DUYGU İPCİ, EMRE YILMAZ, FATİH AKSOY, AHMET UYUMAZ, SEYFİ POLAT, HAMİT SOLMAZ

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The Effects of iso-propanol and n-heptane Fuel Blends on HCCI Combustion Characteristics and Engine Performance

In this study, the effects of iso-propanol fuel blends were investigated on HCCI combustion and engine performance. The variations of cylinder pressure, heat release rate, start of combustion and engine performance were studied in a single cylinder, four stroke, gasoline HCCI engine. The experiments were conducted at different inlet air temperatures at constant air excessive coefficient (λ=2) and engine speed (1500 rpm). The test results showed that cylinder pressure and heat release rate delayed with the addition of iso-propanol in the test fuels. It was also found that the increase of inlet air temperature causes to advance the combustion. Iso-propanol has higher octane number compared to conventional fuels. However, calorific value of iso-propanol is lower than conventional fuels. The aim of this study is to research the usage of iso-propanol in HCCI engines. The experimental findings showed that the tendency of knocking combustion decreased with the increase of the amount of iso-propanol. The start of combustion was delayed with the increase of the amount of iso-propanol. In addition, combustion duration decreased with the addition of iso-propanol in HCCI combustion. As a result, knocking can be prevented using iso-propanol in HCCI engines. This effect also led to extend the HCCI operating range
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1. Pourkhesalian AM, Shamekhi AH, Salimi F., 2010, “Alternative fuel and gasoline in an SI engine: A comparative study of performance and emissions characteristics,” Fuel 89, 1056-1063

2. Veloo, P.S., Egolfopoulos, F.N., 2011, “Studies of n-propanol, iso-propanol, and propane flames,” Combustion and Flame 158, 501–510

3. Man, X., Tang, C., Zhang, J., Zhang, Y., Pan, L., Huang, Z., Law, C.K., 2014, “An experimental and kinetic modeling study of n-propanol and i-propanol ignition at high temperatures,” Combustion and Flame 161, 644–656

4. Balamurugan, T., Nalini, R., 2014, “Experimental investigation on performance, combustion and emission characteristics of four stroke diesel engine using diesel blended with alcohol as fuel,” Energy, 78, 356-363

5. Zhang J, Niu S, Zhang Y, Tang C, Jiang X, Hu E, Huang Z., 2013, “Experimental and modeling study of the auto-ignition of n-heptane/n-butanol mixtures,” Combustion and Flame, 160, 31-39

6. Saisirirat P, Togbe C, Chanchaona S, Foucher F, Mounaim-Rousselle C, Dagaut P., 2011, “Autoignition and combustion characteristics in HCCI and JSR using 1-butanol/n-heptane and ethanol/nheptane blends,” Proceedings of the Combustion Institute, 33, 3007-3014

7. Ozsezen AN, Canakci M., 2011, “Performance and combustion characteristics of alcohol- gasoline blends at wide-open throttle,” Energy 36, 2747-2752

8. Masum, B.M., Masjuki, H.H., Kalam, M.A., Palash, S.M., Habibullah, M., 2015, “Effect of alcohol-gasoline blends optimization on fuel properties, performance and emissions of a SI engine,” Journal of Cleaner Production 86, 230-237

9. Gravalos, I., Moshou, D., Gialamas, Th., Xyradakis, P., Kateris, D., Tsiropoulos, Z., 2013, “Emissions characteristics of spark ignition engine operating on lower-higher molecular mass alcohol blended gasoline fuels,” Renewable Energy 50, 27-32

10. Agarwal AK., 2007, “Biofuels (alcohols and biodiesel) applications as fuels for internal combustion engines,” Progress in Energy and Combustion Science 33, 233-271

11. Eyidogan M, Ozsezen AN, Canakci M, Turkcan A., 2010, “Impact of alcohol-gasoline fuel blends on the performance and combustion characteristics of an SI engine,” Fuel 89, 2713-2720

12. Heywood JB., 1988 “Internal combustion engines fundamentals,” (New York, McGraw-Hill), ISBN-13: 978-0070286375

13. Zhao, H., 2007, “HCCI and CAI engines for the automotive industry,” (England, Woodhead Publishing Limited), 78-118, ISBN: 978-1-84569-128-8

14. Gong, J., Zhang, Y., Tang, C., Huang, Z., 2014, “Emission Characteristics of IsoPropanol/Gasoline Blends in a Spark-Ignition Engine Combined With Exhaust Gas ReCirculation,” Thermal Science 18, 1, 269-277

15. Keskin, A., Gürü, M., 2011, “The Effects of Ethanol and Propanol Additions Into Unleaded Gasoline on Exhaust and Noise Emissions of a Spark Ignition Engine,” Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 33, 2194–2205

16. Lü X., Hou Y., Ji L., Zu L., Huang Z., 2006, “Heat release analysis on combustion and parametric study on emissions of HCCI engines fueled with 2-propanol/n-heptane blend fuels,” Energy Fuel 20, 5, 1870-1878

17. Beeckmann, J.,Cai, L., Pitsch, H., 2014, “Experimental investigation of the laminar burning velocities of methanol, ethanol, n-propanol, and n-butanol at high pressure,” Fuel 117, 340–350,

18. Neshat E, Saray R K., 2015, “An optimized chemical kinetic mechanism for HCCI combustion of PRFs using multi-zone model and genetic algorithm,” Energy Conversion and Management 92, 172-183

19. Frassoldati, A., Cuoci, A., Faravelli, T., Niemann, U., Ranzi, E., Seiser, R., Seshadri, K., 2010, “An experimental and kinetic modeling study of n-propanol and iso-propanol combustion,” Combustion and Flame 157, 2-16

20. Lü X, Ji L, Zu L, Hou Y, Huang C, Huang Z., 2007, “Experimental study and chemical analysis of n-heptane homogeneous charge compression ignition combustion with port injection of reaction inhibitors,” Combustion and Flame 149, 261-270

21. He B-Q, Yuan J, Liu M-B, Zhao H., 2014, “Combustion and emission characteristics of a nbutanol HCCI engine,” Fuel 115, 758-764

22. Vuilleumier D, Kozarac D, Mehl M, Saxena S, Pitz WJ, Dibble RW, Chen J-Y, Sarathy SM., 2014, “Intermediate temperature heat release in an HCCI engine fueled by ethanol/n-heptane mixtures: An experimental and modeling study,” Combustion and Flame 161, 3, 680-695

23. Curran HJ, Gaffuri P, Pitz JW, Westbrook CK., 1998, “A Comprehensive Modeling Study of nHeptane Oxidation,” Combustion and Flame 114, 149-177

24. Patil K R, Thipse S S., 2015, “Experimental investigation of CI engine combustion, performance and emissions in DEE–kerosene–diesel blends of high DEE concentration,” Energy Conversion and Management 89: 396-408
Makine Teknolojileri Elektronik Dergisi (elektronik)-Cover
  • ISSN: 1304-4141
  • Yayın Aralığı: Yılda 5 Sayı
  • Başlangıç: 2004
  • Yayıncı: -
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