Investigation of Performance and Exhaust Analysis of Petrol Engine Using Methanol-Gasoline mixes (original) (raw)
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Experimental Investigation of Methanol Blend Fuel in SI Engine
Automobile have become a very important part of our modern life style. And it runs on fossil fuel. But the excessive use of fossil fuels will very soon lead to the energy crises so the future of automobile based on fossil fuels has been badly affected by two major problems. That is less availability of fuel and environmental degradation. So it is very important to found some new renewable non-polluting alternative fuels to ensure the proper and safe survival of internal combustion engines. In present study we evaluate the performance of four stroke single cylinder spark ignition engine with ratio of 10%, 20%, 30%, 40% and 60% of methanol and gasoline by volume. Performance parameters (brake thermal efficiency, brake mean effective pressure, TFC and SFC) were determined at various loads on engine with methanol blended gasoline. The comparison was made on performance of conventional SI engine with pure gasoline operation. As a result, brake thermal efficiency and brake mean effective pressure showed improved performance when compared with pure gasoline performances.
Impact of Methanol-Gasoline Fuel Blend on The Fuel Consumption and Exhaust Emission of A SI Engine
The 3rd International Conference on Advanced Materials Science and Technology (ICAMST 2015) , 2016
In this study, the effect of methanol-gasoline fuel blend (M15, M30 and M50) on the fuel consumption and exhaust emission of a spark ignition engine (SI) were investigated. In the experiment, an engine four-cylinder, four stroke injection system (engine of Toyota Kijang Innova 1TR-FE) was used. Test were did to know the relation of fuel consumption and exhaust emission (CO, CO2, HC) were analyzed under the idle throttle operating condition and variable engine speed ranging from 1000 to 4000 rpm. The experimental result showed that the fuel consumption decrease with the use of methanol. It was also shown that the CO and HC emission were reduced with the increase methanol content while CO2 were increased.
Advances in Mechanical Engineering, 2021
Methanol showed promising results as an alternative to gasoline fuel. However, there exists a research gap for the effect of oxygenated fuel on lubricant oil deterioration along-with engine performance and emissions. This study aims the very topic. The characteristics of SI engine were evaluated for two different loads and nine different engine speeds. The lubricant oil samples were taken out from engine oil sump after 100 h of engine operations using gasoline (G) and M12 sequentially. The brake power of M12 was observed higher in comparison with G. The maximum BTE of 23.69% was observed for M12 on lower load and 2800 rpm. On average, the 6.05% and 6.31% decrease in HC emissions were observed using M12 in comparison with G at lower and higher load respectively. M12 produced 32.52% higher NOx emissions than that of G at lower load. The reduction in kinematic viscosities at 40°C of lubricant oil were found 11.61% and 18.78% for M12 and G respectively. TAN, specific gravity, flash poin...
An experimental investigation of gasoline-methanol (M5-M10) blends on performance in SI engine
Uluslararası Yakıtlar Yanma Ve Yangın Dergisi, 2021
Alkoller, araçlarda metanol kullanımına artan bir ilgi gösteren, fosil yakıtlara alternatif temel bir kategoridir. Metanol, sıvı olması, benzine benzer çeşitli fiziksel yanma özelliklerine sahip olması ve daha yüksek oktan sayısına sahip olması nedeniyle fosil olmayan yakıt olarak iyi bir aday olmuştur. Metanol ile karıştırılmış benzin, buji ateşlemeli (SI) motordaki motor ayar parametrelerini etkileyerek yakıtın oktan sayısını artırır. Bu makale, 150cc dört zamanlı buji ateşlemeli bir motorda benzin karışımlarında (M5 ve M10) %5-h/h ve %10-h/v metanol kullanılarak ateşleme zamanlamasının ve enjeksiyon süresi ayarının rolü üzerine bir performans araştırması bildirmektedir. Motor Kontrol Modülü (ECM) ile donatılmış. Burada motor performans parametreleri, yani tork, güç ve özgül yakıt tüketimi analiz edilirken, bu çalışmada ölçülen emisyon kalitesi parametreleri karbondioksit, karbon monoksit ve yanmamış hidrokarbonlardır. Sonuçlara göre, 24 ⁰bTDC ateşleme zamanlamasında ve M5 ve M10 karışımlarının kullanılmasında bir gelişme gösteren + %10 enjeksiyon süresinde optimize edilmiş ayarlı motor, standarttan %2,94 artan motor torku, %1,72 güç ve %7,29 oranında azalan özgül yakıt tüketimi üretir. aynı yakıt karışımını kullanarak motoru ayarlamak.
Fossil fuel is the major source for the production of energy used today. Due to the continuous rise in the cost of fossil fuel and demand of pollution free environment and clean energy has also been increasing Alternative fuel has become very noticeable and has a relevant role to play for both CI & SI engines, so it is important to reduce down dependency of gasoline as a fuel. Many research and investigation have been done focusing on using alternative fuel and minimizing the effect on fuel consumption and increasing engine performance. The aim of this review is to analyze the engine performance parameter and future hope of introducing blend of petrolmethanol, petrol with all other alcohol derivatives in varying ratios in SI engine and analyze brake torque, brake power, equivalence air fuel ratio, indicated and brake thermal efficiencies, fuel consumption, volumetric and mechanical efficiency.
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In the present day scenario emissions associated with the exhaust of automobiles resulting in global warming is a major menace to the entire world and also detrimental to health. Here an experimental attempt has been made to know the level of variation of exhaust emissions (Carbon monoxide, Hydrocarbons, Nitrusoxides) in S.I. four cylinder engine by adding methanol in various percentages in gasoline and also by doing slight modifications with the various subsystems of the engine under different load conditions. For various percentages of methanol blends (0-15%) pertaining to performance of engine it is observed that there is an increase of octane rating of gasoline along with increase in brake thermal efficiency, indicated thermal efficiency and reduction in knocking. On the other hand exhaust emissions CO and HC are considerably decreased but CO 2 and No x simultaneously slightly increasing. It is notable that for these methanol blends combustion temperature is found to be high and exhaust gas temperature decreasing gradually.
Numerical and Experimental Studies on Combustion Engines and Vehicles
The aim of this study is to develop the one-dimensional model of a four-cylinder, four-stroke, multi-point injection system SI engine and a direct injection system SI engine for predicting the effect of various fuel types on engine performances, specific fuel consumption, and emissions. Commercial software AVL BOOST was used to examine the engine characteristics for different blends of methanol and gasoline (by volume: 5% methanol [M5], 10% methanol [M10], 20% methanol [M20], 30% methanol [M30], and 50% methanol [M50]). The methanol-gasoline fuel blend results were compared to those of net gasoline fuel. The obtained results show that when methanol-gasoline fuel blends were used, engine performance such as power and torque increases and the brake-specific fuel consumption increases with increasing methanol percentage in the blended fuel.
Theoretical Study of Engine Performance Working on Methanol-Gasoline Blends
In this study, the effects of methanol–gasoline (M5, M10, M20, M30 and M50) fuel blends on the performance of a spark ignition (SI) engine were investigated. In the theoretical study, the four-cylinder, four-stroke, multi-point injection system SI engine was used. The results obtained from the use of methanol–gasoline fuel blends were compared to those of gasoline fuel. The results indicated that when methanol–gasoline fuel blends were used, the brake specific fuel consumption increased and engine performance parameters such as torque and power increases with increasing methanol amount in the blended fuel.
Investigation on Performance Characteristics of Petrol Engine Using Alternate Fuel
In the present scenario the S.I. engines being used in automotives by various manufactures are not properly suitable to out climatic condition. As our country is among tropical countries where the variation in the temperature is having very vast range i. e. from 0ºC to 48ºC in various regions of the country. Looking in to this vast varying temperature range it is very difficult to say that which temperature is most suited to operating condition of engines and gives us best performance level as for as SFC and brake power is concerned. In my work I have tried to investigate the best option to run the S.I. engine and simultaneously to maintain the emission norms. Petrol reserves are getting exhausted and it is recommended to find the alternate solution to it. In the present work the potential of methanol is being explored to serve as alternate fuel. This work is carried out with the use of petrol and methanol on a three cylinder, four stroke, petrol Maruti 800 engine connected to eddy current type dynamometer for loading was adopted to study engine power, fuel economy, engine exhaust emissions of hydrocarbon, oxides of nitrogen in the exhaust. The performance results that are reported include brake power and specific fuel consumption (SFC) as a function of engine coolant temperature; i.e. 50ºC, 60ºC, 70ºC and 80ºC with varying engine speed of 1500, 2000, 2500, rpm. Today research and development in the field of gasoline engines have to face a double challenge: on the one hand, fuel consumption has to be reduced, while on the other hand, ever more stringent emission standards have to be fulfilled. The development of engines with its complexity of in-cylinder processes requires modern development tools to exploit the full potential in order to reduce fuel consumption. There are many strategies for improving fuel economy and reducing exhaust emission. Hydrocarbon emission (HC) and carbon monoxide (CO). And finally it is concluded that no remarkable difference is recorded. With use of methanol instead of petrol the variation is marginal and can be attributed to the cycle temp and combustion efficiency. Thus methano l is recommended for use as an alternative fuel for petrol engine in coming future.
Investigation Of Methanol Utilization In Ci Engines
MATEC Web of Conferences, 2018
The decrease in the fossil fuel resources and more rigid emission standards make the necessity to look for new fuels and technologies. One of the possible fuels can be the different alcohols. The oxygen content of the alcohols can improve the combustion process and reduce the emission rates of incomplete combustion products. The blending methanol (M) and ethanol (E) with diesel fuel is limited by separation. This article shows the research results and analysis of two typical solutions. First are blends of stabilized rape seed methyl ester (RME) to prevent the phase separation. The tests are carried out on a conventional TDI engine (VW 1Z) at different speeds and loads. Experimental results indicate that the addition of 10% methanol to 80% Diesel and 30% of FAME blend increased the unburned hydrocarbon (THC) with 60%, decreased CO emission with near 4% and the particulate emission (PM) with near 30%, the NOx emissions were near the same. The other technology is the dual fuel method. In this case, different amount of methanol is injected into the intake manifold. The tests are carried out with a conventional DI engine (IVECO AIFO 8031) at constant speeds and different loads and energy ratios. Experimental results indicate that the increase of energy ratio of the methanol at full load decreased NOx emission with up to 60% and the particulate emission (PM) up to 90%, while the CO and THC emissions increased extremely mainly at part loads.