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Öğe Investigation of the usability of biodiesel obtained from residual frying oil in a diesel engine with thermal barrier coating(Journals & Books, 2015-04-05) Aydın, Hüseyin; Sayın, Cenk; Aydın, SelmanIn this study, biofuel was produced from residual frying oil of cottonseed and D2, B5 and B100 fuels were prepared in order to use in experiments. These fuels were tested in a single cylinder, four strokes, 3 LD 510 model Lombardini CI engine. Then the top surfaces of the piston and valves were coated with plasma spray coating method by using 100 μm of NiCrAl as lining layer and over this layer the same surfaces were coated with 400 μm of the mixture that consists of %88 ZrO2, %4 MgO and %8 Al2O3. After the coating process, above mentioned fuels were tested in the coated engine. Previously, same fuels had been tested in uncoated engine, at full load and various speeds. Performance, emission and combustion experiments were carried out in coated engine. By coating process, partial increases were observed in power, exhaust manifold temperature and engine noise, while partial decreases were seen in brake specific fuel consumption (Bsfc). Besides, partial reductions were found in carbon monoxide (CO), hydrocarbon (HC) and smoke opacity emissions, but partial increases were observed in nitrogen oxide (NOx) emissions. Cylinder gas pressure values were higher for coated engine. Moreover, heat releases were close to each other in both engines.Öğe Diesel engine applications for evaluation of performance and emission behavior of biodiesel from different oil stocks(Environmental Progress & Sustainable Energy, 2015-05) Aydın, Hüseyin; Behçet, Rasim; İlkılıç, Cumali; İşcan, Bahattin; Aydın, SelmanExtensive researches on alternative fuels have been carried out since the fossil-based fuels are limited. Many of these studies have ever been on the usability of vegetable oils in diesel engines. In the current work, biodiesel were produced from waste fish oil (FOB), hazelnut oil (HOB), rapeseed oil (ROB), and waste cooking oil (WCOB) by transesterification method. The same optimized variables of 6:1 methanol/oil molar ratio (mol/mol), 0.4% sodium methoxide concentration (wt.%), 60°C reaction temperature, 1000 rpm agitation speed and 2 h reaction time conditions were performed for biodiesel production from all kinds of above mentioned oils. Some of the important chemical and physical properties of test fuels were found. Without making blends with diesel fuel, pure biodiesels were used in a diesel engine in order to clarify how their usage effects on engine performance and exhaust emission parameters. When compared with those of diesel fuel, average torque and power were reduced while brake specific fuel consumption was increased for biodiesels. Besides, carbon monoxide (CO), hydrocarbon (HC) emissions were considerably lower for biodiesel usage while oxides of nitrogen (NOx) emissions were higher than that of diesel fuel. Furthermore, emissions of carbon dioxide (CO2) and smoke opacity were reduced for biodiesel usage. Oxygen (O2) contained in the exhaust gases were higher for biodiesels while they contain more oxygen molecules in their structureÖğe Biodiesel from safflower oil and its application in a diesel engine(Journals & Books, 2011-03) İlkılıç, Cumali; Aydın, Selman; Behçet, Rasim; Aydın, HüseyinSafflower seed oil was chemically treated by the transesterification reaction in methyl alcohol environment with sodium hydroxide (NaOH) to produce biodiesel. The produced biodiesel was blended with diesel fuel by 5% (B5), 20% (B20) and 50% (B50) volumetrically. Some of important physical and chemical fuel properties of blend fuels, pure biodiesel and diesel fuel were determined. Performance and emission tests were carried out on a single cylinder diesel engine to compare biodiesel blends with petroleum diesel fuel. Average performance reductions were found as 2.2%, 6.3% and 11.2% for B5, B20 and B50 fuels, respectively, in comparison to diesel fuel. These reductions are low and can be compensated by a slight increase in brake specific fuel consumption (Bsfc). For blends, Bsfcs were increased by 2.8%, 3.9% and 7.8% as average for B5, B20 and B50, respectively. Considerable reductions were recorded in PM and smoke emissions with the use of biodiesel. CO emissions also decreased for biodiesel blends while NOx and HC emissions increased. But the increases in HC emissions can be neglected as they have very low amounts for all test fuels. It can be concluded that the use of safflower oil biodiesel has beneficial effects both in terms of emission reductions and alternative petroleum diesel fuel.Öğe Seramik kaplı bir dizel motorunda biyodizel kullanımının emisyon parametrelerine etkisinin deneysel olarak araştırılması(Makine Teknolojileri Elektronik Dergisi, 2015) Aydın, Hüseyin; Sayın, Cenk; Aydın, Selman; İşcan, Bahattin; Işık, Mehmet ZerakkiBu çalışmada, dört silindirli, dört zamanlı bir dizel motor plazma sprey yöntemi ile 100 μm NiCrAl astar tabaka ve bu tabakanın üzerine 400 μm olmak üzere ZrO2 , %4 MgO ve %8 Al2O3 ana kaplama malzemesi ile kaplanmıştır. Bu motorda, seramik kaplama yönteminin yanma ve emisyon parametreleri üzerindeki etkileri araştırılmıştır. Deneysel çalışmalarda kullanılmak üzere pamuk yağı kökenli atık kızartma yağından üretilen biyodizel, dizel yakıtı ile %20 ve %50 oranında karıştırılarak sırası ile (B20) ve (B50) yakıtları oluşturulmuştur. Bu yakıtlar ile normal dizel (D2) yakıtı motor testlerinde kullanılmıştır. Deneyler kısmi yükte olmak üzere emisyon değerleri için 1200, 1500, 1800, 2100 ve 2400 dev/dk’da gerçekleştirilmiştir. Deneysel çalışma sırası ile D2, B20 ve B50 yakıtları ile önce kaplanmamış motorla egzoz emisyonları değerleri alınmıştır. Çalışma boyunca elde edilen sonuçlar ve belirgin avantajlar burada sunulmuştur
