3 sonuçlar
Arama Sonuçları
Listeleniyor 1 - 3 / 3
Öğe The effects of apricots seed oil biodiesel with some additives on performance and emissions of a diesel engine(International Journal of Automotive Engineering and Technologies, 2016) Aydın, Hüseyin; Hanbey, Hazar; Uyar, Mahmut; Şap, EmineThe purpose of this experimental work is to investigate influences of using manganese (Mn) as a combustion catalysts on apricot seed oil based biodiesel production and its engine out parameters. The metal based additive (Mn) was added to biodiesel (B50) at different dosages of 20-40-60 μmol/L. Also, other additives the propylene glycol and dodecanol were added into apricot seed oil biodiesel (B50) at rates of 5% and 1%, respectively for preparing test fuels.This additives improved flash point, pour point and viscosity of the biodiesel (B50) fuel. Experiments were carried out to clarify the effects of all additives added to biodiesel on performance and emission characteristics of a three-cylinder DI diesel engine operated at a constant speed of 1500 rpm and different loads from 2,50 to 10 kW. The engine test results revealed that specific fuel consumption, NOx were not changed significantly with the adding additives to biodiesel (B50) fuel, while CO, HC and smoke emission profiles were improved.Öğe Combustion, performance, and emissions of safflower biodiesel with dimethyl ether addition in a power generator diesel engine(Taylor & Francis, 2020-04-29) Aydın, Hüseyin; Işık, Mehmet Zerrakki; İşcan, Bahattin; Topkaya, HüsnaIn this study, the effect of dimethyl ether (DME) addition to diesel (ultralow sulfur diesel fuel) and biodiesel fuels on the combustion, performance, and emissions of a diesel-powered generator was investigated. For this purpose, fuel samples of the ternary blend that volumetrically composed of 10% safflower biodiesel–10% dimethyl ether–80% ultralow sulfur diesel fuel (B10DME10), the ternary blend that volumetrically composed of 25% safflower biodiesel–25% dimethyl ether–50% ultralow sulfur diesel fuel (B25DME25), the binary blend that volumetrically composed of 25% safflower biodiesel–75% ultralow sulfur diesel fuel (B10DME10) B25, and pure safflower oil biodiesel (B100) and standard ultralow sulfur diesel (D2) were prepared. The test engine was loaded by power drawing from the generator by the usage of equivalent powered electrical heating resistances. Generally, using DME with biodiesel improved the combustion properties of biodiesel blends that can be attributed to the lower viscosity of DME. The maximum cylinder pressure was obtained for B10DME10 in general and sometimes for B25DME25. When test fuels are compared, DME blends showed higher and earlier peaks of heat release compared to diesel and biodiesel blend fuels especially. It was found that combustion is more efficient from mass fuel consumption (MFC) and brake specific fuel consumption (BSFC) values in the use of DME than biodiesel. BSEC values of using DME in the blends considerably decreased that it is the proof of improved combustion and energy efficiency. The highest average efficiency values were obtained for B25DME25 as 28.3% although it has a lower calorific value than D2 due to the considerably improved combustion properties of DME, while the average efficiency values were 23.1%, 23.3%, and 20.7% for D2, B25, and B100 fuels, respectively. Highest carbon monoxide (CO) emissions were obtained in the use of pure biodiesel, while the lowest CO emissions were obtained in the use of DME. The addition of DME is seen to increase the nitrogen oxides (NOx) and CO emissions.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
