the secondary air pump. Abgasemissionen Bordnetzbelastung Niedrigstemissionen Ottomotor Sekundärluftlader Exhaust emissions SULEV gasoline engine secondary air charger super ultra low emissions vehicle power supply load ddc:620 rvk:ZL 5530 Abgasemission Optimierung Ottomotor Radialturbine Radialverdichter Sekundärluft
356	Ein neues Verfahren zur modellbasierten Prozessoptimierung auf der Grundlage der statistischen Versuchsplanung am Beispiel eines Ottomotors mit elektromagnetischer Ventilsteuerung (EMVS) Haase, Dirk 01 October 2005 (has links) (PDF) In recent years gasoline engines have become increasingly complex, for example through the introduction of electronic control and monitoring systems for ignition, fuel injection and exhaust aftertreatment. Parallel to this the requirements placed upon engines have also increased hence the need to develop new engine technologies. This demand for new technologies is, in part, due to the self obligation of the automobile industry to reduce the CO2 emissions about 25% by 2005, and also to the increasingly stringent future exhaust limits. Some promising solutions are currently in development, e.g. the direct injection gasoline engine and variable valve trains. All these new technologies are characterised by increasing complexity and significantly higher degrees of freedom. The associated application expenditure rises drastically with the number of free parameters and also with improved quality standards. Possible solutions to meet the future requirements of the development process are based on model-based parameter optimisation and the use of test methods, such as &quot;Design of Experiments&quot; (DoE). The idea behind this approach is to produce models to describe the dependence of the responses of interest (i.e. fuel consumption) on the adjusted engine parameters. With these models offline optimisation of the engine can be carry out, independently of testbench resources. The measured data for the models are produced with the help of statistically designed experiments. Thus, the testing and analysis processes are structured and the expenditure limited. In the following the DoE methodology will be employed of a gasoline engine with electromechanical valve train. / Der Ottomotor im Kraftfahrzeug hat in den letzten Jahren mit dem Einzug elektronischer Steuer- und Regelsysteme für Zündung, Einspritzung und Abgasnachbehandlung einen sehr hohen technischen Stand erreicht. Die wachsenden Ansprüche an die Motorenentwicklung im Hinblick auf Verbrauchsreduzierung bei gleichzeitiger Erfüllung der zukünftigen Abgasgrenzwerte, verschärfen den Druck zur Entwicklung weiterführender Technologien. Hierbei gibt es bereits einige vielversprechende Lösungsansätze, wie z.B. die Direkteinspritzung oder variable Ventilsteuerungen. All diese neuen Technologien zeichnen sich durch eine wachsende Komplexität durch die signifikant höhere Anzahl von Freiheitsgraden aus. Der damit verbundene Applikationsaufwand steigt drastisch durch die wachsende Anzahl freier Parameter, aber auch durch die steigenden Anforderungen an die Qualität der Applikationsergebnisse. Einen möglichen Lösungsansatz zur Realisierung der zukünftigen Anforderungen an den Entwicklungsprozess stellen die modellgestützte Parameteroptimierung sowie der Einsatz der &quot;Statistischen Versuchsplanung&quot; (SVP) - &quot;Design of Experiments&quot; (DoE) - dar. Der Grundgedanke basiert auf der Erstellung von Modellen zur Beschreibung der Abhängigkeiten variierter Verstellparameter. Mit diesen Modellen können Offline-Optimierungen unabhängig von Prüfstandsressourcen durchgeführt werden. Die für die Modellbildung benötigten Messdaten werden mit Hilfe der statistischen Versuchsplanung erzeugt. Dadurch wird der Prozess strukturiert und der Aufwand wird begrenzt. In der Arbeit wird der Einsatz der DoE-Methodik am Beispiel eines Ottomotors mit elektromechanischer Ventilsteuerung (EMVS) aufgezeigt. DoE EMVS Elektromagnetische Ventilsteuerung Kennfeldoptimierung Ottomotor Statistische Versuchsplanung drosselfreie Laststeuerung modellbasierte Motoroptimierung DoE design of experiments gasoline engine map optimisation modelbased optimisation ddc:620 rvk:ZL 5530 Elektromagnet Ottomotor Prozessoptimierung Ventilsteuerung
357	Conversion of MixAlco Process Sludge to Liquid Transportation Fuels Teiseh, Eliasu 1973- 02 October 2013 (has links) About 8 tons of dry undigested solid waste is generated by the MixAlco process for every 40 tons of food residue waste fed into the process. This MixAlco process produces liquid fuels and the sludge generated can be further converted into synthesis gas using the process of pyrolysis. The hydrogen component of the product synthesis gas may be separated by pressure swing adsorption and used in the hydrogenation of ketones into fuels and chemicals. The synthesis gas may also be catalytically converted into liquid fuels via the Fischer-Tropsch synthesis process. The auger-type pyrolyzer was operated at a temperature between 630-770 degrees C and at feed rates in the range of 280-374 g/minute. The response surface statistical method was used to obtain the highest syngas composition of 43.9 +/- 3.36 v % H2/33.3 +/- 3.29 v % CO at 740 degrees C. The CH4 concentration was 20.3 +/- 2.99 v %. For every ton of sludge pyrolyzed, 5,990 g H2 (719.3 MJ), 65,000 g CO (660 MJ) and 21,170 g CH4 (1055.4 MJ) were projected to be produced at optimum condition. At all temperatures, the sum of the energies of the products was greater than the electrical energy needed to sustain the process, making it energy neutral. To generate internal H2 for the MixAlco process, a method was developed to efficiently separate H2 using pressure swing adsorption (PSA) from the synthesis gas, with activated carbon and molecular sieve 5A as adsorbents. The H2 can be used to hydrogenate ketones generated from the MixAlco process to more liquid fuels. Breakthrough curves, cycle mass balances and cycle bed productivities (CBP) were used to determine the maximum hydrogen CBP using different adsorbent amounts at a synthesis gas feed rate of 10 standard lpm and pressure of 118 atm. A 99.9 % H2 purity was obtained. After a maximum CBP of 66 % was obtained further increases in % recovery led to a decrease in CBP. The synthesis gas can also be catalytically converted into liquid fuels by the Fischer-Tropsch synthesis (FTS) process. A Co-SiO2/Mo-Pd-Pt-ZSM-5 catalyst with a metal-metal-acid functionality was synthesized with the aim of increasing the selectivity of JP-8 (C10-C17) fuel range. The specific surface areas of the two catalysts were characterized using the BET technique. The electron probe microanalyzer (with WDS and EDS capabilities) was then used to confirm the presence of the applied metals Co, Mo, Pd and Pt on the respective supports. In addition to the gasoline (C4-C12) also produced, the synthesis gas H2:CO ratio was also adjusted to 1.90 for optimum cobalt performance in an enhanced FTS process. At 10 atm (150 psig) and 250 degrees C, the conventional FTS catalyst Co-SiO2 produced fuels rich in hydrocarbons within the gasoline carbon number range. At the same conditions the Co-SiO2-Mo-Pd-Pt/HZSM-5 catalyst increased the selectivity of JP-8. When Co-SiO2/Mo-Pd-Pt-HZSM-5 was used at 13.6 atm (200 psig) and 250 degrees C, a further increase in the selectivity of JP-8 and to some extent diesel was observed. The relative amounts of olefins and n-paraffins decreased with the products distribution shifting more towards the production of isomers. Co-SiO2/Mo-Pd-Pt-HZSM-5 catalyst selectivity diesel gasoline JP-8 Fischer-Tropsch synthesis % recovery, % purity cycle bed productivity pressure swing adsorption efficiency syngas composition sludge pyrolysis response surface method MixAlco process
358	Monitoring a Shallow Gasoline Release using GPR at CFB Borden McNaughton, Cameron, Hugh January 2011 (has links) This hydrogeophysical field experiment evaluated the ability of high frequency (450 & 900 MHz) ground penetrating radar (GPR) to characterize the release of gasoline over an annual cycle of in situ conditions. In August 2008, 200 liters of E10 gasoline were released into the unconfined sand aquifer at CFB Borden. The 900 MHz profiling clearly shows the development of shallow (i.e., above 10 ns) high reflectivity in the vicinity of the trench immediately after the release. Additional lateral extension of high reflectivity zone was observed over the following 20 days until the seasonal water table low stand occurred, after which no further lateral movement was observed. Throughout the remainder of the monitoring, the 900 MHz profiling observed a long-term dimming of reflectivity at the periphery of the impacted zone. While direct imaging of the shallow impacted zone by the 450 MHz antennas was significantly obscured by the superposition with the direct air-ground wave arrival; its improved depth of penetration allowed the measurement of a velocity “pull-up” of an underlying stratigraphic interface resulting from the displacement of low velocity water by high velocity gasoline. The maximum pull-up was observed during the water table low stand. The ongoing changes in the pull-up magnitude during the remainder of the observation period suggest the continued redistribution of fluids in the impacted zone. Because of the shallow depth of the gasoline impacted zone, the effects of freezing during the winter period were observed in the GPR imaging. The presence of the gasoline impacted zone appears to have affected the depth of freezing, causing a depression of the frozen soil base. The dimming of the direct air-ground wave complex indicates that the contaminant phase brought to the surface by the water table fluctuations have impacted the nature of the near-surface freezing. Ground Penetrating Radar CFB Borden Monitoring Controlled Gasoline Release Natural Hydraulic Gradient High Frequency Monitoring Hydrogeophysical methods Near Surface geophysical processes Water Table Fluctuation Earth Sciences
359	Gestion d'énergie d’un véhicule hybride électrique-essence équipé d'un catalyseur par minimisation conjointe consommation-pollution : étude et validation expérimentale / Energy management of gasoline-electric hybrid vehicle equipped with catalytic converter by joint fuel consumption- pollution minimization : study and experimental validation Michel, Pierre 21 April 2015 (has links) Dans les véhicules hybrides électrique-essence, les stratégies de gestion de l’énergie déterminent la répartition des flux d'énergies des moteurs thermique et électrique avec pour objectif classique la réduction de la consommation. Par ailleurs, pour respecter les seuils réglementaires d’émissions polluantes, les motorisations essence sont équipées d’un catalyseur 3-voies chauffé par les gaz d’échappement. Une fois amorcé, ce catalyseur convertit presque entièrement les émissions polluantes du moteur. C’est donc au démarrage que la plupart de la pollution est émise, lorsque le catalyseur est froid et que la pollution du moteur n’est pas convertie. La chauffe du catalyseur est donc l’étape clé de la dépollution. Ce mémoire propose une démarche de prise en compte des émissions polluantes par la gestion d’énergie. Le véhicule hybride est assimilé à un système dynamique à deux états, l’état de charge batterie et la température du catalyseur. Un problème d’optimisation dynamique est défini, qui minimise un critère original pondérant judicieusement la consommation et les émissions polluantes. La théorie de la commande optimale, avec les Principes du Minimum de Pontryaguine et de Bellman, permet de résoudre ce problème d’optimisation. Des stratégies optimales sont déduites et simulées avec un modèle de véhicule intégrant un modèle thermique multi-zones de catalyseur, validé expérimentalement, qui simule précisément la chauffe. Le compromis entre la consommation et la pollution est exploré. Une stratégie de chauffe du catalyseur, plus méthodique, analytique et efficace que les stratégies empiriques actuelles, est alors proposée. Cette stratégie est validée expérimentalement dans un environnement HyHIL (Hybrid Hardware In the loop). Une importante réduction de la pollution est obtenue, confortant l’approche d’optimisation dynamique pour la mise au point des stratégies de gestion d’énergie du véhicule hybride. / In hybrid gasoline-electric vehicles, the energy management strategies determine the distribution of engine and motor energy flows with fuel consumption reduction as classical objective. Furthermore, to comply with pollutant emissions standards, SI engines are equipped with 3-Way Catalytic Converters (3WCC) heated by exhaust gases. When 3WCC temperature is over the light-off temperature, engine pollutant emissions are almost totally converted. Most of the pollution is produced at the vehicle start, when the 3WCC is cold and the engine pollution is not converted. The 3WCC heating is thus the key aspect of the pollutant emissions. This dissertation proposes an approach to take into account pollutant emissions in energy management. The hybrid electric vehicle is considered as a dynamic system with two states, the battery state of charge and 3WCC temperature. A dynamic optimization problem is defined, minimizing an original criterion weighting judiciously fuel consumption and pollutant emissions. Optimal control theory, with the Pontryaguine Minimum and Bellman principles, allows solving this optimization problem. Optimal strategies are derived and simulated with a vehicle model including a multi-zones 3WCC thermal model, experimentally validated, which simulates precisely the 3WCC heating. The compromise between fuel consumption and pollutant emissions is explored. Then, an innovative 3WCC heating strategy is proposed and validated experimentally in a HyHIL (Hybrid Hardware In the loop) environment. A significant reduction of the pollutant emissions is obtained, strengthening the dynamic optimal approach to set up the energy management strategies for hybrid vehicles. Véhicule hybride électrique Moteur à allumage commandé Catalyseur 3-voies Emissions polluantes Gestion d'énergie Optimisation Programmation dynamique Principe du minimum de Pontryaguine Hybrid electric vehicle Gasoline engine 3-way catalytic converterw Pollutant emissions Energy management Optimization Dynamic programming Pontryaguine minimum principle 629.229 3
360	A demanda por gasolina no Brasil: uma avaliação de suas elasticidades após a introdução dos carros bicombustíveis Nappo, Márcio 02 March 2007 (has links) Made available in DSpace on 2010-04-20T21:00:24Z (GMT). No. of bitstreams: 3 marcionappoturma2004.pdf.jpg: 16064 bytes, checksum: 63bd8903de8fded97b33bd71e456a876 (MD5) marcionappoturma2004.pdf: 541228 bytes, checksum: 4eb48d6772562d8bf4233391e15100f5 (MD5) marcionappoturma2004.pdf.txt: 124264 bytes, checksum: 8b4a2d0be3b8e70952e08462dfaa0e70 (MD5) Previous issue date: 2007-03-02T00:00:00Z / A questão central que buscou-se responder no presente estudo foi: qual o impacto dos veículos flex-fuel sobre a demanda por gasolina no Brasil? Para tentar responder esta questão foi estimada a função demanda por gasolina no Brasil e suas elasticidades-preço e renda, para o período de agosto de 1994 a julho de 2006 (era pós-Plano Real), utilizando-se técnicas de cointegração para avaliar a existência de uma relação de equilíbrio de longo prazo entre variáveis do modelo. Com a renovação da frota automotiva, centrada cada vez mais nos veículos flex-fuel, cuja participação nas vendas nacionais de veículos novos deve ultrapassar os 70% em 2006, surge a preocupação de que o deslocamento do consumo de gasolina pelo álcool hidratado leve a excedentes crescentes de gasolina no Brasil. Os resultados obtidos neste estudo indicam que a demanda por gasolina no Brasil é inelástica no longo prazo, tanto em relação a variações nos preços deste combustível, quanto a alterações na renda dos consumidores. Os valores estimados para as elasticidades-preço e renda de longo prazo foram de -0,197 e 0,685, respectivamente. Também foi estimado o coeficiente de uma variável binária de inclinação associada ao preço da gasolina, incluída no modelo com o objetivo de capturar os impactos da entrada do flex-fuel sobre a curva de demanda por gasolina a partir de março de 2003. Esta variável binária de inclinação apresentou-se com um coeficiente de aproximadamente -0,137. Isto significa que a partir de março de 2003 há uma significativa mudança na elasticidade-preço da demanda por gasolina, que se torna mais elástica, saindo de -0,197 para -0,334. Este resultado indica que o mercado nacional de combustíveis de ciclo Otto pode estar passando por mudanças estruturais, para as quais a entrada dos veículos flex-fuel é a causa mais provável e que o álcool hidratado tem se tornado um substituto menos imperfeito da gasolina. / The central question that this study seeks to answer is: What is the impact of flex-fuel vehicles on the demand for gasoline in Brazil? To attempt to answer this question, the function demand for gasoline in Brazil was estimated, as were the price and income elasticities, for the period August 1994 through July 2006 (post Plano Real era), using cointegration techniques to evaluate the existence of a long-term balance relationship between the model’s variables. With the renewal of the automotive fleet increasingly centered on flex-fuel vehicles, whose market share in the domestic sales of new vehicles should be over 70% in 2006, there is some concern that the shift from consumption of gasoline to hydrated alcohol may lead to a growing excess of gasoline in Brazil. The results obtained in this study indicate that the demand for gasoline in Brazil is inelastic in the long term, in relation both to the price variations of this fuel and to the alterations in consumer income. The amounts estimated for the price and long-term income elasticities were –0.197 and 0.685, respectively. An estimate was made of the coefficient of a dummy inclination variable, associated with the price of gasoline and included in the model to capture the impact flex-fuel has on the gasoline demand curve, starting in March 2003. This dummy inclination variable had a coefficient of approximately –0.137, meaning that, as of March 2003, there is a significant change in the price elasticity of the demand for gasoline, which becomes more elastic, going from –0.197 to –0.334. This result indicates that the Otto cycle’s national fuel market might be facing structural changes in which the launching of flexfuel vehicles is the most likely cause and that hydrated alcohol has become a less imperfect substitute for gasoline. Demanda por gasolina Elasticidade-preço Elasticidade-renda Veículos flex-fuel Análise de Cointegração Demand for gasoline Price elasticity Income elasticity Flex-fuel vehicles Cointegration techniques Economia Gasolina - Mercado - Brasil Gasolina - Preços - Brasil Indústria automobilística - Brasil Cointegração

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