Improvement of Fusel Oil Features and Effect of Its Use in Different Compression Ratios for an SI Engine on Performance and Emission

Şimşek, Süleyman; Saygın, Hasan

doi:10.3390/en13071824

Cited by 29 publications

(5 citation statements)

References 41 publications

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“…The main reason for lower HC emissions in ethanol-gasoline and methanol-gasoline blends is that ethanol and methanol contain an excessive amount of oxygen molecules in their structure. NOX emissions occur as a result of the nitrogen in the air reacting with oxygen at high temperatures during the combustion process inside the engine cylinder (Fletcher et al, 1971;Şimşek et al, 2020). The alterations of the NOX emissions for all the tested fuel samples according to the engine load was presented in Figure 7.…”

Section: Resultsmentioning

confidence: 99%

A Study Toward Analyzing the Energy, Exergy and Sustainability Index Based on Performance and Exhaust Emission Characteristics of a Spark-Ignition Engine Fuelled with the Binary Blends of Gasoline and Methanol or Ethanol

Doğan¹,

Yeşilyurt²,

Erol³

et al. 2020

Uluslararası Muhendislik Arastirma Ve Gelistirme Dergisi

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The anxieties regarding global warming upon increasing greenhouse gas emission grades worldwide and the presence of petroleumbased fuels have directed the researchers to focus on the development of biofuels as well as the utilization of reformulated gasoline fuels by adding oxygenated additives resulting in an extensive application to improve fuel properties. In this study, engine performance and exhaust emission tests were performed using pure gasoline and volumetrically 10% ethanol-C2 or methanol-C1/gasoline blends (G100, E10, and M10). The engine experiments for all test fuels were carried out in a single-cylinder, fourstroke, water-cooled, spark-ignition (SI) engine under fixed engine speed (1500 rpm) and various loading conditions (25%, 50%, 75%, and 100%). In the tested engine, the brake specific fuel consumption (BSFC) values of G100, M10, and E10 fuels under full load condition were found to be as 0.279 kg/kWh, 0.296 kg/kWh and 0.307 kg/kWh, respectively. When the exhaust emissions were examined, E10 and M10 fuels were observed to have lesser CO, CO2, NOX, and HC emissions in comparison with pure gasoline. The lowest CO emission was determined as 3.15% for E10 fuel at a 75% load. NOX emissions descended with the increase of engine load in all fuel blends meanwhile the best performance is measured as 908.86 ppm in E10 fuel at 100% load. The minimum HC emission for E10 fuel was measured as 116.36 ppm at a 75% load. Compared with G100 fuel, E10 and M10 blends emitted 39% and 35% fewer HC emissions, respectively at 75% load. Besides, E10 and M10 fuels generated 8% and 5% less CO2 emissions at all engine loads, respectively, when compared to G100 fuel. As a result of thermodynamic analyses; The highest exergy efficiency values were found to be at 21.0% for G100, 17.92% for E10, and 16.85% for M10, respectively. Besides, the energy efficiencies were obtained to be as 30.01% for G100, 28.33% for E10, and 29.90% for M10, respectively. According to the sustainability analysis, E10 fuel performed better results than M10 fuel in order to be an alternative to G100 fuel.

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Section: Resultsmentioning

confidence: 99%

A Study Toward Analyzing the Energy, Exergy and Sustainability Index Based on Performance and Exhaust Emission Characteristics of a Spark-Ignition Engine Fuelled with the Binary Blends of Gasoline and Methanol or Ethanol

Doğan¹,

Yeşilyurt²,

Erol³

et al. 2020

Uluslararası Muhendislik Arastirma Ve Gelistirme Dergisi

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“…Silindir içerisinde yanma sonu oluşan yüksek sıcaklık ve yakıt içerisindeki oksijen miktarı CO2 oluşumunu tetikler [18,31,44]. Literatürdeki benzer çalışmalarda CO2 miktarının arttığı tespit edilmiştir [27,34,41,42]. Yapılan çalışmada %15'lik fuzel yağı katkısı yakıt karışımının içeriğindeki oksijen miktarının artışına sebep teşkil etmiş olabilir.…”

Section: Co2 Değişimleri (Co2 Changes)unclassified

“…Fuzel yağının fiziksel ve kimyasal özellikleri (Physical and chemical properties of fusel oil)[34] Test motoru teknik içerikleri (Test engine specifications) yağı ve benzin karışımları içerisindeki oktan sayısı üzerindeki baskın ısıl değerin etkisinin azalmasının etkisi olarak değerlendirilebilir[37].…”

unclassified

Buji ile Ateşlemeli Bir Motorda Sentetik Mangan Katkısı ile Fuzel Yağı-Benzin Karışımlarının Performans ve Emisyonlara Etkilerinin İncelenmesi

Üstün

Gürü

2022

Politeknik Dergisi

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ÖZİklim değişikliği, fosil yakıtların azaltılmasını ve yenilenebilir enerji kaynaklarının artırılmasını zorunlu kılmaktadır. Diğer taraftan, COVID-19 süreci dezenfektan ihtiyacını artırmış olup, alkolün yakıt olarak kullanımı yasaklanmıştır. Dezenfektan olarak kullanılamayan fuzel yağı, şeker fabrikalarında pancar melasından etil alkol üretimi sonrası geriye kalan çok kötü kokulu atık alkol karışımıdır. Bu çalışmada benzin içerisine farklı volumetrik oranlarda fuzel yağı ve sentetik mangan katkısı ilave edilerek motor performansı, özgül yakıt tüketimi ve emisyonlar üzerindeki etkileri incelenmiştir. Volumetrik yakıt karışımları olarak %5, %10, %15 ve %20 oranları belirlenmiştir. Karışımların viskozite, donma noktaları, parlama noktaları baz alınarak yapılan testlerde laboratuvar şartlarında benzin içerisine %15 fuzel yağı eklenmesi en uygun ideal karışım (F15B85) olarak belirlenmiştir. F15B85 test yakıtı içerisine sırasıyla 4-8-12 ve 16 ppm organik reçine esaslı mangan katkı maddesi ilave edilerek 4ppmF15B85, 8ppmF15B85, 12ppmF15B85, 16ppmF15B85 deneysel yakıtları oluşturulmuştur. Elde edilen deneysel yakıtlar atmosferik şarjlı benzinli bir motorda ölçüm testleri yapılarak motor performansı ve emisyon değerleri incelenmiştir. Deneysel sonuçlara göre 12ppmF15B85 yakıtı motor performans ve emisyonlar açısından diğer yakıt karışımlarına göre olumlu sonuçlar vermiştir. Motor performanslarında ortalama olarak torkta %4,18, güçte %5,04, BSFC (Fren özgül yakıt tüketimi)'de %3,12 artış, EGT (Egzoz gaz sıcaklığı)'de %2,48 azalma tespit edilmiştir. Egzoz emisyonları açısından bakıldığında CO (Karbonmonoksit) ve HC (Hidrokarbon)'de sırasıyla ortalama olarak %20,69, %10,51 azalma, CO2 (Karbondioksit) ve NOx (Azotoksit) de ise %3,65, %5,10 artış tespit edilmiştir. Anahtar Kelimeler: Mangan abietat, fuzel yağı, motor performans, egzoz emisyon.

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“…When the literature is searched, it is found that fusel oils are usually tested by mixing with gasoline fuel instead of diesel fuel. 40,41 There are a few studies investigating the effects of using fusel oil as an oxygenated fuel additive for diesel engines. So, the use of fusel oil as an alternative fuel in diesel engines can be considered as a new energy source for internal combustion engines.…”

Section: Introductionmentioning

confidence: 99%

Performance and emission behaviors of a CI engine fueled by waste feedstocks at varying compression ratios

Polat

2022

Proceedings of the Institution of Mechanical Engineers, Part E:

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The main objective of this study is to observe the effects of compression ratio (CR) variation on the engine performance and exhaust emission characteristics of a single-cylinder diesel engine fueled by waste fusel oil (F), waste cooking oil biodiesel (BD), and waste tire pyrolysis oil (P). For this purpose, Diesel RK software was used and the analyzes were performed at varying CRs of 18.3, 20.3, and 22.3. Analyzes were carried out at 2400 rpm constant engine speed, and varying engine loads (3, 6, 9, and 12 Nm). In the results, it is noticed that as the CR increased, BSFC (Brake Specific Fuel Consumption) value also increased for all test fuels. However, at low loads (3 and 6 Nm), the BSFC value decreased as the compression ratio increased after CR20.3. While the maximum BSFC value was obtained to be 560.55 g/kWh for P20 fuel at 3 Nm for CR20.3, the minimum one was achieved to be 46.76 g/kWh for neat diesel fuel at 12 Nm for 18.3. As the CR increased, the BTE (Brake thermal efficiency) value decreased for all test fuels at nearly all loads. However, at low loads (3 and 6 Nm), it is observed that the BTE improved as the CR increased after CR20.3. While maximum BTE was calculated to be 32.07% for P10F10 fuel at CR18.3 compression ratio at 12 Nm load, minimum one was achieved to be 15.36% for P20 at 3 Nm load for CR20.3. In addition, the NOx increased at all loads as CR increased for all test fuels. The maximum NOx value for P20 was recorded to be 1300 ppm at 12 Nm load and CR22.3. A minimum NOx was detected as 144. 56 ppm for P10F10 at 3 Nm, and CR18.3. In conclusion, the paper has proved that the experimental results are well-fitting with those of simulation software.

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Improvement of Fusel Oil Features and Effect of Its Use in Different Compression Ratios for an SI Engine on Performance and Emission

Cited by 29 publications

References 41 publications

A Study Toward Analyzing the Energy, Exergy and Sustainability Index Based on Performance and Exhaust Emission Characteristics of a Spark-Ignition Engine Fuelled with the Binary Blends of Gasoline and Methanol or Ethanol

A Study Toward Analyzing the Energy, Exergy and Sustainability Index Based on Performance and Exhaust Emission Characteristics of a Spark-Ignition Engine Fuelled with the Binary Blends of Gasoline and Methanol or Ethanol

Buji ile Ateşlemeli Bir Motorda Sentetik Mangan Katkısı ile Fuzel Yağı-Benzin Karışımlarının Performans ve Emisyonlara Etkilerinin İncelenmesi

Performance and emission behaviors of a CI engine fueled by waste feedstocks at varying compression ratios

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