Spelling suggestions: "subject:"heavyduty engine"" "subject:"heavyly engine""
1 |
Shock Tube Ignition Studies of Renewable Diesel Fuels for Medium and Heavy-Duty TransportationMohammed, Zuhayr Pasha 01 January 2024 (has links) (PDF)
Currently extensive research on alternative fuels is being conducted due to their increasing demand to reduce greenhouse emissions. One renewable fuel studied in this work is dimethyl ether (DME) blended with propane(C3H8) as a potential mixture for heavy-duty engines used in semi-trucks. The blend has the potential to drastically reduce particulate and greenhouse gas emissions compared to a conventional diesel engine operating under similar conditions. To develop the use of mixture, one must conduct detailed conceptual and simulation studies before progressing to detail studies in CFD, engine modifications, and live testing. For simulations, accurate high-fidelity chemical kinetic models are necessary. However, the validity of the chemical kinetic mechanism for operating conditions of a heavy-duty mixing-controlled compression (MCCI) engine was widely unknown until recent work presented here and published. In this work, we studied the ignition of DME and propane blends in a shock tube under MCCI engine conditions. Ignition delay time (IDT) gathered behind the reflected shock for DME-propane mixtures for heavy-duty compression ignition (CI) engine parameters. Testing was conducted for undiluted varieties spanning from temperatures of 700 to 1100 K at pressures ranging from 55 to 84 bar for various blends (100% CH3OCH3, 100% C3H8, 60% CH3OCH3/ 40% C3H8) of DME and propane were combusted in synthetic air (21% O2/ 79% N2). Several experiments were conducted at higher pressures (90-120 bar) to improve the model performance and accuracy. The ignition delay times (IDTs) were compared to recent mechanisms, including Aramco3.0, NUIG, and Dames et al. A common trend among the mechanisms was overpredicted experimental IDTs. Further studies were conducted by a sensitivity analysis using the Dames et al. model, and critical reactions sensitive to IDTs of DME-propane mixture near 60 bar are outlined. Chemical analysis was conducted on the NTC region to explain chemical kinetics which is critical for developing MCCI heavy duty engines.
|
2 |
Uma abordagem a respeito do desgaste em materiais de camisas de cilindro de motores ciclo diesel atendendo as modernas leis de emissõesCardille, Dionisio Mateo 18 August 2009 (has links)
Made available in DSpace on 2016-03-15T19:37:00Z (GMT). No. of bitstreams: 1
Dionisio Mateo Cardille.pdf: 3138784 bytes, checksum: c27dcdc2765d16f7b30f2b6a5a588e37 (MD5)
Previous issue date: 2009-08-18 / This study broaches the diesel engines cylinder liners waste concepts, characterizing abrasive waste, tribo-chemical waste and scuffing, with component external factors, like adultered fuel or with high sulfur level frequently found in Brazil. It presents the modern emissioned engines and the direct causes in the cylinder liners material requirement, with the tribologic evolution of piston, piston rings and cylinder. Some concepts of cylinders internal diameter surface finish and the direct involvement in the cylinder smooth, and the blow by flux besides oil consumption. The cylinder liners are manufactured in perlitic gray casting iron, and it was
compared to a bainitic gray casting iron as alternative material, in order to satisfy the modern environment laws for emissions. The experiment technical was based on a dynamometric test in a 146kw diesel engine, during 500hs, with 27,4% overpower. The liners were assembled in
the engine block in an intercalated way, avoiding benefits in the cylinders closer to the water pump. After the test, the liners were dimensioned with the respective piston rings. As result, was observed that the proposal bainitic material got a better waste resistance in comparison
with the perlitic material, with a better dimensional stability. The piston rings presented similar waste when applied in both materials, respecting the project original tribological pair. / Este estudo aborda os conceitos de desgaste em camisas de cilindro para motores diesel, caracterizando desgaste abrasivo, tribo-químico e "scuffing", juntamente com fatores externos ao componente como a questão dos combustíveis adulterados ou com alto teor de enxofre, freqüentemente encontrados no Brasil. Apresenta o enquadramento dos motores nas modernas leis de emissões, e suas causas diretas na exigência de materiais para camisas de cilindro, juntamente com a evolução tribológica do conjunto pistão, anéis e camisa. Definem-se também alguns conceitos de rugosidade e acabamento superficial dos cilindros e suas implicações diretas no amaciamento neste componente, além do tema passagem de gases da câmara de combustão para o cárter (blow by) e consumo de óleo lubrificante. As camisas de cilindro são em sua maioria confeccionadas em liga de ferro fundido cinzento com matriz perlítica, a qual foi objeto de comparação com uma liga proposta de matriz bainítica, como
material alternativo, visando satisfazer as condições impostas pela moderna legislação ambiental. A técnica experimental empregada baseou-se em um ensaio dinamométrico em um motor diesel de 146kw, porém submetido a plena carga durante 500hs, com 27,4% de acréscimo de potência. As camisas foram montadas no motor de forma a estarem intercaladas e evitando favorecimentos em cilindros mais quentes do bloco. Após o teste, as camisas de cilindro foram dimensionadas, juntamente com os respectivos anéis de pistão. Como resultado, observou-se que o material proposto em liga com matriz bainítica teve uma melhor resposta ao desgaste em comparação com o material de matriz perlítica, inclusive com uma melhor estabilidade dimensional. Os anéis de pistão tiveram desgaste similar em ambos os materiais, respeitando o par tribológico original de projeto.
|
3 |
The process of OBD certification : a comparative study between Euro VI and CARB / Processen för OBD certifiering : en komparativ studie mellan Euro VI och CARBAnayati, Shilan, Gaber, Mohammed January 2019 (has links)
Purpose: The purpose of this study is to compare the legal requirements for Euro VI and CARB regarding OBD certification in order to identify the challenges that may come for a manufacturer’s move from Euro VI classified heavy-duty engines to engines that meet the requirements of CARB. Furthermore, the study also aims to identify the effects that these challenges will have on the organisation. Research question: What type of challenges arise for a manufacturing company when developing an OBD certification process according to the requirements from CARB compared to Euro VI and how do these challenges affect the organisation? Method: The nature of this study was qualitative with a deductive method as an approach, where theories and empirical findings interacts. The theoretical framework is divided into two parts, in which the first part is obtained from scientific articles and books and the second part from legislations. The empirical data was gathered from interviews at a case study company and the information was thematically analysed. Conclusion: This study concludes that the movement from Euro VI to CARB standards will result in comprehensive changes for a company’s OBD process itself as well as organisational changes within the company. There will be a need to establish new processes and new ways of working within the organisation which can lead to comprehensive coordination difficulties that should be taken into consideration. In conclusion, it is as important to consider the effects of the changes that this movement will bring on the company and the actors within, as it is with the implementation of the process itself. / Syfte: Syftet med denna studie är att jämföra lagkraven för Euro VI och CARB angående OBD certifieringen och därmed identifiera de utmaningar som kan uppstå i och med övergången från Euro VI klassificerade motorer till motorer som uppfyller kraven från CARB. Vidare syftar studien även till att undersöka hur dessa utmaningar påverkar organisationen. Forskningsfråga: Vilka utmaningar uppstår för ett tillverkande företag vid utveckling av en OBD certifieringsprocess enligt lagkrav från CARB i jämförelse med Euro VI och hur påverkar dessa utmaningar organisationen? Metod: Denna studie är av en kvalitativ karaktär som är baserad på en deduktiv forskningsmetod. Den teoretiska referensramen är uppdelat i två sektioner, vari den första är baserad på vetenskapliga artiklar och böcker och den andra från lagkrav. Empiriska data har samlats från intervjuer på fallstudieföretaget och metoden som har använts för att analysera materialet är tematisk analys. Slutsats: Denna studie konkluderar att övergången från Euro VI till CARB lagkrav resulterar i omfattande förändringar för företagets OBD process och bringar organisationsförändringar inom företaget. Det kommer att finnas ett behov av att etablera nya processer och nya arbetssätt inom organisationen som kan leda till omfattande samordningsproblem som bör has i åtanke. Sammanfattningsvis är det av yttersta vikt att ta hänsyn till de organisationsförändringarna som förväntas uppstå i och med denna förändring och inte enbart fokusera på att implementera en ny process.
|
Page generated in 0.0403 seconds