biodiesel oxidation Articles

  • A hybrid multi–criteria decision support system for selection of optimum fuel blend

    The increasing diesel consumption, depletion of fossil fuels and environmental concerns have prompted usage of biodiesel. The selection of appropriate source and blending of biodiesel plays a role in alternate energy production. The aim of this study is to evaluate the optimum blend using Multi Criteria Decision Making (MCDM) technique. Five alternative fuel blends are prepared by varying the ...


    By Inderscience Publishers

  • Experimental investigations on diesel engine fuelled with methyl esters of cotton seed oil

    In this investigation, cotton seed methyl ester (CSME) was prepared by transesterification using potassium hydroxide (KOH) as catalyst. The engine performance was analysed with different blends of biodiesel and was compared with neat diesel. It was concluded that the lower blends of biodiesel are closer to diesel as far as thermal efficiency is concerned. In the lower blends, the brakes specific ...


    By Inderscience Publishers

  • Experimental investigations on diethyl ether as fuel additive in biodiesel engine

    In this work, biodiesel (methyl esters) is produced from unrefined rubber seed oil by two-step transesterification process. Biodiesel engines are prone to cold-starting problems in winter seasons and emit more nitrogen oxides. To overcome these problems, diethyl ether is used as a fuel additive for biodiesel. The lower percentage addition of diethyl ether with biodiesel improves the engine ...


    By Inderscience Publishers

  • Future of diesel engines with biodiesel economy

    Biofuel is a fuel from biological raw materials. Any animal or vegetable fat can become raw materials for production of the natural diesel practically. Biodiesel economy is really changed after technology was allowed to make fuel from algas, commercial crops, animal fats and even the fulfilled culinary oils can become the most widespread source of fats. This fuel is safe in production and use, ...

  • Future of diesel engines with biodiesel economy

    Biofuel is a fuel from biological raw materials. Any animal or vegetable fat can become raw materials for production of the natural diesel practically. Biodiesel economy is really changed after technology was allowed to make fuel from algas, commercial crops, animal fats and even the fulfilled culinary oils can become the most widespread source of fats. This fuel is safe in production and use, it ...

  • On the effect of a global adoption of various fractions of biodiesel on key species in the troposphere

    Biodiesel use is being promoted worldwide as a green alternative to conventional diesel. A global three-dimensional chemistry transport model is employed to investigate the impact on air quality and global tropospheric composition of adopting biodiesel as a fractional component of diesel use. Five global simulations are conducted where emission changes of hydrocarbons and nitrogen oxides were ...


    By Inderscience Publishers

  • Combustion, performance and emission characteristics of a DI CI engine using biodiesel with varied fatty acid composition

    Five Biodiesel produced from different vegetable oils were tested on a diesel engine to study the effect of biodiesel fatty acid composition specifically unsaturated composition on the engine combustion. The results from fuel analysis show that biodiesel (93% unsaturated fatty acid ester composition) with 55% linolenic ester has a higher density of 0.89 kg/m³, lower viscosity of 3.8 cSt, heating ...


    By Inderscience Publishers

  • Biodiesel dispersion replaces diesel fuel

    Is that possible to find substitution to traditional diesel fuel? Until recently these question were asked by ecologists and diesel cars owners who are taking hard time in periodic rises in price of fuel. With the event of the biodiesel development the situation cleared up. It became clear to all that cheap, qualitative and environmentally friendly biodiesel was born and started winning surely ...

  • Biodiesel dispersion replaces diesel fuel

    Is that possible to find substitution to traditional diesel fuel? Until recently these question were asked by ecologists and diesel cars owners who are taking hard time in periodic rises in price of fuel. With the event of the biodiesel development the situation cleared up. It became clear to all that cheap, qualitative and environmentally friendly biodiesel was born and started winning surely ...

  • Development of decision support system to select the best fuel blend in IC engines to enhance the energy efficiency

    This paper describes an application of hybrid MCDM technique for the selection of optimum blend in fish oil biodiesel among the six alternative fuel blends diesel, B20, B40, B60, B80 and B100 which is prepared by varying the amount of diesel with biodiesel. Brake thermal efficiency (BTE), exhaust gas temperature (EGT), oxides of nitrogen (NOx), smoke, hydrocarbon (HC), carbon ...


    By Inderscience Publishers

  • Putting the brakes on biodiesel

      Come December 31st, the Texas Commission on Environmental Quality (TCEQ) is set to effectively ban biodiesel in the state’s largest markets. The problem, they say, lies with the fuel’s nitrogen oxide (NOx) emissions and their contribution to the formation of ground-level ozone in Texas’ eastern counties. According to the TCEQ, biodiesel does not meet the stricter NOx standards recently ...

  • Selection of best biodiesel blend for IC engines: an integrated approach with FAHP–TOPSIS and FAHP–VIKOR

    The aim of this study is to select the best blend using multi–criteria decision–making (MCDM) technique. The six alternative fuel blends diesel, B20, B40, B60, B80 and B100 are prepared by varying the amount of diesel in biodiesel. Brake thermal efficiency (BTE), exhaust gas temperature (EGT), oxides of nitrogen (NOx), smoke, hydrocarbon (HC), carbon monoxide (CO) and carbon ...


    By Inderscience Publishers

  • Combustion and emission characteristics of a diesel engine fuelled with biodiesel having varying palmitic acid, stearic acid and oleic acid in their fuel composition

    The present work discusses the performance and emission characteristics of blends of vegetable oil esters with varying saturated fatty acid composition tested on a stationary direct injection compression ignition engine. Saturated fatty acids are long-chain carboxylic acids that usually have between 8 and 24 carbon atoms and have no double bonds. The unsaturated fatty acids resemble saturated ...


    By Inderscience Publishers

  • A Biodiesel Filled Future For Your Car - case study

    Future vehicles require a level of robustness to the legislated future introduction of bio-diesel. This research aims to understand the future of biodiesels in world markets and the characteristics of these fuels. The Need In recognising that sustainable sources of biodiesel will be dependant upon the particular local circumstances where the raw naterial is sourced, the ...


    By Green Fuels Ltd.

  • Perfect products for fuel consumption

    In present time fuel customers get offered a row of perfect products for fuel consumption enhancement, processes of combustion, both in petrol engines for cars, and to the diesel. All additives to petroleum are harmless to the car and serve as protection against the low-quality fuel which has got to a tank and will increase saving. They will secure and will burn any petroleum and if fuel is a ...

  • Bioethanol mixing is the movable mechanism of fuel consumption

    Bioethanol mixing is applied in automotive industry; it is enough to add 10% of ethanol in gasoline considerably to increase car power and fuel efficiency. Small concentration of ethanol in fuel (to 10%) is not significantly influences on operation of the engine, but with increase of concentration to 85% be required power supply system alteration. Considering that biofuel comes to everyday life ...

  • Bioethanol mixing is the movable mechanism of fuel consumption

    Bioethanol mixing is applied in automotive industry; it is enough to add 10% of ethanol in gasoline considerably to increase car power. Small concentration of ethanol in fuel (to 10%) is not significantly influences on operation of the engine, but with increase of concentration to 85% be required power supply system alteration. Considering that biofuel comes to everyday life more strongly, the ...

  • Performance of a direct diesel engine using aviation fuels blended with biodiesel

    In this study, jet fuel (JF) and railroad fuel (D2) with SME blends (5%, 20%, 50%) were used in a four–cylinder, naturally aspirated, direct (DI) diesel engine. The engine was operated under full load and tested at various speeds to determine the engine's performance and exhaust emission characteristics. The experimental results show that as the SME ratio of the fuels increases, the break ...


    By Inderscience Publishers

  • Bioethanol Dispersing as World Challenge

    Bioethanol dispersing finds broad application in a national economy as solvent, also it is applied in production of a butadiene, as fuel for rocket engines, car engines, antifreeze, etc., it is an important intermediate product of organic synthesis (in production of esters, celluloid, artificial silk, ethyl aldehyde, acetic acid, chloroform, ethyl oxide and other products). Ethanol contains ...

  • Additives mixing effect fuel consumption

    Additives are an instrument of fuel operational development properties which can’t be provided with the previous stages of fuel producing. They lead to product correction, instead of participate in the main method of production. Their efficiency is caused by chemical structure, structure of a basic base, mutual influence and additives mixing process. Improvers which affect some parameters ...

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