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    Combustion, performance and emissions of a diesel power generator fueled with biodiesel-kerosene and biodiesel-kerosene-diesel blends
    (Elsevier, 2017-02-05) Bayındır, Hasan; Işık, Mehmet Zerrakki; Argunhan, Zeki; Yücel, Halit Lütfi; Aydın, Hüseyin
    High percentages of biodiesel blends or neat biodiesel cannot be used in diesel engines due to high density and viscosity, and poor atomization properties that lead to some engine operational problems. Biodiesel was produced from canola oil by transesterification process. Test fuels were prepared by blending 80% of the biodiesel with 20% of kerosene (B80&K20) and 80% of the biodiesel with 10% of kerosene and 10% diesel fuel (B80&K10&D10). Fuels were used in a 4 cylinders diesel engine that was loaded with a generator. Combustion, performance and emission characteristics of the blend fuels and D2 in the diesel engine for certain loads of 3.6, 7.2 and 10.8 kW output power and 1500 rpm constant engine speed were experimented and deeply analyzed. It was found that kerosene contained blends had quite similar combustion characteristics with those of D2. Mass fuel consumption and Bscf were slightly increased for blend fuels. HC emissions slightly increased while NOx emissions considerably reduced for blends. It was resulted that high percentages of biodiesel can be a potential substitute for diesel fuel provided that it is used as blending fuel with certain amounts of kerosene.
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    Aspir ve kanola biyodizeli kullanımının egzoz emisyonu ve motor performansına etkilerinin incelenmesi
    (Küresel Mühendislik Çalışmaları Dergisi, 2016-04-01) Aydın, Hüseyin; Işık, Mehmet Zerrakki; Ziyadanoğulları Budak, Neşe; Oktay, Hasan; Bayındır, Hasan; Yücel, Halit Lutfi
    Biodiesel fuel, which can be produced from crude or waste vegetable oil, is an important alternative renewable fuel for diesel engines. Particularly the use of vegetable oils for diesel engines has found an important place in several surveys. Biodiesel can be used alone, or blended with petrodiesel in any proportions. Biodiesel is suitable for usage at conventional diesel engines without modification. In this study, canola and safflower oil biodiesel methyl is realized by using the esterification method.. The produced biodiesels were blended in %(50) (in volume) with diesel fuel. The blends were tested in a four cycle, four cylinder Diesel engine. The effects of biodiesel addition to Diesel No. 2 on the performance and emissions of the engine were examined at full load. The resulting performance values were found to be similar to diesel fuel. In general, specific fuel consumption of biodiesel is higher than diesel at all engine loads. Significant difference between the exhaust temperature is not determined. AB50 biodiesel compared to diesel HC emissions at high loads began to decline. NOx, CO2 and O2 emissions ratio has increased at high loads for Biodiesel fuels. Experimental results showed that the produced biodiesels can be partially substituted for the diesel fuel at most operating conditions in terms of the performance parameters and emissions without any engine modification and preheating of the blends.
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    An analysis of biodiesel requirement, production and policies in Turkey
    (e-Journal of New World Sciences Academy, 2008-02-01) Aydın, Hüseyin; Bayındır, Hasan
    The development of alternative fuels from renewable resources, like biomass, has gained considerable attention in recent years. A biodiesel program would give many benefits in terms of generation of employment for poor/rural people, farmers, accelerate of starting many type of industries for developing countries like Turkey. This paper investigates current status of biodiesel in Turkey, advantages and disadvantages of biodiesel in diesel engines, annual diesel fuel consumption, import and export ratings and annual diesel fuel demand. The main focus of this paper is on Turkey’s current fuel status and to clarify Turkey’s biodiesel demand as alternative to fossil diesel fuel. Results show that Turkey is highly in need of alternative energies such as bio-fuels. That’s way it is recommended that Turkey should promote oilseed crops farming to the rise production of biodiesel.
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    Performance and emission analysis of cottonseed oil methyl ester in a diesel engine
    (Elsevier, 2010-03) Aydın, Hüseyin; Bayındır, Hasan
    In this study, performance and emissions of cottonseed oil methyl ester in a diesel engine was experimentally investigated. For the study, cottonseed oil methyl ester (CSOME) was added to diesel fuel, numbered D2, by volume of 5%(B5), 20%(B20), 50%(B50) and 75%(B75) as well as pure CSOME (B100). Fuels were tested in a single cylinder, direct injection, air cooled diesel engine. The effects of CSOME-diesel blends on engine performance and exhaust emissions were examined at various engine speeds and full loaded engine. The effect of B5, B20, B50, B75, B100 and D2 on the engine power, engine torque, bsfc's and exhaust gasses temperature were clarified by the performance tests. The influences of blends on CO, NOx, SO2 and smoke opacity were investigated by emission tests. The experimental results showed that the use of the lower blends (B5) slightly increases the engine torque at medium and higher speeds in compression ignition engines. However, there were no significant differences in performance values of B5, B20 and diesel fuel. Also with the increase of the biodiesel in blends, the exhaust emissions were reduced. The experimental results showed that the lower contents of CSOME in the blends can partially be substituted for the diesel fuel without any modifications in diesel engines.
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    Diyarbakır ilinde çok fonksiyonlu güneş enerjili kurutma sistemi oluşturulması üzerine bir araştırma
    (TMMOB Elektrik Mühendisleri Odası, 2009) Aydın, Hüseyin; Bayındır, Hasan; Tosun, Nermin
    Geleneksel olarak kullanılan en yaygın kurutma şekli güneş altında sererek yapılan kurutmadır. Kurutma, enerji girdisi yüksek olan bir işlemdir. 1980’lerden itibaren enerji fiyatlarındaki artış, kirliliğin önlenmesi üzerine yapılan yasal düzenlemeler, sa÷lÕ÷a uygun ortamda gÕda üretimi gibi konular önem arz etmektedir. Kurutma için harcanan enerji tüketimini azaltmak ve yenilenebilir enerji kaynaklarÕndan olan güneú enerjisinden daha çok yararlanmak üzere çeúitli kurutma yöntemleri geliútirilmektedir. Bu çalÕúma kapsamÕnda tek enerji kayna÷Õ olarak güneúin kullanÕldÕ÷Õ bir gÕda kurutma sistemi oluúturulmuútur. ømal edilen kurutma sistemi ile gÕda ürünlerinin olumsuz (toz, is, kurum, gaz emisyonlarÕ, böcek vs.) çevresel koúullardan etkilenmeden ve güneú ÕúÕnlarÕna direkt maruz kalmadan kurutulmasÕ amaçlanmÕútÕr. Güneú fÕrÕnÕ adÕ da verilebilen bu kurutma sisteminin iç sÕcaklÕ÷Õ belli derecelerde tutularak mevsimine göre incir, üzüm, domates, patlÕcan, biber, kabak, salça vb. gÕdalar fiziksel kalite ve özellikleri bozulmadan güneú enerjisi ile ekolojik olarak kurutulabilecektir. Bu sistemde ilk olarak salça kurutma denemesi yapÕlmÕútÕr.
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    Doğalgazın araçlarda motor yakıtı olarak kullanımının değerlendirilmesi
    (Dicle Üniversitesi, 2013) Budak Ziyadanoğulları, Neşe; Bayındır, Hasan; Yücel, Halit Lutfi
    Clean and cheap alternative energy sources begun to be explored because of increase in air pollution due to exhaust waste of vehicles, global warming and parallel rise in fossil oil prices. Nowadays, natural gas, which widely used especially in houses for heating, has been considered as enviromentally and important alternative engine fuel owing to high combustion efficiency; own reserves more than fossil oil in the world and more cheaper than fossil oil. In this study, natural gas reserves, storage and usage methods in vehicles, applications in different engine technologies have been investigated. In addition, negative and positive aspects have been evaluated resulting from the use of natural gas in internal combustion engines.
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    Evaluation of combustion, performance and emission indicators of canola oil-kerosene blends in a power generator diesel engine
    (Elsevier, 2017-03-05) Aydın, Hüseyin; Işık, Mehmet Zerrakki; Bayındır, Hasan
    Direct use of vegetable oils as fuel in diesel engines leads to some important engine operational problems that need to be solved in order to make their usability possible. Canola oil was blended with kerosene by percentages of 90% canola oil-10% kerosene (C90&K10), 75% canola oil-25% kerosene (C75&K25) and 50% canola oil-50% kerosene (C50&K50). These blend fuels were initially analyzed by means of physicochemical fuel properties and comparisons were made with standard diesel fuel. Blend fuels and standard diesel fuel (D2) were than tested in a diesel power generator with 4 cylinders in order to investigate the combustion, performance and emission characteristics of the blend fuels and compare them with the petroleum based diesel fuel (D2). All experiments were carried out at specified output power values of 3.6, 7.2 and 10.8 kW and 1500 rpm constants speed. The combustion characteristics of canola oil kerosene blends have found be quite similar to those of D2. Mass fuel consumption and brake specific fuel consumption (bsfc) were slightly increased for blend fuels. Nitrogen oxide (NOx) emissions and exhaust smoke opacities were considerably reduced for blends while carbon monoxides (CO) and unburned hydrocarbon (HC) emissions were a bit increased. It can be concluded that kerosene blended vegetable oils can be used as fuel with improved combustion and performance characteristics compared to those of pure vegetable oils.
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    The effect of n-butanol additive on low load combustion, performance and emissions of biodiesel-diesel blend in a heavy duty diesel power generator
    (Elsevier, 2017-04) Işık, Mehmet Zerrakki; Bayındır, Hasan; İşcan, Bahattin; Aydın, Hüseyin
    Diesel power generators are often used under partially load conditions. Especially, under low load conditions, it is crucial to find a solution for their considerably high brake specific fuel consumption (bsfc) and exhaust output emissions. Other points are the usability of waste cooking oil and an oxygenated alternative fuel in low load conditions of diesel generator. In this point of view, 10% n-butanol and 10% biodiesel mixture was blended with 80% of ultra low sulfur diesel fuel named here as BB20 was used and comparisons have been made with 20% biodiesel/80% diesel fuel named here as B20 and ultra low sulfur diesel fuel named here as (D2). Previously, main important physical and chemical fuel properties of test fuel have been found. These fuels were tested in low load operations of a diesel engine generator in order to find out the effects of blend fuels on combustion characteristics, performance and emissions of the test engine. The test results are presented in this paper and seem to raise quite interesting points. Butanol addition to diesel and biodiesel blends can be considered as a good solution for reducing density, viscosity and thus sustainable usability of biodiesel and increase thermal efficiency and lower carbon monoxide (CO) and oxides of nitrogen (NOx) under comparatively lower load conditions in diesel power generator engines.
  • Küçük Resim
    Öğe
    Emissions from an engine fueled with biodiesel-kerosene blends
    (Taylor & Francis, 2011-01) Aydın, Hüseyin; Bayındır, Hasan; İlkılıç, Cumali
    Biofuels are renewable energy sources for internal combustion engines and they have low emissions. They are increasingly used as an alternative to petroleum fuels. In this work, three different fuel types, such as commercial diesel fuel (D2), 20% biodiesel and 80% diesel fuel called here as B20, and 80% biodiesel and 20% kerosene, called here as BK20, were used in a single cylinder, four stroke, direct injection compression ignition engine. Kerosene was used as an additive to approach the properties of biodiesel to D2. The effects of the blends on CO, NOx, and smoke emissions as well as on some of the performance parameter of the engine were investigated. The prepared fuel, BK20 blend, has almost the same fuel properties as conventional diesel fuel. The experimental results showed that the exhaust emissions for BK20 were fairly reduced as compared to diesel fuel as well as B20. Besides, the performance of CI engine was improved with the use of the BK20, especially in comparison to B20. Results suggest that the BK20 can be substituted to the petroleum-based diesel fuel in diesel engines.
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    The effects of λ and ε on engine performance and exhaust emissions using ethanol-unleaded gasoline blends in an SI engine
    (Taylor & Francis, 2011-01) Bayındır, Hasan; Yücesu, Hüseyin Serdar; Aydın, Hüseyin
    In this study, the effect of relative air-fuel ratio (λ) and compression ratio (ε) on engine performance and exhaust emissions was experimentally investigated. The experiments were performed by varying ethanol-unleaded gasoline blends as E0 (100% unleaded gasoline), E10 (10% ethanol and 90% gasoline blend), E30 (30% ethanol and 70% gasoline blend), and E85 (85% ethanol and 15% gasoline blend). In experiments, first the effects of ethanol-unleaded gasoline blends on engine performance and exhaust emissions at 0.931, 1, and 1.069 λ values were clarified. Second, tests were carried out with compression ratios of 7:1, 9:1, and 11:1. The results indicated that the relative air-fuel ratio and ethanol content play an important role in reducing CO (carbon monoxide emissions) and HC (hydrocarbon) emissions. Results also showed that the engine power was slightly decreased, especially at higher engine speeds. A probable knocking phenomenon did not occur with the increase of compression ratio because of a higher octane number of ethanol-unleaded gasoline blends.