Análise da combustão e das emissões de um motor flex usando misturas heterogêneas de combustíveis / Combustion and emissions analysis of a flex fuel cycle engine using heterogeneous mixtures of fuels

Chiapinotto, Lino

21 September 2017

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No. of bitstreams: 1 chiapinotto_l_me_guara.pdf: 2025683 bytes, checksum: 06211c8bab58758df3a08535a4aa3f80 (MD5) Previous issue date: 2017-09-21 / Nesta pesquisa investiga-se a viabilidade do uso de misturas heterogêneas de combustíveis compostas por etanol e gás natural veicular (GNV) em motor flex fuel (Flex). Os motores Flex, no Brasil, são abastecidos com gasolina E27 (com até 27% de etanol anidro e 73% de gasolina), etanol, GNV ou qualquer mistura de etanol e gasolina. Ao funcionarem com o GNV apresentam vantagens pela menor emissão de dióxido de carbono (CO2), monóxido de carbono (CO) e óxidos de nitrogênio (NOX), mas são desvantajosos com relação às emissões de hidrocarbonetos (HC) em baixas rotações quando comparados ao utilizarem gasolina ou etanol, além da perda de potência variando de 10 a 20%. Esta pesquisa objetiva encontrar uma mistura de etanol-GNV, cuja combustão possa reduzir, as emissões de CO, HC e NOx do motor Flex em relação ao modo GNV. Os testes foram conduzidos num motor Flex de 2000 cilindradas, com duas válvulas por cilindro. No motor foi instalado um sistema de gerenciamento de injeção eletrônica de GNV funcionando concomitantemente com a injeção de combustível líquido. Fez-se inicialmente a medição da vazão de etanol (E100), do GNV (E0) e de diferentes misturas de etanol-GNV (E20, E40, E60, E80). Para a avaliação dos parâmetros das emissões de CO2, CO, O2, HC e NOx, das eficiências (térmica, volumétrica e mecânica), consumo específico de combustível e custo operacional, calibrou-se primeiramente o motor para o uso de E0 e de E100. Os testes foram realizados em modo estacionário e dinâmico, cujas emissões foram medidas através do analisador de gases. No modo estacionário mediram-se as emissões de gases de exaustão em velocidade angular de 1000 e 2500 RPM (rotações por minuto); no modo dinâmico mediram-se além das emissões, a potência e o consumo de combustível com o motor submetido a 25% de carga a 2000, 2500, 3000 RPM e à carga total num dinamômetro ativo para até 290 kW. Os melhores resultados obtiveram-se para a mistura E20. Comparando-se com E0, a mistura E20 resultou uma média de 55,33%, 31%, 29,86% e 57,41% na diminuição das emissões de CO, O2, HC e de NOx, respectivamente, com um aumento médio das emissões de CO2 em 5,81%; foi observado também perda de 2,45% de potência líquida, além do aumento de 2,35%, 1,25%, 1,41%, 16,94% e 18,85% para eficiência térmica, eficiência volumétrica, eficiência mecânica, consumo específico de combustível e do custo operacional, respectivamente / This research has investigated the feasibility of using heterogeneous fuel blends composed of ethanol and compressed natural gas (CNG) in flex-fuel engines. In Brazil, such vehicles are fueled by E27 gasoline (up to 27% anhydrous ethanol and 73% gasoline), ethanol, CNG or any ethanol and gasoline blend. When running on CNG, they offer advantages due to lower carbon dioxide (CO2), carbon monoxide (CO) and nitrogen oxide (NOX) emissions, although they are disadvantageous with respect to hydrocarbon emissions (HC) at low revolutions, especially if compared to being run on gasoline or ethanol, in addition to power loss ranging from 10 to 20%. Thus, it is aimed to find an ethanol-CNG blend whose combustion can reduce CO, HC and NOx emissions from flex-fuel engines in comparison with the CNG mode. Tests have been conducted on a 2000cc flex-fuel engine with two valves per cylinder. It was installed an electronic CNG injection system operating concomitantly with the liquid fuel injection system. Flows of ethanol (E100), CNG (E0) and different ethanol-CNG blends (E20, E40, E60, E80) were initially measured. In order to evaluate levels of CO2, CO, O2, HC and NOx emissions, efficiency (thermal, volumetric and mechanical), specific fuel consumption and operating cost, the engine was initially calibrated to run on E0 and E100. The emissions tests were performed in stationary and dynamic mode. In stationary mode, exhaust emissions were measured at 1000 and 2500 RPM (revolutions per minute); in dynamic mode, power and fuel consumption were measured while the engine was subjected to 25% load at 2000, 2500, and 3000 RPM, in addition to repeating exhaust gas and power tests at full load with an active dynamometer at up to 290 kW. Optimal results were obtained for blend E20. If compared to E0, E20 resulted in an average of 55.33%, 31%, 29.86% and 57.41% at reducing CO, O2, HC and NOX emissions, respectively, with increased CO2 emissions. It were also observed of 2.45% of gross power loss, besides an increase of 2.35%, 1.25%, 1.41%, 16.94% and 18.85% in thermal efficiency, volumetric efficiency, mechanical efficiency, specific fuel consumption and operating cost, respectively

Combustíveis para motores

Motores

Gases de combustão

Motor Flex

Injeção concomitante

Etanol

Gases de exaustão

GNV

Flex engine

Concomitant injection

Ethanol

Exhaust gas emissions

Desempenho de um ve?culo flex em bancada dinamom?trica de chassi

Laranja, Gil Colona

18 December 2010

Made available in DSpace on 2014-12-17T14:58:06Z (GMT). No. of bitstreams: 1 GilCL_DISSERT.pdf: 1771464 bytes, checksum: 92ddc93639f74d5c2bbc96617815f7ed (MD5) Previous issue date: 2010-12-18 / Flex-fuel vehicles are equipped with Otto Cycle internal combustion engines and have the capability of functioning with more than one type of fuel, mixed at the same tank and burned in the combustion chamber simultaneously. This sort of motorization is a world pattern due to the scarcity of petroleum, the trade of several types of fuels, technology advances and the restriction imposed to gas emissions to the atmosphere. In Brazil, the Flexfuel vehicles are a reality, specially the ones using fuel with 20 to 25% anhydrous alcohol mixed with gasoline and those that use natural gas or original liquid fuel (gasoline or hydrated ethanol). The Brazilian model Fiat Siena, the object of this present scientific investigation, is equipped with a unique electronic central capable of managing the liquid or gaseous fuels. The purpose of this research was to perform a comparative analysis in terms of performance (in terms of both potency and consumption) of a tetra-fuel vehicle - using a chassis dynamometer, operating with different fuels: common gasoline, premium gasoline, Podium gasoline, ethanol or natural gas. It became necessary to develop a bench of tests and trials procedures, as well as to know the functioning of the electronic management of the vehicle under analysis. The experiments were performed at the automotive laboratory in CTGAS-ER (Center of Gas Technologies and Renewable energies) at the light of Brazilian standard ABNT, NBR 7024: Light on-road vehicles - measurement of fuel consumption. The essay results on specific fuel consumption using common gasoline, premium gasoline and Podium gasoline have shown similar results, both for urban and road driving cycles / Os ve?culos flex s?o equipados com um motor de combust?o interna do ciclo Otto e t?m como caracter?stica a capacidade de funcionar com mais de um tipo de combust?vel, misturados no mesmo tanque e queimados na c?mara de combust?o simultaneamente. Este tipo de motoriza??o ? uma tend?ncia mundial devido ? escassez do petr?leo, a comercializa??o de v?rios tipos de combust?veis, aos avan?os tecnol?gicos dos sistemas de gerenciamento eletr?nico de combust?vel e ?s restri??es as emiss?es de gases poluentes na atmosfera. No Brasil, os ve?culos flex s?o uma realidade, com destaque para os ve?culos alimentados com 20 a 25% do ?lcool anidro misturado com gasolina e os que utilizam g?s natural ou o combust?vel l?quido original (gasolina ou etanol hidratado). O FIAT SIENA TETRAFUEL, objeto da presente investiga??o, ? equipado com uma ?nica central eletr?nica capaz de gerenciar os combust?veis l?quidos ou gasoso. A pesquisa em tela teve como prop?sito a an?lise comparativa de desempenho (pot?ncia e consumo) de um ve?culo tetracombust?vel simulando ciclos de condu??o urbano e de estrada em um dinam?metro de chassi, operando com os combust?veis: gasolina comum (tipo C), gasolina aditivada (tipo C), gasolina Podium (Premium), etanol (AEHC) ou g?s natural (GNV). Foi necess?rio desenvolver bancada de testes e procedimentos de ensaios, como tamb?m conhecer o funcionamento do gerenciamento eletr?nico do ve?culo em quest?o. Os ensaios foram realizados no Laborat?rio do Centro de Tecnologias do G?s e Energias Renov?veis de acordo com a norma ABNT NBR 7024 - Ve?culos rodovi?rios leves Medi??o do consumo de combust?vel. Os resultados dos ensaios de consumo espec?fico com as gasolinas comum, aditivada e Podium resultaram em valores pr?ximos, tanto no ciclo de condu??o urbano como tamb?m no ciclo de condu??o de estrada

Motor flex

G?s natural

Etanol

Gasolina

Dinam?metro de chassi

Flex-fuel motor

Natural gas

Ethanol

Gasoline

Chassis Dynamometer

CNPQ::ENGENHARIAS::ENGENHARIA MECANICA